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|
/* GNU Hurd standard exec server.
Copyright (C) 1992, 1993, 1994 Free Software Foundation, Inc.
Written by Roland McGrath.
#ifdef BFD
Can exec any executable format the BFD library understands
to be for this flavor of machine. [requires nonexistent BFD support]
#endif
#ifdef AOUT
Can exec a.out format.
#endif
This file is part of the GNU Hurd.
The GNU Hurd is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2, or (at your option)
any later version.
The GNU Hurd is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with the GNU Hurd; see the file COPYING. If not, write to
the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. */
#include <errno.h>
#include <mach.h>
#include <mach/notify.h>
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <sys/stat.h>
#include <hurd.h>
#include <hurd/startup.h>
#include <hurd/shared.h>
#include <hurd/fsys.h>
#include <hurd/exec.h>
#include "exec_S.h"
#include "fsys_S.h"
#include "notify_S.h"
/* Default: BFD or a.out? */
#if !defined (BFD) && !defined (AOUT)
#define AOUT
#endif
#ifdef BFD
#include <bfd.h>
/* Uses the following nonexistent functions: */
bfd *bfd_openstream (FILE *);
extern error_t bfd_mach_host_arch_mach (host_t host,
bfd_architecture *arch,
bfd_machine *machine);
#else
#include A_OUT_H
extern error_t aout_mach_host_machine (host_t host, int *host_machine);
#endif
/* Data shared between check, check_section,
load, load_section, and finish. */
struct execdata
{
/* Passed out to caller. */
error_t error;
/* Set by check. */
vm_address_t entry;
#ifdef BFD
FILE stream;
bfd *bfd;
#else
file_t file;
struct exec *header;
#endif
memory_object_t filemap, cntlmap;
struct shared_io *cntl;
off_t file_size;
/* Set by caller of load. */
task_t task;
#ifdef BFD
/* Vector indexed by section index,
information passed from check_section to load_section.
Set by caller of check_section and load. */
vm_offset_t *locations;
#endif
};
#ifdef BFD
static bfd host_bfd; /* A BFD whose architecture and machine type
reflect those of the running system. */
#else
static enum machine_type host_machine; /* a.out machine_type of the host. */
#endif
static file_t realnode;
static mach_port_t execserver; /* Port doing exec protocol. */
static mach_port_t fsys; /* Port doing fsys protocol. */
static mach_port_t request_portset; /* Portset we receive on. */
char *exec_version = "0.0 pre-alpha";
char **save_argv;
/* Standard exec data for secure execs. */
static mach_port_t *std_ports;
static int *std_ints;
static size_t std_nports, std_nints;
/* Communication between S_exec_init and S_exec_setexecdata */
static mach_port_t essentialstartupport, essentialhostport;
#ifdef BFD
/* Return a Hurd error code corresponding to the most recent BFD error. */
static error_t
b2he (error_t deflt)
{
switch (bfd_error)
{
case system_call_error:
return a2he (errno);
case no_memory:
return ENOMEM;
default:
return deflt;
}
}
#else
#define b2he() a2he (errno)
#endif
#ifdef BFD
/* Check a section, updating the `locations' vector [BFD]. */
static void
check_section (bfd *bfd, asection *sec, void *userdata)
{
struct execdata *u = userdata;
vm_address_t addr;
if (u->error)
return;
if (!(sec->flags & SEC_ALLOC|SEC_LOAD) ||
(sec->flags & SEC_NEVER_LOAD))
/* Nothing to do for this section. */
return;
if (sec->flags & SEC_RELOC)
{
u->error = EINVAL;
return;
}
addr = (vm_address_t) sec->bfd_vma;
if (sec->flags & SEC_LOAD)
{
file_ptr section_offset;
u->locations[sec->index] = sec->filepos;
if ((off_t) sec->filepos < 0 || (off_t) sec->filepos > e->file_size)
u->error = EINVAL;
}
}
#endif
enum section { text, data, bss };
/* Load or allocate a section. */
static void
#ifdef BFD
load_section (bfd *bfd, asection *sec, void *userdata)
#else
load_section (enum section section, struct execdata *u)
#endif
{
#ifdef BFD
struct execdata *u = userdata;
#endif
vm_address_t addr = 0;
vm_offset_t filepos = 0;
vm_size_t secsize = 0;
vm_prot_t vm_prot;
if (u->error)
return;
#ifdef BFD
if (sec->flags & SEC_NEVER_LOAD)
/* Nothing to do for this section. */
return;
#endif
vm_prot = VM_PROT_READ | VM_PROT_WRITE | VM_PROT_EXECUTE;
#ifdef BFD
addr = (vm_address_t) sec->bfd_vma;
filepos = u->locations[sec->index];
secsize = sec->size;
if (sec->flags & (SEC_READONLY|SEC_ROM))
vm_prot &= ~VM_PROT_WRITE;
#else
switch (section)
{
case text:
addr = (vm_address_t) N_TXTADDR (*u->header);
filepos = (vm_offset_t) N_TXTOFF (*u->header);
secsize = N_TXTLEN (*u->header);
vm_prot &= ~VM_PROT_WRITE;
break;
case data:
addr = (vm_address_t) N_DATADDR (*u->header);
filepos = (vm_offset_t) N_DATOFF (*u->header);
secsize = N_DATLEN (*u->header);
break;
case bss:
addr = (vm_address_t) N_BSSADDR (*u->header);
secsize = N_BSSLEN (*u->header);
break;
}
#endif
if (
#ifdef BFD
sec->flags & SEC_LOAD
#else
section != bss
#endif
)
{
vm_address_t mapstart = round_page (addr);
if (mapstart - addr < secsize)
{
/* MAPSTART is the first page that starts inside the section.
Map all the pages that start inside the section. */
#ifdef BFD
if (sec->flags & SEC_IN_MEMORY)
u->error = vm_write (u->task, mapstart,
contents + (mapstart - addr),
secsize - (mapstart - addr));
else
#endif
u->error = vm_map (u->task,
&mapstart, secsize - (mapstart - addr), 0, 0,
u->filemap, filepos + (mapstart - addr), 1,
vm_prot,
VM_PROT_READ|VM_PROT_WRITE|VM_PROT_EXECUTE,
VM_INHERIT_COPY);
if (u->error)
return;
}
if (mapstart > addr)
{
/* We must read and copy in the space in the section before the
first page boundary. */
vm_address_t overlap_page = trunc_page (addr);
vm_address_t ourpage = 0;
vm_size_t size = 0;
void *readaddr;
size_t readsize;
#ifdef AOUT
if (N_MAGIC (*u->header) == NMAGIC || N_MAGIC (*u->header) == ZMAGIC)
{
u->error = ENOEXEC;
goto maplose;
}
#endif
if (u->error = vm_read (u->task, overlap_page, vm_page_size,
&ourpage, &size))
{
maplose:
vm_deallocate (u->task, mapstart, secsize);
return;
}
readaddr = (void *) (ourpage + (addr - overlap_page));
readsize = size - (addr - overlap_page);
#ifdef BFD
if (sec->flags & SEC_IN_MEMORY)
bcopy (sec->contents, readaddr, readsize);
else if (fread (readaddr, readsize, 1, u->stream) != 1)
{
u->error = errno;
goto maplose;
}
#else
if (u->cntl)
{
/* We cannot call io_read while holding the conch,
so we must read by mapping the file ourselves. */
vm_address_t data;
if (u->error = vm_map (mach_task_self (), &data, readsize, 0, 1,
u->filemap, filepos, 1,
VM_PROT_READ, VM_PROT_READ,
VM_INHERIT_COPY))
goto maplose;
bcopy ((void *) data, readaddr, readsize);
vm_deallocate (mach_task_self (), data, readsize);
}
else
do
{
char *data;
unsigned int nread;
data = readaddr;
if (u->error = io_read (u->file, &data, &nread,
filepos, readsize))
goto maplose;
if (data != readaddr)
{
bcopy (data, readaddr, nread);
vm_deallocate (mach_task_self (), (vm_address_t) data,
nread);
}
readaddr += nread;
readsize -= nread;
} while (readsize > 0);
#endif
u->error = vm_write (u->task, overlap_page, ourpage, size);
if (u->error == KERN_PROTECTION_FAILURE)
{
/* The overlap page is not writable; the section
that appears in preceding memory is read-only.
Change the page's protection so we can write it. */
u->error = vm_protect (u->task, overlap_page, size,
0, vm_prot | VM_PROT_WRITE);
if (!u->error)
u->error = vm_write (u->task, overlap_page, ourpage, size);
/* If this section is not supposed to be writable either,
restore the page's protection to read-only. */
if (!u->error && !(vm_prot & VM_PROT_WRITE))
u->error = vm_protect (u->task, overlap_page, size,
0, vm_prot);
}
vm_deallocate (mach_task_self (), ourpage, size);
if (u->error)
goto maplose;
}
if (u->cntl)
u->cntl->accessed = 1;
}
#ifdef BFD
else if (sec->flags & SEC_ALLOC)
#else
else
#endif
{
/* SEC_ALLOC: Allocate zero-filled memory for the section. */
vm_address_t mapstart = round_page (addr);
if (mapstart - addr < secsize)
{
/* MAPSTART is the first page that starts inside the section.
Allocate all the pages that start inside the section. */
if (u->error = vm_allocate (u->task, &mapstart,
secsize - (mapstart - addr), 0))
return;
}
if (mapstart > addr
#ifdef BFD
&& (sec->flags & SEC_HAS_CONTENTS)
#endif
)
{
/* Zero space in the section before the first page boundary. */
vm_address_t overlap_page = trunc_page (addr);
vm_address_t ourpage = 0;
vm_size_t size = 0;
if (u->error = vm_read (u->task, overlap_page, vm_page_size,
&ourpage, &size))
{
vm_deallocate (u->task, mapstart, secsize);
return;
}
bzero ((void *) (ourpage + (addr - overlap_page)),
size - (addr - overlap_page));
u->error = vm_write (u->task, overlap_page, ourpage, size);
vm_deallocate (mach_task_self (), ourpage, size);
}
}
}
/* Do post-loading processing for a section. This consists of peeking the
pages of non-demand-paged executables. */
static void
#ifdef BFD
postload_section (bfd *bfd, asection *sec, void *userdata)
#else
postload_section (enum section section, struct execdata *u)
#endif
{
#ifdef BFD
struct execdata *u = userdata;
#endif
vm_address_t addr = 0;
vm_size_t secsize = 0;
#ifdef BFD
addr = (vm_address_t) sec->bfd_vma;
secsize = sec->size;
#else
switch (section)
{
case text:
addr = (vm_address_t) N_TXTADDR (*u->header);
secsize = N_TXTLEN (*u->header);
break;
case data:
addr = (vm_address_t) N_DATADDR (*u->header);
secsize = N_DATLEN (*u->header);
break;
case bss:
addr = (vm_address_t) N_BSSADDR (*u->header);
secsize = N_BSSLEN (*u->header);
break;
}
#endif
if (
#ifdef AOUT
section != bss && N_MAGIC (*u->header) == NMAGIC
#else
(sec->flags & SEC_LOAD) && !(bfd->flags & D_PAGED)
#endif
)
{
/* Pre-load the section by peeking every mapped page. */
vm_address_t myaddr, a;
vm_size_t mysize;
myaddr = 0;
/* We have already mapped the file into the task in load_section.
Now read from the task's memory into our own address space so we
can peek each page and cause it to be paged in. */
if (u->error = vm_read (u->task, trunc_page (addr), round_page (secsize),
&myaddr, &mysize))
return;
/* Peek at the first word of each page. */
for (a = ((myaddr + mysize) & ~(vm_page_size - 1));
a >= myaddr; a -= vm_page_size)
/* Force it to be paged in. */
(void) *(volatile int *) a;
vm_deallocate (mach_task_self (), myaddr, mysize);
}
}
#ifdef BFD
/* stdio input-room function. */
static int
input_room (FILE *f)
{
struct execdata *e = f->__cookie;
const size_t size = e->file_size;
if (f->__buffer != NULL)
vm_deallocate (mach_task_self (), f->__buffer, f->__bufsize);
if (f->__target > size)
{
f->__eof = 1;
return EOF;
}
f->__buffer = NULL;
if (vm_map (mach_task_self (),
(vm_address_t *) &f->__buffer, vm_page_size, 0, 1,
e->filemap, f->__target, 1, VM_PROT_READ, VM_PROT_READ,
VM_INHERIT_NONE))
{
errno = EIO;
f.__error = 1;
return EOF;
}
f->__bufsize = vm_page_size;
f->__offset = f->__target;
if (f->__target + f->__bufsize > size)
f->__get_limit = f->__buffer + (size - f->__target);
else
f->__get_limit = f->__buffer + f->__bufsize;
if (e->cntl)
e->cntl->accessed = 1;
f->__bufp = f->__buffer;
return (unsigned char) *f->__bufp++;
}
static int
close_stdio_bfd (void *cookie)
{
struct execdata *e = cookie;
if (e->stream.__buffer != NULL)
vm_deallocate (e->stream.__buffer, e->stream.__bufsize);
return 0;
}
#endif
/* Prepare to load FILE.
On successful return, the caller must allocate the
E->locations vector, and map check_section over the BFD. */
static inline void
check (file_t file, struct execdata *e)
{
e->file = file;
#ifdef BFD
e->bfd = NULL;
#endif
e->cntl = NULL;
e->filemap = MACH_PORT_NULL;
e->cntlmap = MACH_PORT_NULL;
{
memory_object_t rd, wr;
if (e->error = io_map (file, &rd, &wr))
return;
if (wr)
mach_port_deallocate (mach_task_self (), wr);
if (rd == MACH_PORT_NULL)
{
e->error = EBADF; /* ? XXX */
return;
}
e->filemap = rd;
e->error = /* io_map_cntl (file, &e->cntlmap) */ EOPNOTSUPP; /* XXX */
if (e->error)
{
/* No shared page. Do a stat to find the file size. */
struct stat st;
if (e->error = io_stat (file, &st))
return;
e->file_size = st.st_size;
}
else
e->error = vm_map (mach_task_self (), (vm_address_t *) &e->cntl,
vm_page_size, 0, 1, e->cntlmap, 0, 0,
VM_PROT_READ|VM_PROT_WRITE,
VM_PROT_READ|VM_PROT_WRITE, VM_INHERIT_NONE);
if (e->cntl)
while (1)
{
spin_lock (&e->cntl->lock);
switch (e->cntl->conch_status)
{
case USER_COULD_HAVE_CONCH:
e->cntl->conch_status = USER_HAS_CONCH;
case USER_HAS_CONCH:
spin_unlock (&e->cntl->lock);
/* Break out of the loop. */
break;
case USER_RELEASE_CONCH:
case USER_HAS_NOT_CONCH:
default: /* Oops. */
spin_unlock (&e->cntl->lock);
if (e->error = io_get_conch (e->file))
return;
/* Continue the loop. */
continue;
}
/* Get here if we are now IT. */
e->file_size = 0;
if (e->cntl->use_file_size)
e->file_size = e->cntl->file_size;
if (e->cntl->use_read_size && e->cntl->read_size > e->file_size)
e->file_size = e->cntl->read_size;
break;
}
}
#ifdef BFD
/* Open a BFD to do mapped i/o to the file. */
memset (&e->stream, 0, sizeof (e->stream));
e->stream.__magic = _IOMAGIC;
e->stream.__mode.__read = 1;
e->stream.__userbuf = 1;
e->stream.__room_funcs.__input = input_room;
e->stream.__io_funcs.__close = close_stdio_bfd;
e->stream.__cookie = &e;
e->bfd = bfd_openstream (&e->stream);
if (e->bfd == NULL)
{
e->error = b2he (ENOEXEC);
return;
}
bfd_error = no_error;
if (!bfd_check_format (e->bfd, bfd_object))
{
e->error = b2he (ENOEXEC);
return;
}
else if (!bfd_arch_compatible (e->bfd, &host_bfd, NULL, NULL) ||
!(bfd->flags & EXEC_P))
{
e->error = b2he (EINVAL);
return;
}
e->entry = bfd->start_address;
#else
/* Map in the a.out header. */
if (e->file_size < sizeof (*e->header))
{
e->error = EINVAL;
return;
}
e->header = NULL;
if (e->error = vm_map (mach_task_self (),
(vm_address_t *) &e->header, sizeof (*e->header),
0, 1, e->filemap, 0, 1, VM_PROT_READ, VM_PROT_READ,
VM_INHERIT_NONE))
return;
if (N_BADMAG (*e->header))
{
e->error = ENOEXEC;
return;
}
if (N_MACHTYPE (*e->header) && N_MACHTYPE (*e->header) != host_machine)
{
e->error = EINVAL;
return;
}
e->entry = e->header->a_entry;
#endif
}
/* Load the file. */
static inline void
load (task_t usertask, struct execdata *e)
{
if (e->error)
return;
e->task = usertask;
#ifdef BFD
bfd_map_over_sections (e->bfd, load_section, e);
#else
load_section (text, e);
load_section (data, e);
load_section (bss, e);
#endif
}
/* Do post-loading processing on the task. */
static inline void
postload (struct execdata *e)
{
if (e->error)
return;
#ifdef BFD
bfd_map_over_sections (e->bfd, postload_section, e);
#else
postload_section (text, e);
postload_section (data, e);
postload_section (bss, e);
#endif
}
/* Release the conch and clean up mapping the file and control page. */
static inline void
finish_mapping (struct execdata *e)
{
if (e->cntl != NULL)
{
spin_lock (&e->cntl->lock);
if (e->cntl->conch_status == USER_RELEASE_CONCH)
{
spin_unlock (&e->cntl->lock);
io_release_conch (e->file);
}
else
{
e->cntl->conch_status = USER_HAS_NOT_CONCH;
spin_unlock (&e->cntl->lock);
}
vm_deallocate (mach_task_self (), (vm_address_t) e->cntl, vm_page_size);
}
if (e->filemap != MACH_PORT_NULL)
mach_port_deallocate (mach_task_self (), e->filemap);
if (e->cntlmap != MACH_PORT_NULL)
mach_port_deallocate (mach_task_self (), e->cntlmap);
}
/* Clean up after reading the file (need not be completed). */
static inline void
finish (struct execdata *e)
{
finish_mapping (e);
#ifdef BFD
if (e->bfd != NULL)
(void) bfd_close (e->bfd);
#else
if (e->header != NULL)
vm_deallocate (mach_task_self (),
(vm_address_t) e->header, sizeof (*e->header));
mach_port_deallocate (mach_task_self (), e->file);
#endif
}
static int
request_server (mach_msg_header_t *inp,
mach_msg_header_t *outp)
{
extern int notify_server (), exec_server (), fsys_server ();
return (notify_server (inp, outp) ||
exec_server (inp, outp) ||
fsys_server (inp, outp));
}
/* Allocate SIZE bytes of storage, and make the
resulting pointer a name for a new receive right. */
static void *
alloc_recv (size_t size)
{
void *obj = malloc (size);
if (obj == NULL)
return NULL;
if (mach_port_allocate_name (mach_task_self (),
MACH_PORT_RIGHT_RECEIVE,
(mach_port_t) obj)
== KERN_NAME_EXISTS)
{
void *new = alloc_recv (size); /* Bletch. */
free (obj);
return new;
}
return obj;
}
/* Information kept around to be given to a new task
in response to a message on the task's bootstrap port. */
struct bootinfo
{
vm_address_t stack_base;
vm_size_t stack_size;
int flags;
char *argv, *envp;
size_t argvlen, envplen, dtablesize, nports, nints;
mach_port_t *dtable, *portarray;
int *intarray;
};
static inline error_t
servercopy (void **arg, u_int argsize, boolean_t argcopy)
{
if (argcopy)
{
/* ARG came in-line, so we must copy it. */
error_t error;
void *copy;
if (error = vm_allocate (mach_task_self (),
(vm_address_t *) ©, argsize, 1))
return error;
bcopy (*arg, copy, argsize);
*arg = copy;
}
return 0;
}
/* Put PORT into *SLOT. If *SLOT isn't already null, then
mach_port_deallocate it first. If AUTHENTICATE is not null, then
do an io_reauthenticate transaction to determine the port to put in
*SLOT. If CONSUME is set, then don't create a new send right;
otherwise do. (It is an error for both CONSUME and AUTHENTICATE to be
set.) */
static void
set_init_port (mach_port_t port, mach_port_t *slot, auth_t authenticate,
int consume)
{
int pid = getpid ();
if (*slot != MACH_PORT_NULL)
mach_port_deallocate (mach_task_self (), *slot);
if (authenticate && port)
{
io_reauthenticate (port, pid);
auth_user_authenticate (authenticate, port, pid, slot);
}
else
{
*slot = port;
if (!consume && port)
mach_port_mod_refs (mach_task_self (), port, MACH_PORT_RIGHT_SEND, 1);
}
}
static error_t
do_exec (mach_port_t execserver,
file_t file,
task_t oldtask,
int flags,
char *argv, u_int argvlen, boolean_t argv_copy,
char *envp, u_int envplen, boolean_t envp_copy,
mach_port_t *dtable, u_int dtablesize, boolean_t dtable_copy,
mach_port_t *portarray, u_int nports, boolean_t portarray_copy,
int *intarray, u_int nints, boolean_t intarray_copy,
mach_port_t *deallocnames, u_int ndeallocnames,
mach_port_t *destroynames, u_int ndestroynames)
{
struct execdata e;
int finished = 0;
task_t newtask = MACH_PORT_NULL;
thread_t thread = MACH_PORT_NULL;
struct bootinfo *boot = 0;
int secure, defaults;
/* Catch this error now, rather than later */
if ((!std_ports || !std_ints) && (flags & (EXEC_SECURE|EXEC_DEFAULTS)))
return EIEIO;
if (oldtask != MACH_PORT_NULL && (e.error = task_suspend (oldtask)))
return e.error;
check (file, &e);
if (e.error)
goto out;
#ifdef BFD
e.locations = alloca (e.bfd->section_count * sizeof (vm_offset_t));
bfd_map_over_sections (e.bfd, check_section, e);
if (e.error)
goto out;
#endif
if (oldtask == MACH_PORT_NULL)
flags |= EXEC_NEWTASK;
if (flags & (EXEC_NEWTASK|EXEC_SECURE))
{
/* Create the new task. If we are not being secure, then use OLDTASK
for the task_create RPC, in case it is something magical. */
if (e.error = task_create (flags & EXEC_SECURE || !oldtask ?
mach_task_self () : oldtask,
0, &newtask))
goto out;
}
else
{
thread_array_t threads;
mach_msg_type_number_t nthreads, i;
/* Terminate all the threads of the old task. */
if (e.error = task_threads (oldtask, &threads, &nthreads))
goto out;
for (i = 0; i < nthreads; ++i)
{
thread_terminate (threads[i]);
mach_port_deallocate (mach_task_self (), threads[i]);
}
vm_deallocate (mach_task_self (),
(vm_address_t) threads, nthreads * sizeof (thread_t));
/* Deallocate the entire virtual address space of the task. */
vm_deallocate (oldtask,
VM_MIN_ADDRESS, VM_MAX_ADDRESS - VM_MIN_ADDRESS);
/* Deallocate and destroy the ports requested by the caller.
These are ports the task wants not to lose if the exec call
fails, but wants removed from the new program task. */
for (i = 0; i < ndeallocnames; ++i)
mach_port_deallocate (oldtask, deallocnames[i]);
for (i = 0; i < ndestroynames; ++i)
mach_port_destroy (oldtask, destroynames[i]);
newtask = oldtask;
}
/* Load the file into the task. */
load (newtask, &e);
if (e.error)
goto out;
/* Release the conch for the file. */
finish_mapping (&e);
/* Further frobnicate the task after loading from the file. */
postload (&e);
if (e.error)
goto out;
/* Clean up. */
finish (&e);
finished = 1;
/* Create the initial thread. */
if (e.error = thread_create (newtask, &thread))
goto out;
/* Store the data that we will give in response
to the RPC on the new task's bootstrap port. */
boot = alloc_recv (sizeof (*boot));
if (boot == NULL)
{
e.error = ENOMEM;
goto out;
}
if (nports <= INIT_PORT_BOOTSTRAP)
{
mach_port_t *new;
vm_allocate (mach_task_self (),
(vm_address_t *) &new,
INIT_PORT_MAX * sizeof (mach_port_t), 1);
memcpy (new, portarray, nports * sizeof (mach_port_t));
bzero (&new[nports], (INIT_PORT_MAX - nports) * sizeof (mach_port_t));
}
if (portarray[INIT_PORT_BOOTSTRAP] == MACH_PORT_NULL &&
oldtask != MACH_PORT_NULL)
task_get_bootstrap_port (oldtask, &portarray[INIT_PORT_BOOTSTRAP]);
if (e.error = mach_port_insert_right (mach_task_self (),
(mach_port_t) boot,
(mach_port_t) boot,
MACH_MSG_TYPE_MAKE_SEND))
goto out;
if (e.error = task_set_bootstrap_port (newtask, (mach_port_t) boot))
goto out;
mach_port_deallocate (mach_task_self (), (mach_port_t) boot);
if (e.error = servercopy ((void **) &argv, argvlen, argv_copy))
goto bootout;
boot->argv = argv;
boot->argvlen = argvlen;
if (e.error = servercopy ((void **) &envp, envplen, envp_copy))
goto bootout;
boot->envp = envp;
boot->envplen = envplen;
if (e.error = servercopy ((void **) &dtable,
dtablesize * sizeof (mach_port_t),
dtable_copy))
goto bootout;
boot->dtable = dtable;
boot->dtablesize = dtablesize;
if (e.error = servercopy ((void **) &portarray,
nports * sizeof (mach_port_t),
portarray_copy))
goto bootout;
boot->portarray = portarray;
boot->nports = nports;
if (e.error = servercopy ((void **) &intarray,
nints * sizeof (mach_port_t),
intarray_copy))
goto bootout;
boot->intarray = intarray;
boot->nints = nints;
boot->flags = flags;
{
mach_port_t unused;
mach_port_request_notification (mach_task_self (),
(mach_port_t) boot,
MACH_NOTIFY_NO_SENDERS, 0,
(mach_port_t) boot,
MACH_MSG_TYPE_MAKE_SEND_ONCE,
&unused);
}
secure = (flags & EXEC_SECURE);
defaults = (flags & EXEC_DEFAULTS);
if ((secure || defaults) && nports < INIT_PORT_MAX)
{
/* Allocate a new vector that is big enough. */
vm_allocate (mach_task_self (),
(vm_address_t *) &boot->portarray,
INIT_PORT_MAX * sizeof (mach_port_t),
1);
memcpy (boot->portarray, portarray,
nports * sizeof (mach_port_t));
vm_deallocate (mach_task_self (), (vm_address_t) portarray,
nports * sizeof (mach_port_t));
nports = INIT_PORT_MAX;
}
/* Note that the paretheses on this first test are defferent from the others
below it. */
if ((secure || defaults) && !boot->portarray[INIT_PORT_AUTH])
set_init_port (std_ports[INIT_PORT_AUTH],
&boot->portarray[INIT_PORT_AUTH], 0, 0);
if (secure || (defaults && !boot->portarray[INIT_PORT_PROC]))
{
mach_port_t new;
if (e.error = __USEPORT (PROC, proc_task2proc (port, newtask, &new)))
goto bootout;
set_init_port (new, &boot->portarray[INIT_PORT_PROC], 0, 1);
}
if (secure || (defaults && !boot->portarray[INIT_PORT_CRDIR]))
set_init_port (std_ports[INIT_PORT_CRDIR],
&boot->portarray[INIT_PORT_CRDIR],
boot->portarray[INIT_PORT_AUTH], 0);
if (secure || (defaults && !boot->portarray[INIT_PORT_CWDIR]))
set_init_port (std_ports[INIT_PORT_CWDIR],
&boot->portarray[INIT_PORT_CWDIR],
boot->portarray[INIT_PORT_AUTH], 0);
if ((secure || defaults) && nints < INIT_INT_MAX)
{
/* Allocate a new vector that is big enough. */
vm_allocate (mach_task_self (),
(vm_address_t *) &boot->intarray,
INIT_INT_MAX * sizeof (int),
1);
memcpy (boot->intarray, intarray, nints * sizeof (int));
vm_deallocate (mach_task_self (), (vm_address_t) intarray,
nints * sizeof (int));
nints = INIT_INT_MAX;
}
if (secure)
boot->intarray[INIT_UMASK] = std_ints ? std_ints[INIT_UMASK] : CMASK;
if (nports > INIT_PORT_PROC)
proc_mark_exec (boot->portarray[INIT_PORT_PROC]);
/* Start up the initial thread at the entry point. */
boot->stack_base = 0, boot->stack_size = 0; /* Don't care about values. */
if (e.error = mach_setup_thread (newtask, thread, (void *) e.entry,
&boot->stack_base, &boot->stack_size))
goto bootout;
if (oldtask != newtask && oldtask != MACH_PORT_NULL)
{
#if 0
/* The program is on its way. The old task can be nuked. */
process_t proc;
/* Use the canonical proc server if secure, or there is none other.
When not secure, it is nice to let processes associate with
whatever proc server turns them on, regardless of which exec
itself is using. */
process_t psrv = ((nports > INIT_PORT_PROC && !(flags & EXEC_SECURE)) ?
boot->portarray[INIT_PORT_PROC] : procserver);
/* XXX there is a race here for SIGKILLing the process. */
if (! proc_task2proc (procserver, oldtask, &proc))
{
/* XXX check for errors?? */
proc_reassign (proc, newtask);
mach_port_deallocate (mach_task_self (), proc);
}
#endif
e.error = EINVAL;
goto bootout;
}
newtask = MACH_PORT_NULL;
bootout:
if (e.error)
{
mach_port_deallocate (mach_task_self (), (vm_address_t) boot);
if (boot->portarray != portarray)
vm_deallocate (mach_task_self (),
(vm_address_t) boot->portarray,
boot->nports * sizeof (mach_port_t));
free (boot);
}
out:
if (newtask != MACH_PORT_NULL)
{
task_terminate (newtask);
mach_port_deallocate (mach_task_self (), newtask);
}
if (!finished)
finish (&e);
task_resume (oldtask);
thread_resume (thread);
if (thread != MACH_PORT_NULL)
mach_port_deallocate (mach_task_self (), thread);
mach_port_deallocate (mach_task_self (), oldtask);
mach_port_move_member (mach_task_self (),
(mach_port_t) boot, request_portset);
return e.error;
}
kern_return_t
S_exec_exec (mach_port_t execserver,
file_t file,
task_t oldtask,
int flags,
char *argv, u_int argvlen, boolean_t argv_copy,
char *envp, u_int envplen, boolean_t envp_copy,
mach_port_t *dtable, u_int dtablesize, boolean_t dtable_copy,
mach_port_t *portarray, u_int nports, boolean_t portarray_copy,
int *intarray, u_int nints, boolean_t intarray_copy,
mach_port_t *deallocnames, u_int ndeallocnames,
mach_port_t *destroynames, u_int ndestroynames)
{
if (!(flags & EXEC_SECURE))
{
const char envar[] = "\0EXECSERVERS=";
char *p = NULL;
if (envplen >= sizeof (envar) &&
!memcmp (&envar[1], envp, sizeof (envar) - 2))
p = envp - 1;
else
p = memmem (envp, envplen, envar, sizeof (envar) - 1);
if (p != NULL)
{
size_t len;
char *list;
int tried = 0;
p += sizeof (envar) - 1;
len = strlen (p) + 1;
list = alloca (len);
memcpy (list, p, len);
while (p = strsep (&list, ":"))
{
file_t server;
if (!hurd_path_lookup (portarray[INIT_PORT_CRDIR],
portarray[INIT_PORT_CWDIR],
p, 0, 0, &server))
{
error_t err = (server == execserver ?
do_exec (server, file, oldtask, 0,
argv, argvlen, argv_copy,
envp, envplen, envp_copy,
dtable, dtablesize, dtable_copy,
portarray, nports, portarray_copy,
intarray, nints, intarray_copy,
deallocnames, ndeallocnames,
destroynames, ndestroynames) :
exec_exec (server,
file, MACH_MSG_TYPE_MOVE_SEND,
oldtask, 0,
argv, argvlen,
envp, envplen,
dtable, MACH_MSG_TYPE_MOVE_SEND,
dtablesize,
portarray, MACH_MSG_TYPE_MOVE_SEND,
nports,
intarray, nints,
deallocnames, ndeallocnames,
destroynames, ndestroynames));
mach_port_deallocate (mach_task_self (), server);
if (err != ENOEXEC)
return err;
tried = 1;
}
}
if (tried)
/* At least one exec server got a crack at it and gave up. */
return ENOEXEC;
}
}
/* There were no user-specified exec servers,
or none of them could be found. */
return do_exec (execserver, file, oldtask, 0,
argv, argvlen, argv_copy,
envp, envplen, envp_copy,
dtable, dtablesize, dtable_copy,
portarray, nports, portarray_copy,
intarray, nints, intarray_copy,
deallocnames, ndeallocnames,
destroynames, ndestroynames);
}
kern_return_t
S_exec_setexecdata (mach_port_t me,
mach_port_t *ports, u_int nports, int ports_copy,
int *ints, u_int nints, int ints_copy)
{
error_t err;
/* XXX needs authentication */
if (nports < INIT_PORT_MAX || nints < INIT_INT_MAX)
return EINVAL;
if (std_ports)
vm_deallocate (mach_task_self (), (vm_address_t)std_ports,
std_nports * sizeof (mach_port_t));
if (err = servercopy ((void **) &ports, nports * sizeof (mach_port_t),
ports_copy))
return err;
std_ports = ports;
std_nports = nports;
if (std_ints)
vm_deallocate (mach_task_self (), (vm_address_t)std_ints,
std_nints * sizeof (int));
if (err = servercopy ((void **) &ints, nints * sizeof (int), ints_copy))
return err;
std_ints = ints;
std_nints = nints;
/* At this point, the exec server is fully intialized. Send
a message to startup that will clue it in so that it knows. */
if (essentialstartupport)
{
startup_essential_task (essentialstartupport, mach_task_self (),
MACH_PORT_NULL, "exec", essentialhostport);
mach_port_deallocate (mach_task_self (), essentialstartupport);
mach_port_deallocate (mach_task_self (), essentialhostport);
essentialstartupport = essentialhostport = 0;
}
return 0;
}
/* fsys server. */
kern_return_t
S_fsys_getroot (fsys_t fsys,
mach_port_t dotdot,
uid_t *uids, u_int nuids,
gid_t *gids, u_int ngids,
int flags,
retry_type *retry,
char *retry_name,
file_t *rootfile,
mach_msg_type_name_t *rootfilePoly)
{
/* XXX eventually this should return a user-specific port which has an
associated access-restricted realnode port which file ops get
forwarded to. */
*rootfile = execserver;
*rootfilePoly = MACH_MSG_TYPE_MAKE_SEND;
*retry = FS_RETRY_NONE;
*retry_name = '\0';
return 0;
}
kern_return_t
S_fsys_goaway (fsys_t fsys, int flags)
{
if (!(flags & FSYS_GOAWAY_FORCE))
{
mach_port_t *serving;
mach_msg_type_number_t nserving, i;
mach_port_get_set_status (mach_task_self (), request_portset,
&serving, &nserving);
for (i = 0; i < nserving; ++i)
mach_port_deallocate (mach_task_self (), serving[i]);
if (nserving > 2)
/* Not just fsys and execserver.
We are also waiting on some bootstrap ports. */
return EBUSY;
}
mach_port_mod_refs (mach_task_self (), request_portset,
MACH_PORT_TYPE_RECEIVE, -1);
return 0;
}
kern_return_t
S_fsys_startup (mach_port_t bootstrap,
fsys_t control,
mach_port_t *node,
mach_msg_type_name_t *realnodePoly)
{
return EOPNOTSUPP;
}
kern_return_t
S_fsys_getfile (fsys_t fsys,
uid_t *uids,
u_int nuids,
uid_t *gids,
u_int ngids,
char *filehandle,
u_int filehandlelen,
mach_port_t *file,
mach_msg_type_name_t *filetype)
{
return EOPNOTSUPP;
}
kern_return_t
S_fsys_getpriv (fsys_t fsys,
mach_port_t *hp,
mach_port_t *dm,
mach_port_t *tk)
{
return EOPNOTSUPP;
}
kern_return_t
S_fsys_init (fsys_t fsys,
mach_port_t reply, mach_msg_type_name_t replytype,
mach_port_t ps,
mach_port_t ah)
{
return EOPNOTSUPP;
}
/* RPC sent on the bootstrap port. */
kern_return_t
S_exec_startup (mach_port_t port,
vm_address_t *stack_base, vm_size_t *stack_size,
int *flags,
char **argvp, u_int *argvlen,
char **envpp, u_int *envplen,
mach_port_t **dtable, mach_msg_type_name_t *dtablepoly,
u_int *dtablesize,
mach_port_t **portarray, mach_msg_type_name_t *portpoly,
u_int *nports,
int **intarray, u_int *nints)
{
struct bootinfo *boot = (struct bootinfo *)port;
if ((mach_port_t) boot == execserver || (mach_port_t) boot == fsys)
return EOPNOTSUPP;
*stack_base = boot->stack_base;
*stack_size = boot->stack_size;
*argvp = boot->argv;
*argvlen = boot->argvlen;
*envpp = boot->envp;
*envplen = boot->envplen;
*dtable = boot->dtable;
*dtablesize = boot->dtablesize;
*dtablepoly = MACH_MSG_TYPE_MOVE_SEND;
*intarray = boot->intarray;
*nints = boot->nints;
*portarray = boot->portarray;
*nports = boot->nports;
*portpoly = MACH_MSG_TYPE_MOVE_SEND;
*flags = boot->flags;
mach_port_move_member (mach_task_self (), (mach_port_t) boot,
MACH_PORT_NULL); /* XXX what is this XXX here for? */
mach_port_mod_refs (mach_task_self (), (mach_port_t) boot,
MACH_PORT_TYPE_RECEIVE, -1);
free (boot);
return 0;
}
/* Notice when a receive right has no senders. Either this is the
bootstrap port of a stillborn task, or it is the execserver port itself. */
kern_return_t
do_mach_notify_no_senders (mach_port_t port, mach_port_mscount_t mscount)
{
if (port != execserver && port != fsys)
{
/* Free the resources we were saving to give the task
which can no longer ask for them. */
struct bootinfo *boot = (struct bootinfo *) port;
size_t i;
vm_deallocate (mach_task_self (),
(vm_address_t) boot->argv, boot->argvlen);
vm_deallocate (mach_task_self (),
(vm_address_t) boot->envp, boot->envplen);
for (i = 0; i < boot->dtablesize; ++i)
mach_port_deallocate (mach_task_self (), boot->dtable[i]);
for (i = 0; i < boot->nports; ++i)
mach_port_deallocate (mach_task_self (), boot->portarray[i]);
vm_deallocate (mach_task_self (),
(vm_address_t) boot->portarray,
boot->nports * sizeof (mach_port_t));
vm_deallocate (mach_task_self (),
(vm_address_t) boot->intarray,
boot->nints * sizeof (int));
free (boot);
}
/* Deallocate the request port. */
mach_port_mod_refs (mach_task_self (), port, MACH_PORT_TYPE_RECEIVE, -1);
mach_port_mod_refs (mach_task_self (), request_portset,
MACH_PORT_TYPE_RECEIVE, -1);
return KERN_SUCCESS;
}
/* Sent by the bootstrap filesystem after the other essential
servers have been started up. */
kern_return_t
S_exec_init (mach_port_t server, auth_t auth, process_t proc)
{
mach_port_t host_priv, dev_master, startup;
error_t err;
if (_hurd_ports[INIT_PORT_PROC].port != MACH_PORT_NULL)
/* Can only be done once. */
return EPERM;
_hurd_port_set (&_hurd_ports[INIT_PORT_PROC], proc);
_hurd_port_set (&_hurd_ports[INIT_PORT_AUTH], auth);
/* Do initial setup with the proc server. */
_hurd_proc_init (save_argv);
err = get_privileged_ports (&host_priv, &dev_master);
if (!err)
{
proc_register_version (proc, host_priv, "exec", HURD_RELEASE,
exec_version);
mach_port_deallocate (mach_task_self (), dev_master);
err = proc_getmsgport (proc, 1, &startup);
if (!err)
{
essentialstartupport = startup;
essentialhostport = host_priv;
}
else
mach_port_deallocate (mach_task_self (), host_priv);
}
/* Have the proc server notify us when the canonical ints and ports change.
The notification comes as a normal RPC on the message port, which
the C library's signal thread handles. */
__USEPORT (PROC, proc_execdata_notify (port, execserver));
/* Don't call startup_essential_task here. Init knows that once
we call that we are all set up; we actually aren't all set up
until we receive the execdata back from proc in response to
proc_execdata_notify. So, the call to startup_essential_task
is done in S_exec_setexecdata. */
return 0;
}
int
main (int argc, char **argv)
{
error_t err;
mach_port_t boot;
/* XXX */
stdout = mach_open_devstream (getdport (1), "w");
stderr = mach_open_devstream (getdport (2), "w");
/* End XXX */
save_argv = argv;
#ifdef BFD
/* Put the Mach kernel's idea of what flavor of machine this is into the
fake BFD against which architecture compatibility checks are made. */
err = bfd_mach_host_arch_mach (mach_host_self (),
&host_bfd.obj_machine,
&host_bfd.obj_arch);
#else
err = aout_mach_host_machine (mach_host_self (), (int *)&host_machine);
#endif
if (err)
return err;
mach_port_allocate (mach_task_self (), MACH_PORT_RIGHT_RECEIVE, &fsys);
mach_port_allocate (mach_task_self (), MACH_PORT_RIGHT_RECEIVE, &execserver);
task_get_bootstrap_port (mach_task_self (), &boot);
fsys_startup (boot, fsys, MACH_MSG_TYPE_MAKE_SEND, &realnode);
mach_port_allocate (mach_task_self (),
MACH_PORT_RIGHT_PORT_SET, &request_portset);
mach_port_move_member (mach_task_self (), fsys, request_portset);
mach_port_move_member (mach_task_self (), execserver, request_portset);
while (1)
{
err = mach_msg_server (request_server, vm_page_size, request_portset);
fprintf (stderr, "%s: mach_msg_server: %s\n",
(argv && argv[0]) ? argv[0] : "exec server",
strerror (err));
}
}
/* Nops */
kern_return_t
do_mach_notify_port_deleted (mach_port_t notify,
mach_port_t name)
{
return EOPNOTSUPP;
}
kern_return_t
do_mach_notify_msg_accepted (mach_port_t notify,
mach_port_t name)
{
return EOPNOTSUPP;
}
kern_return_t
do_mach_notify_port_destroyed (mach_port_t notify,
mach_port_t rights)
{
return EOPNOTSUPP;
}
kern_return_t
do_mach_notify_send_once (mach_port_t notify)
{
return EOPNOTSUPP;
}
kern_return_t
do_mach_notify_dead_name (mach_port_t notify,
mach_port_t name)
{
return EOPNOTSUPP;
}
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