tools/llvm: Do not build with symbols
[minix3.git] / minix / servers / vfs / exec.c
blob3a7a5c5d25349a89ff7a4d739d86ba296c22d032
1 /* This file handles the EXEC system call. It performs the work as follows:
2 * - see if the permissions allow the file to be executed
3 * - read the header and extract the sizes
4 * - fetch the initial args and environment from the user space
5 * - allocate the memory for the new process
6 * - copy the initial stack from PM to the process
7 * - read in the text and data segments and copy to the process
8 * - take care of setuid and setgid bits
9 * - fix up 'mproc' table
10 * - tell kernel about EXEC
11 * - save offset to initial argc (for ps)
13 * The entry points into this file are:
14 * pm_exec: perform the EXEC system call
17 #include "fs.h"
18 #include <sys/stat.h>
19 #include <sys/mman.h>
20 #include <minix/callnr.h>
21 #include <minix/endpoint.h>
22 #include <minix/com.h>
23 #include <minix/u64.h>
24 #include <signal.h>
25 #include <stdlib.h>
26 #include <string.h>
27 #include <sys/dirent.h>
28 #include <sys/exec.h>
29 #include <sys/param.h>
30 #include "path.h"
31 #include "vnode.h"
32 #include "file.h"
33 #include <minix/vfsif.h>
34 #include <machine/vmparam.h>
35 #include <assert.h>
36 #include <fcntl.h>
38 #define _KERNEL /* for ELF_AUX_ENTRIES */
39 #include <libexec.h>
41 /* fields only used by elf and in VFS */
42 struct vfs_exec_info {
43 struct exec_info args; /* libexec exec args */
44 struct vnode *vp; /* Exec file's vnode */
45 struct vmnt *vmp; /* Exec file's vmnt */
46 struct stat sb; /* Exec file's stat structure */
47 int userflags; /* exec() flags from userland */
48 int is_dyn; /* Dynamically linked executable */
49 int elf_main_fd; /* Dyn: FD of main program execuatble */
50 char execname[PATH_MAX]; /* Full executable invocation */
51 int vmfd;
52 int vmfd_used;
55 static int patch_stack(struct vnode *vp, char stack[ARG_MAX],
56 size_t *stk_bytes, char path[PATH_MAX], vir_bytes *vsp);
57 static int is_script(struct vfs_exec_info *execi);
58 static int insert_arg(char stack[ARG_MAX], size_t *stk_bytes, char *arg,
59 vir_bytes *vsp, char replace);
60 static void clo_exec(struct fproc *rfp);
61 static int stack_prepare_elf(struct vfs_exec_info *execi,
62 char *curstack, size_t *frame_len, vir_bytes *vsp);
63 static int map_header(struct vfs_exec_info *execi);
64 static int read_seg(struct exec_info *execi, off_t off, vir_bytes seg_addr, size_t seg_bytes);
66 #define PTRSIZE sizeof(char *) /* Size of pointers in argv[] and envp[]. */
68 /* Array of loaders for different object file formats */
69 typedef int (*exechook_t)(struct vfs_exec_info *execpackage);
70 typedef int (*stackhook_t)(struct vfs_exec_info *execi, char *curstack,
71 size_t *frame_len, vir_bytes *vsp);
72 struct exec_loaders {
73 libexec_exec_loadfunc_t load_object; /* load executable into memory */
74 stackhook_t setup_stack; /* prepare stack before argc and argv push */
77 static const struct exec_loaders exec_loaders[] = {
78 { libexec_load_elf, stack_prepare_elf },
79 { NULL, NULL }
82 #define lock_exec() lock_proc(fproc_addr(VM_PROC_NR))
83 #define unlock_exec() unlock_proc(fproc_addr(VM_PROC_NR))
85 /*===========================================================================*
86 * get_read_vp *
87 *===========================================================================*/
88 static int get_read_vp(struct vfs_exec_info *execi,
89 char *fullpath, int copyprogname, int sugid, struct lookup *resolve, struct fproc *fp)
91 /* Make the executable that we want to exec() into the binary pointed
92 * to by 'fullpath.' This function fills in necessary details in the execi
93 * structure, such as opened vnode. It unlocks and releases the vnode if
94 * it was already there. This makes it easy to change the executable
95 * during the exec(), which is often necessary, by calling this function
96 * more than once. This is specifically necessary when we discover the
97 * executable is actually a script or a dynamically linked executable.
99 int r;
101 /* Caller wants to switch vp to the file in 'fullpath.'
102 * unlock and put it first if there is any there.
104 if(execi->vp) {
105 unlock_vnode(execi->vp);
106 put_vnode(execi->vp);
107 execi->vp = NULL;
110 /* Remember/overwrite the executable name if requested. */
111 if(copyprogname) {
112 char *cp = strrchr(fullpath, '/');
113 if(cp) cp++;
114 else cp = fullpath;
115 strlcpy(execi->args.progname, cp, sizeof(execi->args.progname));
116 execi->args.progname[sizeof(execi->args.progname)-1] = '\0';
119 /* Open executable */
120 if ((execi->vp = eat_path(resolve, fp)) == NULL)
121 return err_code;
123 unlock_vmnt(execi->vmp);
125 if (!S_ISREG(execi->vp->v_mode))
126 return ENOEXEC;
127 else if ((r = forbidden(fp, execi->vp, X_BIT)) != OK)
128 return r;
129 else
130 r = req_stat(execi->vp->v_fs_e, execi->vp->v_inode_nr,
131 VFS_PROC_NR, (vir_bytes) &(execi->sb));
133 if (r != OK) return r;
135 /* If caller wants us to, honour suid/guid mode bits. */
136 if (sugid) {
137 /* Deal with setuid/setgid executables */
138 if (execi->vp->v_mode & I_SET_UID_BIT) {
139 execi->args.new_uid = execi->vp->v_uid;
140 execi->args.allow_setuid = 1;
142 if (execi->vp->v_mode & I_SET_GID_BIT) {
143 execi->args.new_gid = execi->vp->v_gid;
144 execi->args.allow_setuid = 1;
148 /* Read in first chunk of file. */
149 if((r=map_header(execi)) != OK)
150 return r;
152 return OK;
155 #define FAILCHECK(expr) if((r=(expr)) != OK) { goto pm_execfinal; } while(0)
156 #define Get_read_vp(e,f,p,s,rs,fp) do { \
157 r=get_read_vp(&e,f,p,s,rs,fp); if(r != OK) { FAILCHECK(r); } \
158 } while(0)
160 static int vfs_memmap(struct exec_info *execi,
161 vir_bytes vaddr, vir_bytes len, vir_bytes foffset, u16_t clearend,
162 int protflags)
164 struct vfs_exec_info *vi = (struct vfs_exec_info *) execi->opaque;
165 struct vnode *vp = ((struct vfs_exec_info *) execi->opaque)->vp;
166 int r;
167 u16_t flags = 0;
169 if(protflags & PROT_WRITE)
170 flags |= MVM_WRITABLE;
172 r = minix_vfs_mmap(execi->proc_e, foffset, len,
173 vp->v_dev, vp->v_inode_nr, vi->vmfd, vaddr, clearend, flags);
174 if(r == OK) {
175 vi->vmfd_used = 1;
178 return r;
181 /*===========================================================================*
182 * pm_exec *
183 *===========================================================================*/
184 int pm_exec(vir_bytes path, size_t path_len, vir_bytes frame, size_t frame_len,
185 vir_bytes *pc, vir_bytes *newsp, vir_bytes *UNUSED(ps_str))
187 /* Perform the execve(name, argv, envp) call. The user library builds a
188 * complete stack image, including pointers, args, environ, etc. The stack
189 * is copied to a buffer inside VFS, and then to the new core image.
191 * ps_str is not currently used, but may be if the ps_strings structure has to
192 * be moved to another location.
194 int r;
195 vir_bytes vsp;
196 static char mbuf[ARG_MAX]; /* buffer for stack and zeroes */
197 struct vfs_exec_info execi;
198 int i;
199 static char fullpath[PATH_MAX],
200 elf_interpreter[PATH_MAX],
201 firstexec[PATH_MAX],
202 finalexec[PATH_MAX];
203 struct lookup resolve;
204 struct fproc *vmfp = fproc_addr(VM_PROC_NR);
205 stackhook_t makestack = NULL;
206 struct filp *newfilp = NULL;
208 lock_exec();
210 /* unset execi values are 0. */
211 memset(&execi, 0, sizeof(execi));
212 execi.vmfd = -1;
214 /* passed from exec() libc code */
215 execi.userflags = 0;
216 execi.args.stack_high = kinfo.user_sp;
217 execi.args.stack_size = DEFAULT_STACK_LIMIT;
219 fp->text_size = 0;
220 fp->data_size = 0;
222 lookup_init(&resolve, fullpath, PATH_NOFLAGS, &execi.vmp, &execi.vp);
224 resolve.l_vmnt_lock = VMNT_READ;
225 resolve.l_vnode_lock = VNODE_READ;
227 /* Fetch the stack from the user before destroying the old core image. */
228 if (frame_len > ARG_MAX)
229 FAILCHECK(ENOMEM); /* stack too big */
231 r = sys_datacopy_wrapper(fp->fp_endpoint, (vir_bytes) frame, SELF, (vir_bytes) mbuf,
232 (size_t) frame_len);
233 if (r != OK) { /* can't fetch stack (e.g. bad virtual addr) */
234 printf("VFS: pm_exec: sys_datacopy failed\n");
235 FAILCHECK(r);
238 /* Compute the current virtual stack pointer, has to be done before calling
239 * patch_stack, which needs it, and will adapt as required. */
240 vsp = execi.args.stack_high - frame_len;
242 /* The default is to keep the original user and group IDs */
243 execi.args.new_uid = fp->fp_effuid;
244 execi.args.new_gid = fp->fp_effgid;
246 /* Get the exec file name. */
247 FAILCHECK(fetch_name(path, path_len, fullpath));
248 strlcpy(finalexec, fullpath, PATH_MAX);
249 strlcpy(firstexec, fullpath, PATH_MAX);
251 /* Get_read_vp will return an opened vn in execi.
252 * if necessary it releases the existing vp so we can
253 * switch after we find out what's inside the file.
254 * It reads the start of the file.
256 Get_read_vp(execi, fullpath, 1, 1, &resolve, fp);
258 /* If this is a script (i.e. has a #!/interpreter line),
259 * retrieve the name of the interpreter and open that
260 * executable instead.
262 if(is_script(&execi)) {
263 /* patch_stack will add interpreter name and
264 * args to stack and retrieve the new binary
265 * name into fullpath.
267 FAILCHECK(fetch_name(path, path_len, fullpath));
268 FAILCHECK(patch_stack(execi.vp, mbuf, &frame_len, fullpath, &vsp));
270 strlcpy(finalexec, fullpath, PATH_MAX);
271 strlcpy(firstexec, fullpath, PATH_MAX);
272 Get_read_vp(execi, fullpath, 1, 0, &resolve, fp);
275 /* If this is a dynamically linked executable, retrieve
276 * the name of that interpreter in elf_interpreter and open that
277 * executable instead. But open the current executable in an
278 * fd for the current process.
280 if(elf_has_interpreter(execi.args.hdr, execi.args.hdr_len,
281 elf_interpreter, sizeof(elf_interpreter))) {
282 /* Switch the executable vnode to the interpreter */
283 execi.is_dyn = 1;
285 /* The interpreter (loader) needs an fd to the main program,
286 * which is currently in finalexec
288 if((r = execi.elf_main_fd = common_open(finalexec, O_RDONLY, 0)) < 0) {
289 printf("VFS: exec: dynamic: open main exec failed %s (%d)\n",
290 fullpath, r);
291 FAILCHECK(r);
294 /* ld.so is linked at 0, but it can relocate itself; we
295 * want it higher to trap NULL pointer dereferences.
296 * Let's put it below the stack, and reserve 10MB for ld.so.
298 execi.args.load_offset =
299 execi.args.stack_high - execi.args.stack_size - 0xa00000;
301 /* Remember it */
302 strlcpy(execi.execname, finalexec, PATH_MAX);
304 /* The executable we need to execute first (loader)
305 * is in elf_interpreter, and has to be in fullpath to
306 * be looked up
308 strlcpy(fullpath, elf_interpreter, PATH_MAX);
309 strlcpy(firstexec, elf_interpreter, PATH_MAX);
310 Get_read_vp(execi, fullpath, 0, 0, &resolve, fp);
313 /* We also want an FD for VM to mmap() the process in if possible. */
315 struct vnode *vp = execi.vp;
316 assert(vp);
317 if ((vp->v_vmnt->m_fs_flags & RES_HASPEEK) &&
318 major(vp->v_dev) != MEMORY_MAJOR) {
319 int newfd = -1;
320 if(get_fd(vmfp, 0, R_BIT, &newfd, &newfilp) == OK) {
321 assert(newfd >= 0 && newfd < OPEN_MAX);
322 assert(!vmfp->fp_filp[newfd]);
323 newfilp->filp_count = 1;
324 newfilp->filp_vno = vp;
325 newfilp->filp_flags = O_RDONLY;
326 vmfp->fp_filp[newfd] = newfilp;
327 /* dup_vnode(vp); */
328 execi.vmfd = newfd;
329 execi.args.memmap = vfs_memmap;
334 /* callback functions and data */
335 execi.args.copymem = read_seg;
336 execi.args.clearproc = libexec_clearproc_vm_procctl;
337 execi.args.clearmem = libexec_clear_sys_memset;
338 execi.args.allocmem_prealloc_cleared = libexec_alloc_mmap_prealloc_cleared;
339 execi.args.allocmem_prealloc_junk = libexec_alloc_mmap_prealloc_junk;
340 execi.args.allocmem_ondemand = libexec_alloc_mmap_ondemand;
341 execi.args.opaque = &execi;
343 execi.args.proc_e = fp->fp_endpoint;
344 execi.args.frame_len = frame_len;
345 execi.args.filesize = execi.vp->v_size;
347 for (i = 0; exec_loaders[i].load_object != NULL; i++) {
348 r = (*exec_loaders[i].load_object)(&execi.args);
349 /* Loaded successfully, so no need to try other loaders */
350 if (r == OK) { makestack = exec_loaders[i].setup_stack; break; }
353 FAILCHECK(r);
355 /* Inform PM */
356 FAILCHECK(libexec_pm_newexec(fp->fp_endpoint, &execi.args));
358 /* Save off PC */
359 *pc = execi.args.pc;
361 /* call a stack-setup function if this executable type wants it */
362 if(makestack) FAILCHECK(makestack(&execi, mbuf, &frame_len, &vsp));
364 /* Copy the stack from VFS to new core image. */
365 FAILCHECK(sys_datacopy_wrapper(SELF, (vir_bytes) mbuf, fp->fp_endpoint,
366 (vir_bytes) vsp, (phys_bytes)frame_len));
368 /* Return new stack pointer to caller */
369 *newsp = vsp;
371 clo_exec(fp);
373 if (execi.args.allow_setuid) {
374 /* If after loading the image we're still allowed to run with
375 * setuid or setgid, change credentials now */
376 fp->fp_effuid = execi.args.new_uid;
377 fp->fp_effgid = execi.args.new_gid;
380 /* Remember the new name of the process */
381 strlcpy(fp->fp_name, execi.args.progname, PROC_NAME_LEN);
382 fp->text_size = execi.args.text_size;
383 fp->data_size = execi.args.data_size;
385 pm_execfinal:
386 if(newfilp) unlock_filp(newfilp);
387 else if (execi.vp != NULL) {
388 unlock_vnode(execi.vp);
389 put_vnode(execi.vp);
392 if(execi.vmfd >= 0 && !execi.vmfd_used) {
393 if(OK != close_fd(vmfp, execi.vmfd)) {
394 printf("VFS: unexpected close fail of vm fd\n");
398 unlock_exec();
400 return(r);
403 /* This is a copy-paste of the same macro in minix/lib/libc/sys/stack_utils.c.
404 * Keep it synchronized. */
405 #define STACK_MIN_SZ \
407 sizeof(int) + sizeof(void *) * 2 + \
408 sizeof(AuxInfo) * PMEF_AUXVECTORS + PMEF_EXECNAMELEN1 + \
409 sizeof(struct ps_strings) \
412 static int stack_prepare_elf(struct vfs_exec_info *execi, char *frame, size_t *frame_size,
413 vir_bytes *vsp)
415 AuxInfo *aux_vec, *aux_vec_end;
416 vir_bytes vap; /* Address in proc space of the first AuxVec. */
417 Elf_Ehdr const * const elf_header = (Elf_Ehdr *) execi->args.hdr;
418 struct ps_strings const * const psp = (struct ps_strings *)
419 (frame + (*frame_size - sizeof(struct ps_strings)));
421 size_t const execname_len = strlen(execi->execname);
423 if (!execi->is_dyn)
424 return OK;
426 if (execi->args.hdr_len < sizeof(*elf_header)) {
427 printf("VFS: malformed ELF headers for exec\n");
428 return ENOEXEC;
431 if (*frame_size < STACK_MIN_SZ) {
432 printf("VFS: malformed stack for exec(), smaller than minimum"
433 " possible size.\n");
434 return ENOEXEC;
437 /* Find first Aux vector in the stack frame. */
438 vap = (vir_bytes)(psp->ps_envstr + (psp->ps_nenvstr + 1));
439 aux_vec = (AuxInfo *) (frame + (vap - *vsp));
440 aux_vec_end = aux_vec + PMEF_AUXVECTORS;
442 if (((char *)aux_vec < frame) ||
443 ((char *)aux_vec > (frame + *frame_size))) {
444 printf("VFS: malformed stack for exec(), first AuxVector is"
445 " not on the stack.\n");
446 return ENOEXEC;
449 if (((char *)aux_vec_end < frame) ||
450 ((char *)aux_vec_end > (frame + *frame_size))) {
451 printf("VFS: malformed stack for exec(), last AuxVector is"
452 " not on the stack.\n");
453 return ENOEXEC;
456 /* Userland provides a fully filled stack frame, with argc, argv, envp
457 * and then all the argv and envp strings; consistent with ELF ABI,
458 * except for a list of Aux vectors that should be between envp points
459 * and the start of the strings.
461 * It would take some very unpleasant hackery to insert the aux vectors
462 * before the strings, and correct all the pointers, so the exec code
463 * in libc makes space for us.
466 #define AUXINFO(a, type, value) \
467 do { \
468 if (a < aux_vec_end) { \
469 a->a_type = type; \
470 a->a_v = value; \
471 a++; \
472 } else { \
473 printf("VFS: No more room for ELF AuxVec type %d, skipping it for %s\n", type, execi->execname); \
474 (aux_vec_end - 1)->a_type = AT_NULL; \
475 (aux_vec_end - 1)->a_v = 0; \
477 } while(0)
479 AUXINFO(aux_vec, AT_BASE, execi->args.load_base);
480 AUXINFO(aux_vec, AT_ENTRY, execi->args.pc);
481 AUXINFO(aux_vec, AT_EXECFD, execi->elf_main_fd);
482 #if 0
483 AUXINFO(aux_vec, AT_PHDR, XXX ); /* should be &phdr[0] */
484 AUXINFO(aux_vec, AT_PHENT, elf_header->e_phentsize);
485 AUXINFO(aux_vec, AT_PHNUM, elf_header->e_phnum);
487 AUXINFO(aux_vec, AT_RUID, XXX);
488 AUXINFO(aux_vec, AT_RGID, XXX);
489 #endif
490 AUXINFO(aux_vec, AT_EUID, execi->args.new_uid);
491 AUXINFO(aux_vec, AT_EGID, execi->args.new_gid);
492 AUXINFO(aux_vec, AT_PAGESZ, PAGE_SIZE);
494 if(execname_len < PMEF_EXECNAMELEN1) {
495 char *spacestart;
496 vir_bytes userp;
498 /* Empty space starts after aux_vec table; we can put the name
499 * here. */
500 spacestart = (char *) aux_vec + 2 * sizeof(AuxInfo);
501 strlcpy(spacestart, execi->execname, PMEF_EXECNAMELEN1);
502 memset(spacestart + execname_len, '\0',
503 PMEF_EXECNAMELEN1 - execname_len);
505 /* What will the address of the string for the user be */
506 userp = *vsp + (spacestart - frame);
508 /* Move back to where the AT_NULL is */
509 AUXINFO(aux_vec, AT_SUN_EXECNAME, userp);
512 /* Always terminate with AT_NULL */
513 AUXINFO(aux_vec, AT_NULL, 0);
515 return OK;
518 /*===========================================================================*
519 * is_script *
520 *===========================================================================*/
521 static int is_script(struct vfs_exec_info *execi)
523 /* Is Interpreted script? */
524 assert(execi->args.hdr != NULL);
526 return(execi->args.hdr[0] == '#' && execi->args.hdr[1] == '!'
527 && execi->args.hdr_len >= 2);
530 /*===========================================================================*
531 * patch_stack *
532 *===========================================================================*/
533 static int patch_stack(vp, stack, stk_bytes, path, vsp)
534 struct vnode *vp; /* pointer for open script file */
535 char stack[ARG_MAX]; /* pointer to stack image within VFS */
536 size_t *stk_bytes; /* size of initial stack */
537 char path[PATH_MAX]; /* path to script file */
538 vir_bytes *vsp;
540 /* Patch the argument vector to include the path name of the script to be
541 * interpreted, and all strings on the #! line. Returns the path name of
542 * the interpreter.
544 enum { INSERT=FALSE, REPLACE=TRUE };
545 int n, r;
546 off_t pos, new_pos;
547 char *sp, *interp = NULL;
548 unsigned int cum_io;
549 char buf[PAGE_SIZE];
551 /* Make 'path' the new argv[0]. */
552 if (!insert_arg(stack, stk_bytes, path, vsp, REPLACE)) return(ENOMEM);
554 pos = 0; /* Read from the start of the file */
556 /* Issue request */
557 r = req_readwrite(vp->v_fs_e, vp->v_inode_nr, pos, READING, VFS_PROC_NR,
558 (vir_bytes) buf, sizeof(buf), &new_pos, &cum_io);
560 if (r != OK) return(r);
562 n = vp->v_size;
563 if (n > sizeof(buf))
564 n = sizeof(buf);
565 if (n < 2) return ENOEXEC;
567 sp = &(buf[2]); /* just behind the #! */
568 n -= 2;
569 if (n > PATH_MAX) n = PATH_MAX;
571 /* Use the 'path' variable for temporary storage */
572 memcpy(path, sp, n);
574 if ((sp = memchr(path, '\n', n)) == NULL) /* must be a proper line */
575 return(ENOEXEC);
577 /* Move sp backwards through script[], prepending each string to stack. */
578 for (;;) {
579 /* skip spaces behind argument. */
580 while (sp > path && (*--sp == ' ' || *sp == '\t')) {}
581 if (sp == path) break;
583 sp[1] = 0;
584 /* Move to the start of the argument. */
585 while (sp > path && sp[-1] != ' ' && sp[-1] != '\t') --sp;
587 interp = sp;
588 if (!insert_arg(stack, stk_bytes, sp, vsp, INSERT)) {
589 printf("VFS: patch_stack: insert_arg failed\n");
590 return(ENOMEM);
594 if(!interp)
595 return ENOEXEC;
597 if (interp != path)
598 memmove(path, interp, strlen(interp)+1);
600 return(OK);
603 /*===========================================================================*
604 * insert_arg *
605 *===========================================================================*/
606 static int insert_arg(char stack[ARG_MAX], size_t *stk_bytes, char *arg,
607 vir_bytes *vsp, char replace)
609 /* Patch the stack so that arg will become argv[0]. Be careful, the
610 * stack may be filled with garbage, although it normally looks like
611 * this:
612 * nargs argv[0] ... argv[nargs-1] NULL envp[0] ... NULL
613 * followed by the strings "pointed" to by the argv[i] and the envp[i].
614 * The * pointers are in the new process address space.
616 * Return true iff the operation succeeded.
618 struct ps_strings *psp;
619 int offset;
620 size_t old_bytes = *stk_bytes;
622 int const arg_len = strlen(arg) + 1;
624 /* Offset to argv[0][0] in the stack frame. */
625 int const a0 = (int)(((char **)stack)[1] - *vsp);
627 /* Check that argv[0] points within the stack frame. */
628 if ((a0 < 0) || (a0 >= old_bytes)) {
629 printf("vfs:: argv[0][] not within stack range!! %i\n", a0);
630 return FALSE;
633 if (!replace) {
634 /* Prepending arg adds one pointer, one string and a zero byte. */
635 offset = arg_len + PTRSIZE;
636 } else {
637 /* replacing argv[0] with arg adds the difference in length of
638 * the two strings. Make sure we don't go beyond the stack size
639 * when computing the length of the current argv[0]. */
640 offset = arg_len - strnlen(stack + a0, ARG_MAX - a0 - 1);
643 /* As ps_strings follows the strings, ensure the offset is word aligned. */
644 offset = offset + (PTRSIZE - ((PTRSIZE + offset) % PTRSIZE));
646 /* The stack will grow (or shrink) by offset bytes. */
647 if ((*stk_bytes += offset) > ARG_MAX) {
648 printf("vfs:: offset too big!! %d (max %d)\n", *stk_bytes,
649 ARG_MAX);
650 return FALSE;
653 /* Reposition the strings by offset bytes */
654 memmove(stack + a0 + offset, stack + a0, old_bytes - a0);
656 /* Put arg in the new space, leaving padding in front of it. */
657 strlcpy(stack + a0 + offset - arg_len, arg, arg_len);
659 if (!replace) {
660 /* Make space for a new argv[0]. */
661 memmove(stack + 2 * PTRSIZE,
662 stack + 1 * PTRSIZE, a0 - 2 * PTRSIZE);
664 ((char **) stack)[0]++; /* nargs++; */
667 /* set argv[0] correctly */
668 ((char **) stack)[1] = (char *) a0 - arg_len + *vsp;
670 /* Update stack pointer in the process address space. */
671 *vsp -= offset;
673 /* Update argv and envp in ps_strings */
674 psp = (struct ps_strings *) (stack + *stk_bytes - sizeof(struct ps_strings));
675 psp->ps_argvstr -= (offset / PTRSIZE);
676 if (!replace) {
677 psp->ps_nargvstr++;
679 psp->ps_envstr = psp->ps_argvstr + psp->ps_nargvstr + 1;
681 return TRUE;
684 /*===========================================================================*
685 * read_seg *
686 *===========================================================================*/
687 static int read_seg(struct exec_info *execi, off_t off, vir_bytes seg_addr, size_t seg_bytes)
690 * The byte count on read is usually smaller than the segment count, because
691 * a segment is padded out to a click multiple, and the data segment is only
692 * partially initialized.
694 int r;
695 off_t new_pos;
696 unsigned int cum_io;
697 struct vnode *vp = ((struct vfs_exec_info *) execi->opaque)->vp;
699 /* Make sure that the file is big enough */
700 if (off + seg_bytes > LONG_MAX) return(EIO);
701 if ((unsigned long) vp->v_size < off+seg_bytes) return(EIO);
703 if ((r = req_readwrite(vp->v_fs_e, vp->v_inode_nr, off, READING,
704 execi->proc_e, (vir_bytes) seg_addr, seg_bytes,
705 &new_pos, &cum_io)) != OK) {
706 printf("VFS: read_seg: req_readwrite failed (data)\n");
707 return(r);
710 if (r == OK && cum_io != seg_bytes)
711 printf("VFS: read_seg segment has not been read properly\n");
713 return(r);
717 /*===========================================================================*
718 * clo_exec *
719 *===========================================================================*/
720 static void clo_exec(struct fproc *rfp)
722 /* Files can be marked with the FD_CLOEXEC bit (in fp->fp_cloexec).
724 int i;
726 /* Check the file desriptors one by one for presence of FD_CLOEXEC. */
727 for (i = 0; i < OPEN_MAX; i++)
728 if ( FD_ISSET(i, &rfp->fp_cloexec_set))
729 (void) close_fd(rfp, i);
732 /*===========================================================================*
733 * map_header *
734 *===========================================================================*/
735 static int map_header(struct vfs_exec_info *execi)
737 int r;
738 unsigned int cum_io;
739 off_t pos, new_pos;
740 static char hdr[PAGE_SIZE]; /* Assume that header is not larger than a page */
742 pos = 0; /* Read from the start of the file */
744 /* How much is sensible to read */
745 execi->args.hdr_len = MIN(execi->vp->v_size, sizeof(hdr));
746 execi->args.hdr = hdr;
748 r = req_readwrite(execi->vp->v_fs_e, execi->vp->v_inode_nr,
749 pos, READING, VFS_PROC_NR, (vir_bytes) hdr,
750 execi->args.hdr_len, &new_pos, &cum_io);
751 if (r != OK) {
752 printf("VFS: exec: map_header: req_readwrite failed\n");
753 return(r);
756 return(OK);