/*
- * Copyright (c) 2000-2007 Apple Inc. All rights reserved.
+ * Copyright (c) 2000-2013 Apple Inc. All rights reserved.
*
* @APPLE_OSREFERENCE_LICENSE_HEADER_START@
*
* the terms and conditions for use and redistribution.
*/
-#include <cputypes.h>
-
/*-
* Copyright (c) 1982, 1986, 1991, 1993
* The Regents of the University of California. All rights reserved.
* Version 2.0.
*/
#include <machine/reg.h>
+#include <machine/cpu_capabilities.h>
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/signal.h>
#include <sys/aio_kern.h>
#include <sys/sysproto.h>
+#include <sys/persona.h>
+#include <sys/reason.h>
#if SYSV_SHM
#include <sys/shm_internal.h> /* shmexec() */
#endif
#include <sys/ubc_internal.h> /* ubc_map() */
#include <sys/spawn.h>
#include <sys/spawn_internal.h>
+#include <sys/process_policy.h>
#include <sys/codesign.h>
+#include <sys/random.h>
#include <crypto/sha1.h>
+#include <libkern/libkern.h>
+
#include <security/audit/audit.h>
#include <ipc/ipc_types.h>
#include <kern/sched_prim.h> /* thread_wakeup() */
#include <kern/affinity.h>
#include <kern/assert.h>
+#include <kern/task.h>
+#include <kern/coalition.h>
+#include <kern/policy_internal.h>
+#include <kern/kalloc.h>
+
+#include <os/log.h>
#if CONFIG_MACF
-#include <security/mac.h>
+#include <security/mac_framework.h>
#include <security/mac_mach_internal.h>
#endif
#include <vm/vm_kern.h>
#include <vm/vm_protos.h>
#include <vm/vm_kern.h>
+#include <vm/vm_fault.h>
+#include <vm/vm_pageout.h>
+#include <kdp/kdp_dyld.h>
+
+#include <machine/pal_routines.h>
+
+#include <pexpert/pexpert.h>
+
+#if CONFIG_MEMORYSTATUS
+#include <sys/kern_memorystatus.h>
+#endif
#if CONFIG_DTRACE
/* Do not include dtrace.h, it redefines kmem_[alloc/free] */
-extern void (*dtrace_fasttrap_exec_ptr)(proc_t);
-extern void (*dtrace_helpers_cleanup)(proc_t);
-extern void dtrace_lazy_dofs_destroy(proc_t);
+extern void dtrace_proc_exec(proc_t);
+extern void (*dtrace_proc_waitfor_exec_ptr)(proc_t);
+
+/*
+ * Since dtrace_proc_waitfor_exec_ptr can be added/removed in dtrace_subr.c,
+ * we will store its value before actually calling it.
+ */
+static void (*dtrace_proc_waitfor_hook)(proc_t) = NULL;
#include <sys/dtrace_ptss.h>
#endif
/* support for child creation in exec after vfork */
-thread_t fork_create_child(task_t parent_task, proc_t child_proc, int inherit_memory, int is64bit);
+thread_t fork_create_child(task_t parent_task, coalition_t *parent_coalition, proc_t child_proc, int inherit_memory, int is64bit, int in_exec);
void vfork_exit(proc_t p, int rv);
-int setsigvec(proc_t, thread_t, int, struct __kern_sigaction *, boolean_t in_sigstart);
-void workqueue_exit(struct proc *);
-
+extern void proc_apply_task_networkbg_internal(proc_t, thread_t);
+extern void task_set_did_exec_flag(task_t task);
+extern void task_clear_exec_copy_flag(task_t task);
+proc_t proc_exec_switch_task(proc_t p, task_t old_task, task_t new_task, thread_t new_thread);
+boolean_t task_is_active(task_t);
+boolean_t thread_is_active(thread_t thread);
+void thread_copy_resource_info(thread_t dst_thread, thread_t src_thread);
+void *ipc_importance_exec_switch_task(task_t old_task, task_t new_task);
+extern void ipc_importance_release(void *elem);
/*
* Mach things for which prototypes are unavailable from Mach headers
ipc_object_t *objectp);
void ipc_port_release_send(ipc_port_t);
+#if DEVELOPMENT || DEBUG
+void task_importance_update_owner_info(task_t);
+#endif
+
extern struct savearea *get_user_regs(thread_t);
+__attribute__((noinline)) int __EXEC_WAITING_ON_TASKGATED_CODE_SIGNATURE_UPCALL__(mach_port_t task_access_port, int32_t new_pid);
#include <kern/thread.h>
#include <kern/task.h>
#include <sys/sdt.h>
-/*
- * SIZE_MAXPTR The maximum size of a user space pointer, in bytes
- * SIZE_IMG_STRSPACE The available string space, minus two pointers; we
- * define it interms of the maximum, since we don't
- * know the pointer size going in, until after we've
- * parsed the executable image.
- */
-#define SIZE_MAXPTR 8 /* 64 bits */
-#define SIZE_IMG_STRSPACE (NCARGS - 2 * SIZE_MAXPTR)
-
/*
* EAI_ITERLIMIT The maximum number of times to iterate an image
* activator in exec_activate_image() before treating
* it as malformed/corrupt.
*/
-#define EAI_ITERLIMIT 10
+#define EAI_ITERLIMIT 3
+
+/*
+ * For #! interpreter parsing
+ */
+#define IS_WHITESPACE(ch) ((ch == ' ') || (ch == '\t'))
+#define IS_EOL(ch) ((ch == '#') || (ch == '\n'))
extern vm_map_t bsd_pageable_map;
-extern struct fileops vnops;
+extern const struct fileops vnops;
+
+#define USER_ADDR_ALIGN(addr, val) \
+ ( ( (user_addr_t)(addr) + (val) - 1) \
+ & ~((val) - 1) )
+
+ /* Platform Code Exec Logging */
+static int platform_exec_logging = 0;
+
+SYSCTL_DECL(_security_mac);
+
+SYSCTL_INT(_security_mac, OID_AUTO, platform_exec_logging, CTLFLAG_RW, &platform_exec_logging, 0,
+ "log cdhashes for all platform binary executions");
-#define ROUND_PTR(type, addr) \
- (type *)( ( (uintptr_t)(addr) + 16 - 1) \
- & ~(16 - 1) )
+static os_log_t peLog = OS_LOG_DEFAULT;
struct image_params; /* Forward */
static int exec_activate_image(struct image_params *imgp);
static int execargs_free(struct image_params *imgp);
static int exec_check_permissions(struct image_params *imgp);
static int exec_extract_strings(struct image_params *imgp);
+static int exec_add_apple_strings(struct image_params *imgp, const load_result_t *load_result);
static int exec_handle_sugid(struct image_params *imgp);
static int sugid_scripts = 0;
-SYSCTL_INT (_kern, OID_AUTO, sugid_scripts, CTLFLAG_RW, &sugid_scripts, 0, "");
-static kern_return_t create_unix_stack(vm_map_t map, user_addr_t user_stack,
- int customstack, proc_t p);
+SYSCTL_INT (_kern, OID_AUTO, sugid_scripts, CTLFLAG_RW | CTLFLAG_LOCKED, &sugid_scripts, 0, "");
+static kern_return_t create_unix_stack(vm_map_t map, load_result_t* load_result, proc_t p);
static int copyoutptr(user_addr_t ua, user_addr_t ptr, int ptr_size);
static void exec_resettextvp(proc_t, struct image_params *);
static int check_for_signature(proc_t, struct image_params *);
-
-/* We don't want this one exported */
-__private_extern__
-int open1(vfs_context_t, struct nameidata *, int, struct vnode_attr *, int32_t *);
+static void exec_prefault_data(proc_t, struct image_params *, load_result_t *);
+static errno_t exec_handle_port_actions(struct image_params *imgp, boolean_t * portwatch_present, ipc_port_t * portwatch_ports);
+static errno_t exec_handle_spawnattr_policy(proc_t p, int psa_apptype, uint64_t psa_qos_clamp, uint64_t psa_darwin_role,
+ ipc_port_t * portwatch_ports, int portwatch_count);
/*
- * exec_add_string
+ * exec_add_user_string
*
* Add the requested string to the string space area.
*
* Parameters; struct image_params * image parameter block
* user_addr_t string to add to strings area
+ * int segment from which string comes
+ * boolean_t TRUE if string contributes to NCARGS
*
* Returns: 0 Success
* !0 Failure errno from copyinstr()
* Implicit returns:
* (imgp->ip_strendp) updated location of next add, if any
* (imgp->ip_strspace) updated byte count of space remaining
+ * (imgp->ip_argspace) updated byte count of space in NCARGS
*/
static int
-exec_add_string(struct image_params *imgp, user_addr_t str)
+exec_add_user_string(struct image_params *imgp, user_addr_t str, int seg, boolean_t is_ncargs)
{
- int error = 0;
-
- do {
- size_t len = 0;
- if (imgp->ip_strspace <= 0) {
+ int error = 0;
+
+ do {
+ size_t len = 0;
+ int space;
+
+ if (is_ncargs)
+ space = imgp->ip_argspace; /* by definition smaller than ip_strspace */
+ else
+ space = imgp->ip_strspace;
+
+ if (space <= 0) {
error = E2BIG;
break;
}
- if (!UIO_SEG_IS_USER_SPACE(imgp->ip_seg)) {
+
+ if (!UIO_SEG_IS_USER_SPACE(seg)) {
char *kstr = CAST_DOWN(char *,str); /* SAFE */
- error = copystr(kstr, imgp->ip_strendp, imgp->ip_strspace, &len);
+ error = copystr(kstr, imgp->ip_strendp, space, &len);
} else {
- error = copyinstr(str, imgp->ip_strendp, imgp->ip_strspace,
- &len);
+ error = copyinstr(str, imgp->ip_strendp, space, &len);
}
+
imgp->ip_strendp += len;
imgp->ip_strspace -= len;
+ if (is_ncargs)
+ imgp->ip_argspace -= len;
+
} while (error == ENAMETOOLONG);
-
+
return error;
}
+/*
+ * dyld is now passed the executable path as a getenv-like variable
+ * in the same fashion as the stack_guard and malloc_entropy keys.
+ */
+#define EXECUTABLE_KEY "executable_path="
+
/*
* exec_save_path
*
* To support new app package launching for Mac OS X, the dyld needs the
* first argument to execve() stored on the user stack.
*
- * Save the executable path name at the top of the strings area and set
+ * Save the executable path name at the bottom of the strings area and set
* the argument vector pointer to the location following that to indicate
* the start of the argument and environment tuples, setting the remaining
- * string space count to the size of the string area minus the path length
- * and a reserve for two pointers.
+ * string space count to the size of the string area minus the path length.
*
* Parameters; struct image_params * image parameter block
* char * path used to invoke program
* Implicit returns:
* (imgp->ip_strings) saved path
* (imgp->ip_strspace) space remaining in ip_strings
- * (imgp->ip_argv) beginning of argument list
* (imgp->ip_strendp) start of remaining copy area
+ * (imgp->ip_argspace) space remaining of NCARGS
+ * (imgp->ip_applec) Initial applev[0]
*
* Note: We have to do this before the initial namei() since in the
* path contains symbolic links, namei() will overwrite the
* unacceptable for dyld.
*/
static int
-exec_save_path(struct image_params *imgp, user_addr_t path, int seg)
+exec_save_path(struct image_params *imgp, user_addr_t path, int seg, const char **excpath)
{
int error;
- size_t len;
- char *kpath = CAST_DOWN(char *,path); /* SAFE */
+ size_t len;
+ char *kpath;
- imgp->ip_strendp = imgp->ip_strings;
- imgp->ip_strspace = SIZE_IMG_STRSPACE;
+ // imgp->ip_strings can come out of a cache, so we need to obliterate the
+ // old path.
+ memset(imgp->ip_strings, '\0', strlen(EXECUTABLE_KEY) + MAXPATHLEN);
len = MIN(MAXPATHLEN, imgp->ip_strspace);
switch(seg) {
case UIO_USERSPACE32:
case UIO_USERSPACE64: /* Same for copyin()... */
- error = copyinstr(path, imgp->ip_strings, len, &len);
+ error = copyinstr(path, imgp->ip_strings + strlen(EXECUTABLE_KEY), len, &len);
break;
case UIO_SYSSPACE:
- error = copystr(kpath, imgp->ip_strings, len, &len);
+ kpath = CAST_DOWN(char *,path); /* SAFE */
+ error = copystr(kpath, imgp->ip_strings + strlen(EXECUTABLE_KEY), len, &len);
break;
default:
error = EFAULT;
}
if (!error) {
+ bcopy(EXECUTABLE_KEY, imgp->ip_strings, strlen(EXECUTABLE_KEY));
+ len += strlen(EXECUTABLE_KEY);
+
imgp->ip_strendp += len;
imgp->ip_strspace -= len;
- imgp->ip_argv = imgp->ip_strendp;
+
+ if (excpath) {
+ *excpath = imgp->ip_strings + strlen(EXECUTABLE_KEY);
+ }
}
return(error);
}
-#ifdef IMGPF_POWERPC
/*
- * exec_powerpc32_imgact
- *
- * Implicitly invoke the PowerPC handler for a byte-swapped image magic
- * number. This may happen either as a result of an attempt to invoke a
- * PowerPC image directly, or indirectly as the interpreter used in an
- * interpreter script.
+ * exec_reset_save_path
*
- * Parameters; struct image_params * image parameter block
+ * If we detect a shell script, we need to reset the string area
+ * state so that the interpreter can be saved onto the stack.
+
+ * Parameters; struct image_params * image parameter block
*
- * Returns: -1 not an PowerPC image (keep looking)
- * -3 Success: exec_archhandler_ppc: relookup
- * >0 Failure: exec_archhandler_ppc: error number
+ * Returns: int 0 Success
*
- * Note: This image activator does not handle the case of a direct
- * invocation of the exec_archhandler_ppc, since in that case, the
- * exec_archhandler_ppc itself is not a PowerPC binary; instead,
- * binary image activators must recognize the exec_archhandler_ppc;
- * This is managed in exec_check_permissions().
+ * Implicit returns:
+ * (imgp->ip_strings) saved path
+ * (imgp->ip_strspace) space remaining in ip_strings
+ * (imgp->ip_strendp) start of remaining copy area
+ * (imgp->ip_argspace) space remaining of NCARGS
*
- * Note: This image activator is limited to 32 bit powerpc images;
- * if support for 64 bit powerpc images is desired, it would
- * be more in line with this design to write a separate 64 bit
- * image activator.
*/
static int
-exec_powerpc32_imgact(struct image_params *imgp)
+exec_reset_save_path(struct image_params *imgp)
{
- struct mach_header *mach_header = (struct mach_header *)imgp->ip_vdata;
- int error;
- size_t len = 0;
-
- /*
- * Make sure it's a PowerPC binary. If we've already redirected
- * from an interpreted file once, don't do it again.
- */
- if (mach_header->magic != MH_CIGAM) {
- /*
- * If it's a cross-architecture 64 bit binary, then claim
- * it, but refuse to run it.
- */
- if (mach_header->magic == MH_CIGAM_64)
- return (EBADARCH);
- return (-1);
- }
-
- /* If there is no exec_archhandler_ppc, we can't run it */
- if (exec_archhandler_ppc.path[0] == 0)
- return (EBADARCH);
-
- /* Remember the type of the original file for later grading */
- if (!imgp->ip_origcputype) {
- imgp->ip_origcputype =
- OSSwapBigToHostInt32(mach_header->cputype);
- imgp->ip_origcpusubtype =
- OSSwapBigToHostInt32(mach_header->cpusubtype);
- }
-
- /*
- * The PowerPC flag will be set by the exec_check_permissions()
- * call anyway; however, we set this flag here so that the relookup
- * in execve() does not follow symbolic links, as a side effect.
- */
- imgp->ip_flags |= IMGPF_POWERPC;
-
- /* impute an interpreter */
- error = copystr(exec_archhandler_ppc.path, imgp->ip_interp_name,
- IMG_SHSIZE, &len);
- if (error)
- return (error);
-
- /*
- * provide a replacement string for p->p_comm; we have to use an
- * alternate buffer for this, rather than replacing it directly,
- * since the exec may fail and return to the parent. In that case,
- * we would have erroneously changed the parent p->p_comm instead.
- */
- strlcpy(imgp->ip_p_comm, imgp->ip_ndp->ni_cnd.cn_nameptr, MAXCOMLEN+1);
- /* +1 to allow MAXCOMLEN characters to be copied */
+ imgp->ip_strendp = imgp->ip_strings;
+ imgp->ip_argspace = NCARGS;
+ imgp->ip_strspace = ( NCARGS + PAGE_SIZE );
- return (-3);
+ return (0);
}
-#endif /* IMGPF_POWERPC */
-
/*
* exec_shell_imgact
*
- * Image activator for interpreter scripts. If the image begins with the
- * characters "#!", then it is an interpreter script. Verify that we are
- * not already executing in PowerPC mode, and that the length of the script
- * line indicating the interpreter is not in excess of the maximum allowed
- * size. If this is the case, then break out the arguments, if any, which
- * are separated by white space, and copy them into the argument save area
- * as if they were provided on the command line before all other arguments.
- * The line ends when we encounter a comment character ('#') or newline.
+ * Image activator for interpreter scripts. If the image begins with
+ * the characters "#!", then it is an interpreter script. Verify the
+ * length of the script line indicating the interpreter is not in
+ * excess of the maximum allowed size. If this is the case, then
+ * break out the arguments, if any, which are separated by white
+ * space, and copy them into the argument save area as if they were
+ * provided on the command line before all other arguments. The line
+ * ends when we encounter a comment character ('#') or newline.
*
* Parameters; struct image_params * image parameter block
*
{
char *vdata = imgp->ip_vdata;
char *ihp;
- char *line_endp;
+ char *line_startp, *line_endp;
char *interp;
- char temp[16];
- proc_t p;
- struct fileproc *fp;
- int fd;
- int error;
- size_t len;
/*
* Make sure it's a shell script. If we've already redirected
* from an interpreted file once, don't do it again.
- *
- * Note: We disallow PowerPC, since the expectation is that we
- * may run a PowerPC interpreter, but not an interpret a PowerPC
- * image. This is consistent with historical behaviour.
*/
if (vdata[0] != '#' ||
vdata[1] != '!' ||
return (-1);
}
-#ifdef IMGPF_POWERPC
- if ((imgp->ip_flags & IMGPF_POWERPC) != 0)
- return (EBADARCH);
-#endif /* IMGPF_POWERPC */
+ if (imgp->ip_origcputype != 0) {
+ /* Fat header previously matched, don't allow shell script inside */
+ return (-1);
+ }
imgp->ip_flags |= IMGPF_INTERPRET;
+ imgp->ip_interp_sugid_fd = -1;
+ imgp->ip_interp_buffer[0] = '\0';
- /* Check to see if SUGID scripts are permitted. If they aren't then
+ /* Check to see if SUGID scripts are permitted. If they aren't then
* clear the SUGID bits.
* imgp->ip_vattr is known to be valid.
- */
- if (sugid_scripts == 0) {
- imgp->ip_origvattr->va_mode &= ~(VSUID | VSGID);
+ */
+ if (sugid_scripts == 0) {
+ imgp->ip_origvattr->va_mode &= ~(VSUID | VSGID);
}
- /* Find the nominal end of the interpreter line */
- for( ihp = &vdata[2]; *ihp != '\n' && *ihp != '#'; ihp++) {
- if (ihp >= &vdata[IMG_SHSIZE])
+ /* Try to find the first non-whitespace character */
+ for( ihp = &vdata[2]; ihp < &vdata[IMG_SHSIZE]; ihp++ ) {
+ if (IS_EOL(*ihp)) {
+ /* Did not find interpreter, "#!\n" */
return (ENOEXEC);
+ } else if (IS_WHITESPACE(*ihp)) {
+ /* Whitespace, like "#! /bin/sh\n", keep going. */
+ } else {
+ /* Found start of interpreter */
+ break;
+ }
+ }
+
+ if (ihp == &vdata[IMG_SHSIZE]) {
+ /* All whitespace, like "#! " */
+ return (ENOEXEC);
}
- line_endp = ihp;
- ihp = &vdata[2];
- /* Skip over leading spaces - until the interpreter name */
- while ( ihp < line_endp && ((*ihp == ' ') || (*ihp == '\t')))
- ihp++;
+ line_startp = ihp;
- /*
- * Find the last non-whitespace character before the end of line or
- * the beginning of a comment; this is our new end of line.
- */
- for (;line_endp > ihp && ((*line_endp == ' ') || (*line_endp == '\t')); line_endp--)
- continue;
+ /* Try to find the end of the interpreter+args string */
+ for ( ; ihp < &vdata[IMG_SHSIZE]; ihp++ ) {
+ if (IS_EOL(*ihp)) {
+ /* Got it */
+ break;
+ } else {
+ /* Still part of interpreter or args */
+ }
+ }
- /* Empty? */
- if (line_endp == ihp)
+ if (ihp == &vdata[IMG_SHSIZE]) {
+ /* A long line, like "#! blah blah blah" without end */
return (ENOEXEC);
+ }
- /* copy the interpreter name */
- interp = imgp->ip_interp_name;
- while ((ihp < line_endp) && (*ihp != ' ') && (*ihp != '\t'))
- *interp++ = *ihp++;
- *interp = '\0';
+ /* Backtrack until we find the last non-whitespace */
+ while (IS_EOL(*ihp) || IS_WHITESPACE(*ihp)) {
+ ihp--;
+ }
- exec_save_path(imgp, CAST_USER_ADDR_T(imgp->ip_interp_name),
- UIO_SYSSPACE);
+ /* The character after the last non-whitespace is our logical end of line */
+ line_endp = ihp + 1;
- ihp = &vdata[2];
- while (ihp < line_endp) {
- /* Skip leading whitespace before each argument */
- while ((*ihp == ' ') || (*ihp == '\t'))
- ihp++;
+ /*
+ * Now we have pointers to the usable part of:
+ *
+ * "#! /usr/bin/int first second third \n"
+ * ^ line_startp ^ line_endp
+ */
- if (ihp >= line_endp)
- break;
+ /* copy the interpreter name */
+ interp = imgp->ip_interp_buffer;
+ for ( ihp = line_startp; (ihp < line_endp) && !IS_WHITESPACE(*ihp); ihp++)
+ *interp++ = *ihp;
+ *interp = '\0';
- /* We have an argument; copy it */
- while ((ihp < line_endp) && (*ihp != ' ') && (*ihp != '\t')) {
- *imgp->ip_strendp++ = *ihp++;
- imgp->ip_strspace--;
- }
- *imgp->ip_strendp++ = 0;
- imgp->ip_strspace--;
- imgp->ip_argc++;
- }
+ exec_reset_save_path(imgp);
+ exec_save_path(imgp, CAST_USER_ADDR_T(imgp->ip_interp_buffer),
+ UIO_SYSSPACE, NULL);
+
+ /* Copy the entire interpreter + args for later processing into argv[] */
+ interp = imgp->ip_interp_buffer;
+ for ( ihp = line_startp; (ihp < line_endp); ihp++)
+ *interp++ = *ihp;
+ *interp = '\0';
+#if !SECURE_KERNEL
/*
- * If we have a SUID oder SGID script, create a file descriptor
+ * If we have an SUID or SGID script, create a file descriptor
* from the vnode and pass /dev/fd/%d instead of the actual
* path name so that the script does not get opened twice
*/
if (imgp->ip_origvattr->va_mode & (VSUID | VSGID)) {
+ proc_t p;
+ struct fileproc *fp;
+ int fd;
+ int error;
+
p = vfs_context_proc(imgp->ip_vfs_context);
error = falloc(p, &fp, &fd, imgp->ip_vfs_context);
if (error)
return(error);
fp->f_fglob->fg_flag = FREAD;
- fp->f_fglob->fg_type = DTYPE_VNODE;
fp->f_fglob->fg_ops = &vnops;
fp->f_fglob->fg_data = (caddr_t)imgp->ip_vp;
proc_fdunlock(p);
vnode_ref(imgp->ip_vp);
- snprintf(temp, sizeof(temp), "/dev/fd/%d", fd);
- error = copyoutstr(temp, imgp->ip_user_fname, sizeof(temp), &len);
- if (error)
- return(error);
+ imgp->ip_interp_sugid_fd = fd;
}
+#endif
return (-3);
}
int resid, error;
load_return_t lret;
+ if (imgp->ip_origcputype != 0) {
+ /* Fat header previously matched, don't allow another fat file inside */
+ error = -1; /* not claimed */
+ goto bad;
+ }
+
/* Make sure it's a fat binary */
- if ((fat_header->magic != FAT_MAGIC) &&
- (fat_header->magic != FAT_CIGAM)) {
- error = -1;
+ if (OSSwapBigToHostInt32(fat_header->magic) != FAT_MAGIC) {
+ error = -1; /* not claimed */
+ goto bad;
+ }
+
+ /* imgp->ip_vdata has PAGE_SIZE, zerofilled if the file is smaller */
+ lret = fatfile_validate_fatarches((vm_offset_t)fat_header, PAGE_SIZE);
+ if (lret != LOAD_SUCCESS) {
+ error = load_return_to_errno(lret);
goto bad;
}
/* If posix_spawn binprefs exist, respect those prefs. */
psa = (struct _posix_spawnattr *) imgp->ip_px_sa;
if (psa != NULL && psa->psa_binprefs[0] != 0) {
- struct fat_arch *arches = (struct fat_arch *) (fat_header + 1);
- int nfat_arch = 0, pr = 0, f = 0;
+ uint32_t pr = 0;
- nfat_arch = OSSwapBigToHostInt32(fat_header->nfat_arch);
/* Check each preference listed against all arches in header */
for (pr = 0; pr < NBINPREFS; pr++) {
cpu_type_t pref = psa->psa_binprefs[pr];
if (pref == CPU_TYPE_ANY) {
/* Fall through to regular grading */
- break;
+ goto regular_grading;
}
- for (f = 0; f < nfat_arch; f++) {
- cpu_type_t archtype = OSSwapBigToHostInt32(
- arches[f].cputype);
- cpu_type_t archsubtype = OSSwapBigToHostInt32(
- arches[f].cpusubtype) & ~CPU_SUBTYPE_MASK;
- if (pref == archtype &&
- grade_binary(archtype, archsubtype)) {
- /* We have a winner! */
- fat_arch.cputype = archtype;
- fat_arch.cpusubtype = archsubtype;
- fat_arch.offset = OSSwapBigToHostInt32(
- arches[f].offset);
- fat_arch.size = OSSwapBigToHostInt32(
- arches[f].size);
- fat_arch.align = OSSwapBigToHostInt32(
- arches[f].align);
- goto use_arch;
- }
+ lret = fatfile_getbestarch_for_cputype(pref,
+ (vm_offset_t)fat_header,
+ PAGE_SIZE,
+ &fat_arch);
+ if (lret == LOAD_SUCCESS) {
+ goto use_arch;
}
}
+
+ /* Requested binary preference was not honored */
+ error = EBADEXEC;
+ goto bad;
}
+regular_grading:
/* Look up our preferred architecture in the fat file. */
- lret = fatfile_getarch_affinity(imgp->ip_vp,
- (vm_offset_t)fat_header,
- &fat_arch,
- (p->p_flag & P_AFFINITY));
+ lret = fatfile_getbestarch((vm_offset_t)fat_header,
+ PAGE_SIZE,
+ &fat_arch);
if (lret != LOAD_SUCCESS) {
error = load_return_to_errno(lret);
goto bad;
goto bad;
}
- /* Did we read a complete header? */
if (resid) {
- error = EBADEXEC;
- goto bad;
+ memset(imgp->ip_vdata + (PAGE_SIZE - resid), 0x0, resid);
}
/* Success. Indicate we have identified an encapsulated binary */
error = -2;
imgp->ip_arch_offset = (user_size_t)fat_arch.offset;
imgp->ip_arch_size = (user_size_t)fat_arch.size;
+ imgp->ip_origcputype = fat_arch.cputype;
+ imgp->ip_origcpusubtype = fat_arch.cpusubtype;
bad:
kauth_cred_unref(&cred);
return (error);
}
+static int
+activate_exec_state(task_t task, proc_t p, thread_t thread, load_result_t *result)
+{
+ int ret;
+
+ task_set_dyld_info(task, MACH_VM_MIN_ADDRESS, 0);
+ if (result->is64bit) {
+ task_set_64bit(task, TRUE);
+ OSBitOrAtomic(P_LP64, &p->p_flag);
+ } else {
+ task_set_64bit(task, FALSE);
+ OSBitAndAtomic(~((uint32_t)P_LP64), &p->p_flag);
+ }
+
+ ret = thread_state_initialize(thread);
+ if (ret != KERN_SUCCESS) {
+ return ret;
+ }
+
+ if (result->threadstate) {
+ uint32_t *ts = result->threadstate;
+ uint32_t total_size = result->threadstate_sz;
+
+ while (total_size > 0) {
+ uint32_t flavor = *ts++;
+ uint32_t size = *ts++;
+
+ ret = thread_setstatus(thread, flavor, (thread_state_t)ts, size);
+ if (ret) {
+ return ret;
+ }
+ ts += size;
+ total_size -= (size + 2) * sizeof(uint32_t);
+ }
+ }
+
+ thread_setentrypoint(thread, result->entry_point);
+
+ return KERN_SUCCESS;
+}
+
+
+/*
+ * Set p->p_comm and p->p_name to the name passed to exec
+ */
+static void
+set_proc_name(struct image_params *imgp, proc_t p)
+{
+ int p_name_len = sizeof(p->p_name) - 1;
+
+ if (imgp->ip_ndp->ni_cnd.cn_namelen > p_name_len) {
+ imgp->ip_ndp->ni_cnd.cn_namelen = p_name_len;
+ }
+
+ bcopy((caddr_t)imgp->ip_ndp->ni_cnd.cn_nameptr, (caddr_t)p->p_name,
+ (unsigned)imgp->ip_ndp->ni_cnd.cn_namelen);
+ p->p_name[imgp->ip_ndp->ni_cnd.cn_namelen] = '\0';
+
+ if (imgp->ip_ndp->ni_cnd.cn_namelen > MAXCOMLEN) {
+ imgp->ip_ndp->ni_cnd.cn_namelen = MAXCOMLEN;
+ }
+
+ bcopy((caddr_t)imgp->ip_ndp->ni_cnd.cn_nameptr, (caddr_t)p->p_comm,
+ (unsigned)imgp->ip_ndp->ni_cnd.cn_namelen);
+ p->p_comm[imgp->ip_ndp->ni_cnd.cn_namelen] = '\0';
+}
+
+static uint64_t get_va_fsid(struct vnode_attr *vap)
+{
+ if (VATTR_IS_SUPPORTED(vap, va_fsid64)) {
+ return *(uint64_t *)&vap->va_fsid64;
+ } else {
+ return vap->va_fsid;
+ }
+}
+
/*
* exec_mach_imgact
*
struct mach_header *mach_header = (struct mach_header *)imgp->ip_vdata;
proc_t p = vfs_context_proc(imgp->ip_vfs_context);
int error = 0;
- int vfexec = 0;
task_t task;
task_t new_task = NULL; /* protected by vfexec */
thread_t thread;
struct uthread *uthread;
vm_map_t old_map = VM_MAP_NULL;
- vm_map_t map;
+ vm_map_t map = VM_MAP_NULL;
load_return_t lret;
load_result_t load_result;
struct _posix_spawnattr *psa = NULL;
- int spawn = (imgp->ip_flags & IMGPF_SPAWN);
+ int spawn = (imgp->ip_flags & IMGPF_SPAWN);
+ int vfexec = (imgp->ip_flags & IMGPF_VFORK_EXEC);
+ int exec = (imgp->ip_flags & IMGPF_EXEC);
+ os_reason_t exec_failure_reason = OS_REASON_NULL;
/*
* make sure it's a Mach-O 1.0 or Mach-O 2.0 binary; the difference
* is a reserved field on the end, so for the most part, we can
- * treat them as if they were identical.
- */
+ * treat them as if they were identical. Reverse-endian Mach-O
+ * binaries are recognized but not compatible.
+ */
+ if ((mach_header->magic == MH_CIGAM) ||
+ (mach_header->magic == MH_CIGAM_64)) {
+ error = EBADARCH;
+ goto bad;
+ }
+
if ((mach_header->magic != MH_MAGIC) &&
(mach_header->magic != MH_MAGIC_64)) {
error = -1;
goto bad;
}
- switch (mach_header->filetype) {
- case MH_DYLIB:
- case MH_BUNDLE:
+ if (mach_header->filetype != MH_EXECUTE) {
error = -1;
goto bad;
}
- if (!imgp->ip_origcputype) {
+ if (imgp->ip_origcputype != 0) {
+ /* Fat header previously had an idea about this thin file */
+ if (imgp->ip_origcputype != mach_header->cputype ||
+ imgp->ip_origcpusubtype != mach_header->cpusubtype) {
+ error = EBADARCH;
+ goto bad;
+ }
+ } else {
imgp->ip_origcputype = mach_header->cputype;
imgp->ip_origcpusubtype = mach_header->cpusubtype;
}
thread = current_thread();
uthread = get_bsdthread_info(thread);
- /*
- * Save off the vfexec state up front; we have to do this, because
- * we need to know if we were in this state initally subsequent to
- * creating the backing task, thread, and uthread for the child
- * process (from the vfs_context_t from in img_parms).
- */
- if (uthread->uu_flag & UT_VFORK)
- vfexec = 1; /* Mark in exec */
-
if ((mach_header->cputype & CPU_ARCH_ABI64) == CPU_ARCH_ABI64)
imgp->ip_flags |= IMGPF_IS_64BIT;
goto bad;
}
grade:
- if (!grade_binary(imgp->ip_origcputype & ~CPU_SUBTYPE_LIB64,
- imgp->ip_origcpusubtype & ~CPU_SUBTYPE_MASK)) {
+ if (!grade_binary(imgp->ip_origcputype, imgp->ip_origcpusubtype & ~CPU_SUBTYPE_MASK)) {
error = EBADARCH;
goto bad;
}
if (error)
goto bad;
- AUDIT_ARG(argv, imgp->ip_argv, imgp->ip_argc,
- imgp->ip_strendargvp - imgp->ip_argv);
- AUDIT_ARG(envv, imgp->ip_strendargvp, imgp->ip_envc,
- imgp->ip_strendp - imgp->ip_strendargvp);
-
- /*
- * Hack for binary compatability; put three NULs on the end of the
- * string area, and round it up to the next word boundary. This
- * ensures padding with NULs to the boundary.
- */
- imgp->ip_strendp[0] = 0;
- imgp->ip_strendp[1] = 0;
- imgp->ip_strendp[2] = 0;
- imgp->ip_strendp += (((imgp->ip_strendp - imgp->ip_strings) + NBPW-1) & ~(NBPW-1));
-
-#ifdef IMGPF_POWERPC
- /*
- * XXX
- *
- * Should be factored out; this is here because we might be getting
- * invoked this way as the result of a shell script, and the check
- * in exec_check_permissions() is not interior to the jump back up
- * to the "encapsulated_binary:" label in exec_activate_image().
- */
- if (imgp->ip_vattr->va_fsid == exec_archhandler_ppc.fsid &&
- imgp->ip_vattr->va_fileid == (uint64_t)((u_long)exec_archhandler_ppc.fileid)) {
- imgp->ip_flags |= IMGPF_POWERPC;
- }
-#endif /* IMGPF_POWERPC */
+ AUDIT_ARG(argv, imgp->ip_startargv, imgp->ip_argc,
+ imgp->ip_endargv - imgp->ip_startargv);
+ AUDIT_ARG(envv, imgp->ip_endargv, imgp->ip_envc,
+ imgp->ip_endenvv - imgp->ip_endargv);
/*
* We are being called to activate an image subsequent to a vfork()
* operation; in this case, we know that our task, thread, and
- * uthread are actualy those of our parent, and our proc, which we
+ * uthread are actually those of our parent, and our proc, which we
* obtained indirectly from the image_params vfs_context_t, is the
* new child process.
*/
- if (vfexec || spawn) {
- if (vfexec) {
- imgp->ip_new_thread = fork_create_child(task, p, FALSE, (imgp->ip_flags & IMGPF_IS_64BIT));
- if (imgp->ip_new_thread == NULL) {
- error = ENOMEM;
- goto bad;
- }
+ if (vfexec) {
+ imgp->ip_new_thread = fork_create_child(task, NULL, p, FALSE, (imgp->ip_flags & IMGPF_IS_64BIT), FALSE);
+ /* task and thread ref returned, will be released in __mac_execve */
+ if (imgp->ip_new_thread == NULL) {
+ error = ENOMEM;
+ goto bad;
}
-
- /* reset local idea of thread, uthread, task */
- thread = imgp->ip_new_thread;
- uthread = get_bsdthread_info(thread);
- task = new_task = get_threadtask(thread);
- map = get_task_map(task);
- } else {
- map = VM_MAP_NULL;
}
- /*
- * We set these flags here; this is OK, since if we fail after
- * this point, we have already destroyed the parent process anyway.
- */
- task_set_dyld_info(task, MACH_VM_MIN_ADDRESS, 0);
- if (imgp->ip_flags & IMGPF_IS_64BIT) {
- task_set_64bit(task, TRUE);
- OSBitOrAtomic(P_LP64, &p->p_flag);
- } else {
- task_set_64bit(task, FALSE);
- OSBitAndAtomic(~((uint32_t)P_LP64), &p->p_flag);
- }
+
+ /* reset local idea of thread, uthread, task */
+ thread = imgp->ip_new_thread;
+ uthread = get_bsdthread_info(thread);
+ task = new_task = get_threadtask(thread);
/*
* Load the Mach-O file.
*
* NOTE: An error after this point indicates we have potentially
- * destroyed or overwrote some process state while attempting an
+ * destroyed or overwritten some process state while attempting an
* execve() following a vfork(), which is an unrecoverable condition.
+ * We send the new process an immediate SIGKILL to avoid it executing
+ * any instructions in the mutated address space. For true spawns,
+ * this is not the case, and "too late" is still not too late to
+ * return an error code to the parent process.
*/
/*
* Actually load the image file we previously decided to load.
*/
- lret = load_machfile(imgp, mach_header, thread, map, &load_result);
-
+ lret = load_machfile(imgp, mach_header, thread, &map, &load_result);
if (lret != LOAD_SUCCESS) {
error = load_return_to_errno(lret);
+
+ KERNEL_DEBUG_CONSTANT(BSDDBG_CODE(DBG_BSD_PROC, BSD_PROC_EXITREASON_CREATE) | DBG_FUNC_NONE,
+ p->p_pid, OS_REASON_EXEC, EXEC_EXIT_REASON_BAD_MACHO, 0, 0);
+ if (lret == LOAD_BADMACHO_UPX) {
+ /* set anything that might be useful in the crash report */
+ set_proc_name(imgp, p);
+
+ exec_failure_reason = os_reason_create(OS_REASON_EXEC, EXEC_EXIT_REASON_UPX);
+ exec_failure_reason->osr_flags |= OS_REASON_FLAG_GENERATE_CRASH_REPORT;
+ exec_failure_reason->osr_flags |= OS_REASON_FLAG_CONSISTENT_FAILURE;
+ } else if (lret == LOAD_BADARCH_X86) {
+ /* set anything that might be useful in the crash report */
+ set_proc_name(imgp, p);
+
+ exec_failure_reason = os_reason_create(OS_REASON_EXEC, EXEC_EXIT_REASON_NO32EXEC);
+ exec_failure_reason->osr_flags |= OS_REASON_FLAG_GENERATE_CRASH_REPORT;
+ exec_failure_reason->osr_flags |= OS_REASON_FLAG_CONSISTENT_FAILURE;
+ } else {
+ exec_failure_reason = os_reason_create(OS_REASON_EXEC, EXEC_EXIT_REASON_BAD_MACHO);
+ }
+
goto badtoolate;
}
- vm_map_set_user_wire_limit(get_task_map(task), p->p_rlimit[RLIMIT_MEMLOCK].rlim_cur);
+ proc_lock(p);
+ p->p_cputype = imgp->ip_origcputype;
+ p->p_cpusubtype = imgp->ip_origcpusubtype;
+ proc_unlock(p);
+
+ vm_map_set_user_wire_limit(map, p->p_rlimit[RLIMIT_MEMLOCK].rlim_cur);
/*
* Set code-signing flags if this binary is signed, or if parent has
* requested them on exec.
*/
if (load_result.csflags & CS_VALID) {
- imgp->ip_csflags |= load_result.csflags &
- (CS_VALID|
- CS_HARD|CS_KILL|CS_EXEC_SET_HARD|CS_EXEC_SET_KILL);
+ imgp->ip_csflags |= load_result.csflags &
+ (CS_VALID|CS_SIGNED|CS_DEV_CODE|
+ CS_HARD|CS_KILL|CS_RESTRICT|CS_ENFORCEMENT|CS_REQUIRE_LV|
+ CS_ENTITLEMENTS_VALIDATED|CS_DYLD_PLATFORM|
+ CS_ENTITLEMENT_FLAGS|
+ CS_EXEC_SET_HARD|CS_EXEC_SET_KILL|CS_EXEC_SET_ENFORCEMENT);
} else {
imgp->ip_csflags &= ~CS_VALID;
}
imgp->ip_csflags |= CS_HARD;
if (p->p_csflags & CS_EXEC_SET_KILL)
imgp->ip_csflags |= CS_KILL;
-
+ if (p->p_csflags & CS_EXEC_SET_ENFORCEMENT)
+ imgp->ip_csflags |= CS_ENFORCEMENT;
+ if (p->p_csflags & CS_EXEC_INHERIT_SIP) {
+ if (p->p_csflags & CS_INSTALLER)
+ imgp->ip_csflags |= CS_INSTALLER;
+ if (p->p_csflags & CS_DATAVAULT_CONTROLLER)
+ imgp->ip_csflags |= CS_DATAVAULT_CONTROLLER;
+ if (p->p_csflags & CS_NVRAM_UNRESTRICTED)
+ imgp->ip_csflags |= CS_NVRAM_UNRESTRICTED;
+ }
/*
* Set up the system reserved areas in the new address space.
*/
- vm_map_exec(get_task_map(task),
- task,
- (void *) p->p_fd->fd_rdir,
-#ifdef IMGPF_POWERPC
- imgp->ip_flags & IMGPF_POWERPC ?
- CPU_TYPE_POWERPC :
-#endif
- cpu_type());
-
+ vm_map_exec(map, task, load_result.is64bit, (void *)p->p_fd->fd_rdir, cpu_type());
+
/*
- * Close file descriptors
- * which specify close-on-exec.
+ * Close file descriptors which specify close-on-exec.
*/
- fdexec(p);
+ fdexec(p, psa != NULL ? psa->psa_flags : 0, exec);
/*
* deal with set[ug]id.
*/
error = exec_handle_sugid(imgp);
+ if (error) {
+ vm_map_deallocate(map);
+
+ KERNEL_DEBUG_CONSTANT(BSDDBG_CODE(DBG_BSD_PROC, BSD_PROC_EXITREASON_CREATE) | DBG_FUNC_NONE,
+ p->p_pid, OS_REASON_EXEC, EXEC_EXIT_REASON_SUGID_FAILURE, 0, 0);
+ exec_failure_reason = os_reason_create(OS_REASON_EXEC, EXEC_EXIT_REASON_SUGID_FAILURE);
+ goto badtoolate;
+ }
+
+ /*
+ * Commit to new map.
+ *
+ * Swap the new map for the old for target task, which consumes
+ * our new map reference but each leaves us responsible for the
+ * old_map reference. That lets us get off the pmap associated
+ * with it, and then we can release it.
+ *
+ * The map needs to be set on the target task which is different
+ * than current task, thus swap_task_map is used instead of
+ * vm_map_switch.
+ */
+ old_map = swap_task_map(task, thread, map);
+ vm_map_deallocate(old_map);
+ old_map = NULL;
+
+ lret = activate_exec_state(task, p, thread, &load_result);
+ if (lret != KERN_SUCCESS) {
+
+ KERNEL_DEBUG_CONSTANT(BSDDBG_CODE(DBG_BSD_PROC, BSD_PROC_EXITREASON_CREATE) | DBG_FUNC_NONE,
+ p->p_pid, OS_REASON_EXEC, EXEC_EXIT_REASON_ACTV_THREADSTATE, 0, 0);
+ exec_failure_reason = os_reason_create(OS_REASON_EXEC, EXEC_EXIT_REASON_ACTV_THREADSTATE);
+ goto badtoolate;
+ }
+
+ /*
+ * deal with voucher on exec-calling thread.
+ */
+ if (imgp->ip_new_thread == NULL)
+ thread_set_mach_voucher(current_thread(), IPC_VOUCHER_NULL);
/* Make sure we won't interrupt ourself signalling a partial process */
if (!vfexec && !spawn && (p->p_lflag & P_LTRACED))
psignal(p, SIGTRAP);
- if (error) {
- goto badtoolate;
- }
-
if (load_result.unixproc &&
create_unix_stack(get_task_map(task),
- load_result.user_stack,
- load_result.customstack,
+ &load_result,
p) != KERN_SUCCESS) {
error = load_return_to_errno(LOAD_NOSPACE);
+
+ KERNEL_DEBUG_CONSTANT(BSDDBG_CODE(DBG_BSD_PROC, BSD_PROC_EXITREASON_CREATE) | DBG_FUNC_NONE,
+ p->p_pid, OS_REASON_EXEC, EXEC_EXIT_REASON_STACK_ALLOC, 0, 0);
+ exec_failure_reason = os_reason_create(OS_REASON_EXEC, EXEC_EXIT_REASON_STACK_ALLOC);
goto badtoolate;
}
- /*
- * There is no continuing workq context during
- * vfork exec. So no need to reset then. Otherwise
- * clear the workqueue context.
- */
- if (vfexec == 0 && spawn == 0) {
- (void)workqueue_exit(p);
- }
- if (vfexec || spawn) {
- old_map = vm_map_switch(get_task_map(task));
+ error = exec_add_apple_strings(imgp, &load_result);
+ if (error) {
+
+ KERNEL_DEBUG_CONSTANT(BSDDBG_CODE(DBG_BSD_PROC, BSD_PROC_EXITREASON_CREATE) | DBG_FUNC_NONE,
+ p->p_pid, OS_REASON_EXEC, EXEC_EXIT_REASON_APPLE_STRING_INIT, 0, 0);
+ exec_failure_reason = os_reason_create(OS_REASON_EXEC, EXEC_EXIT_REASON_APPLE_STRING_INIT);
+ goto badtoolate;
}
+ /* Switch to target task's map to copy out strings */
+ old_map = vm_map_switch(get_task_map(task));
+
if (load_result.unixproc) {
user_addr_t ap;
ap = p->user_stack;
error = exec_copyout_strings(imgp, &ap);
if (error) {
- if (vfexec || spawn)
- vm_map_switch(old_map);
+ vm_map_switch(old_map);
+
+ KERNEL_DEBUG_CONSTANT(BSDDBG_CODE(DBG_BSD_PROC, BSD_PROC_EXITREASON_CREATE) | DBG_FUNC_NONE,
+ p->p_pid, OS_REASON_EXEC, EXEC_EXIT_REASON_COPYOUT_STRINGS, 0, 0);
+ exec_failure_reason = os_reason_create(OS_REASON_EXEC, EXEC_EXIT_REASON_COPYOUT_STRINGS);
goto badtoolate;
}
/* Set the stack */
thread_setuserstack(thread, ap);
}
-
+
if (load_result.dynlinker) {
uint64_t ap;
+ int new_ptr_size = (imgp->ip_flags & IMGPF_IS_64BIT) ? 8 : 4;
/* Adjust the stack */
- if (imgp->ip_flags & IMGPF_IS_64BIT) {
- ap = thread_adjuserstack(thread, -8);
- error = copyoutptr(load_result.mach_header, ap, 8);
- } else {
- ap = thread_adjuserstack(thread, -4);
- error = suword(ap, load_result.mach_header);
- }
+ ap = thread_adjuserstack(thread, -new_ptr_size);
+ error = copyoutptr(load_result.mach_header, ap, new_ptr_size);
+
if (error) {
- if (vfexec || spawn)
- vm_map_switch(old_map);
+ vm_map_switch(old_map);
+
+ KERNEL_DEBUG_CONSTANT(BSDDBG_CODE(DBG_BSD_PROC, BSD_PROC_EXITREASON_CREATE) | DBG_FUNC_NONE,
+ p->p_pid, OS_REASON_EXEC, EXEC_EXIT_REASON_COPYOUT_DYNLINKER, 0, 0);
+ exec_failure_reason = os_reason_create(OS_REASON_EXEC, EXEC_EXIT_REASON_COPYOUT_DYNLINKER);
goto badtoolate;
}
task_set_dyld_info(task, load_result.all_image_info_addr,
load_result.all_image_info_size);
}
- if (vfexec || spawn) {
- vm_map_switch(old_map);
- }
- /* Set the entry point */
- thread_setentrypoint(thread, load_result.entry_point);
+ /* Avoid immediate VM faults back into kernel */
+ exec_prefault_data(p, imgp, &load_result);
+
+ vm_map_switch(old_map);
/* Stop profiling */
stopprofclock(p);
* Remember file name for accounting.
*/
p->p_acflag &= ~AFORK;
- /* If the translated name isn't NULL, then we want to use
- * that translated name as the name we show as the "real" name.
- * Otherwise, use the name passed into exec.
- */
- if (0 != imgp->ip_p_comm[0]) {
- bcopy((caddr_t)imgp->ip_p_comm, (caddr_t)p->p_comm,
- sizeof(p->p_comm));
- } else {
- if (imgp->ip_ndp->ni_cnd.cn_namelen > MAXCOMLEN)
- imgp->ip_ndp->ni_cnd.cn_namelen = MAXCOMLEN;
- bcopy((caddr_t)imgp->ip_ndp->ni_cnd.cn_nameptr, (caddr_t)p->p_comm,
- (unsigned)imgp->ip_ndp->ni_cnd.cn_namelen);
- p->p_comm[imgp->ip_ndp->ni_cnd.cn_namelen] = '\0';
+
+ set_proc_name(imgp, p);
+
+#if CONFIG_SECLUDED_MEMORY
+ if (secluded_for_apps &&
+ load_result.platform_binary) {
+ if (strncmp(p->p_name,
+ "Camera",
+ sizeof (p->p_name)) == 0) {
+ task_set_could_use_secluded_mem(task, TRUE);
+ } else {
+ task_set_could_use_secluded_mem(task, FALSE);
+ }
+ if (strncmp(p->p_name,
+ "mediaserverd",
+ sizeof (p->p_name)) == 0) {
+ task_set_could_also_use_secluded_mem(task, TRUE);
+ }
}
+#endif /* CONFIG_SECLUDED_MEMORY */
- memcpy(&p->p_uuid[0], &load_result.uuid[0], sizeof(p->p_uuid));
+ pal_dbg_set_task_name(task);
-// <rdar://6598155> dtrace code cleanup needed
-#if CONFIG_DTRACE
/*
- * Invalidate any predicate evaluation already cached for this thread by DTrace.
- * That's because we've just stored to p_comm and DTrace refers to that when it
- * evaluates the "execname" special variable. uid and gid may have changed as well.
+ * The load result will have already been munged by AMFI to include the
+ * platform binary flag if boot-args dictated it (AMFI will mark anything
+ * that doesn't go through the upcall path as a platform binary if its
+ * enforcement is disabled).
*/
- dtrace_set_thread_predcache(current_thread(), 0);
+ if (load_result.platform_binary) {
+ if (cs_debug) {
+ printf("setting platform binary on task: pid = %d\n", p->p_pid);
+ }
+
+ /*
+ * We must use 'task' here because the proc's task has not yet been
+ * switched to the new one.
+ */
+ task_set_platform_binary(task, TRUE);
+ } else {
+ if (cs_debug) {
+ printf("clearing platform binary on task: pid = %d\n", p->p_pid);
+ }
+ task_set_platform_binary(task, FALSE);
+ }
+
+#if DEVELOPMENT || DEBUG
/*
- * Free any outstanding lazy dof entries. It is imperative we
- * always call dtrace_lazy_dofs_destroy, rather than null check
- * and call if !NULL. If we NULL test, during lazy dof faulting
- * we can race with the faulting code and proceed from here to
- * beyond the helpers cleanup. The lazy dof faulting will then
- * install new helpers which no longer belong to this process!
+ * Update the pid an proc name for importance base if any
*/
- dtrace_lazy_dofs_destroy(p);
+ task_importance_update_owner_info(task);
+#endif
+ memcpy(&p->p_uuid[0], &load_result.uuid[0], sizeof(p->p_uuid));
- /*
- * Clean up any DTrace helpers for the process.
- */
- if (p->p_dtrace_helpers != NULL && dtrace_helpers_cleanup) {
- (*dtrace_helpers_cleanup)(p);
- }
-
- /*
- * Cleanup the DTrace provider associated with this process.
- */
- proc_lock(p);
- if (p->p_dtrace_probes && dtrace_fasttrap_exec_ptr) {
- (*dtrace_fasttrap_exec_ptr)(p);
- }
- proc_unlock(p);
+#if CONFIG_DTRACE
+ dtrace_proc_exec(p);
#endif
if (kdebug_enable) {
- long dbg_arg1, dbg_arg2, dbg_arg3, dbg_arg4;
+ long args[4] = {};
+
+ uintptr_t fsid = 0, fileid = 0;
+ if (imgp->ip_vattr) {
+ uint64_t fsid64 = get_va_fsid(imgp->ip_vattr);
+ fsid = fsid64;
+ fileid = imgp->ip_vattr->va_fileid;
+ // check for (unexpected) overflow and trace zero in that case
+ if (fsid != fsid64 || fileid != imgp->ip_vattr->va_fileid) {
+ fsid = fileid = 0;
+ }
+ }
+ KERNEL_DEBUG_CONSTANT_IST1(TRACE_DATA_EXEC, p->p_pid, fsid, fileid, 0,
+ (uintptr_t)thread_tid(thread));
/*
* Collect the pathname for tracing
*/
- kdbg_trace_string(p, &dbg_arg1, &dbg_arg2, &dbg_arg3, &dbg_arg4);
-
- if (vfexec || spawn) {
- KERNEL_DEBUG_CONSTANT1((TRACEDBG_CODE(DBG_TRACE_DATA, 2)) | DBG_FUNC_NONE,
- p->p_pid ,0,0,0, (uintptr_t)thread_tid(thread));
- KERNEL_DEBUG_CONSTANT1((TRACEDBG_CODE(DBG_TRACE_STRING, 2)) | DBG_FUNC_NONE,
- dbg_arg1, dbg_arg2, dbg_arg3, dbg_arg4, (uintptr_t)thread_tid(thread));
- } else {
- KERNEL_DEBUG_CONSTANT((TRACEDBG_CODE(DBG_TRACE_DATA, 2)) | DBG_FUNC_NONE,
- p->p_pid ,0,0,0,0);
- KERNEL_DEBUG_CONSTANT((TRACEDBG_CODE(DBG_TRACE_STRING, 2)) | DBG_FUNC_NONE,
- dbg_arg1, dbg_arg2, dbg_arg3, dbg_arg4, 0);
- }
+ kdbg_trace_string(p, &args[0], &args[1], &args[2], &args[3]);
+ KERNEL_DEBUG_CONSTANT_IST1(TRACE_STRING_EXEC, args[0], args[1],
+ args[2], args[3], (uintptr_t)thread_tid(thread));
}
-#ifdef IMGPF_POWERPC
- /*
- * Mark the process as powerpc or not. If powerpc, set the affinity
- * flag, which will be used for grading binaries in future exec's
- * from the process.
- */
- if (((imgp->ip_flags & IMGPF_POWERPC) != 0))
- OSBitOrAtomic(P_TRANSLATED, &p->p_flag);
- else
-#endif /* IMGPF_POWERPC */
- OSBitAndAtomic(~((uint32_t)P_TRANSLATED), &p->p_flag);
- OSBitAndAtomic(~((uint32_t)P_AFFINITY), &p->p_flag);
-
/*
* If posix_spawned with the START_SUSPENDED flag, stop the
* process before it runs.
proc_lock(p);
p->p_stat = SSTOP;
proc_unlock(p);
- (void) task_suspend(p->task);
+ (void) task_suspend_internal(task);
}
}
psignal_vfork(p, new_task, thread, SIGTRAP);
}
+ goto done;
+
badtoolate:
-if (!spawn)
- proc_knote(p, NOTE_EXEC);
+ /* Don't allow child process to execute any instructions */
+ if (!spawn) {
+ if (vfexec) {
+ assert(exec_failure_reason != OS_REASON_NULL);
+ psignal_vfork_with_reason(p, new_task, thread, SIGKILL, exec_failure_reason);
+ exec_failure_reason = OS_REASON_NULL;
+ } else {
+ assert(exec_failure_reason != OS_REASON_NULL);
+ psignal_with_reason(p, SIGKILL, exec_failure_reason);
+ exec_failure_reason = OS_REASON_NULL;
- if (vfexec || spawn) {
- task_deallocate(new_task);
- thread_deallocate(thread);
- if (error)
- error = 0;
+ if (exec) {
+ /* Terminate the exec copy task */
+ task_terminate_internal(task);
+ }
+ }
+
+ /* We can't stop this system call at this point, so just pretend we succeeded */
+ error = 0;
+ } else {
+ os_reason_free(exec_failure_reason);
+ exec_failure_reason = OS_REASON_NULL;
+ }
+
+done:
+ if (load_result.threadstate) {
+ kfree(load_result.threadstate, load_result.threadstate_sz);
+ load_result.threadstate = NULL;
}
bad:
+ /* If we hit this, we likely would have leaked an exit reason */
+ assert(exec_failure_reason == OS_REASON_NULL);
return(error);
}
} execsw[] = {
{ exec_mach_imgact, "Mach-o Binary" },
{ exec_fat_imgact, "Fat Binary" },
-#ifdef IMGPF_POWERPC
- { exec_powerpc32_imgact, "PowerPC binary" },
-#endif /* IMGPF_POWERPC */
{ exec_shell_imgact, "Interpreter Script" },
{ NULL, NULL}
};
*
* Description: Iterate through the available image activators, and activate
* the image associated with the imgp structure. We start with
- * the
+ * the activator for Mach-o binaries followed by that for Fat binaries
+ * for Interpreter scripts.
*
* Parameters: struct image_params * Image parameter block
*
* namei:???
* vn_rdwr:??? [anything vn_rdwr can return]
* <ex_imgact>:??? [anything an imgact can return]
+ * EDEADLK Process is being terminated
*/
static int
exec_activate_image(struct image_params *imgp)
{
- struct nameidata nd;
+ struct nameidata *ndp = NULL;
+ const char *excpath;
int error;
int resid;
int once = 1; /* save SGUID-ness for interpreted files */
int i;
- int iterlimit = EAI_ITERLIMIT;
+ int itercount = 0;
proc_t p = vfs_context_proc(imgp->ip_vfs_context);
error = execargs_alloc(imgp);
if (error)
- goto bad;
+ goto bad_notrans;
- /*
- * XXXAUDIT: Note: the double copyin introduces an audit
- * race. To correct this race, we must use a single
- * copyin(), e.g. by passing a flag to namei to indicate an
- * external path buffer is being used.
- */
- error = exec_save_path(imgp, imgp->ip_user_fname, imgp->ip_seg);
+ error = exec_save_path(imgp, imgp->ip_user_fname, imgp->ip_seg, &excpath);
if (error) {
goto bad_notrans;
}
- DTRACE_PROC1(exec, uintptr_t, imgp->ip_strings);
+ /* Use excpath, which contains the copyin-ed exec path */
+ DTRACE_PROC1(exec, uintptr_t, excpath);
+
+ MALLOC(ndp, struct nameidata *, sizeof(*ndp), M_TEMP, M_WAITOK | M_ZERO);
+ if (ndp == NULL) {
+ error = ENOMEM;
+ goto bad_notrans;
+ }
- NDINIT(&nd, LOOKUP, FOLLOW | LOCKLEAF | AUDITVNPATH1,
- imgp->ip_seg, imgp->ip_user_fname, imgp->ip_vfs_context);
+ NDINIT(ndp, LOOKUP, OP_LOOKUP, FOLLOW | LOCKLEAF | AUDITVNPATH1,
+ UIO_SYSSPACE, CAST_USER_ADDR_T(excpath), imgp->ip_vfs_context);
again:
- error = namei(&nd);
+ error = namei(ndp);
if (error)
goto bad_notrans;
- imgp->ip_ndp = &nd; /* successful namei(); call nameidone() later */
- imgp->ip_vp = nd.ni_vp; /* if set, need to vnode_put() at some point */
+ imgp->ip_ndp = ndp; /* successful namei(); call nameidone() later */
+ imgp->ip_vp = ndp->ni_vp; /* if set, need to vnode_put() at some point */
- error = proc_transstart(p, 0);
+ /*
+ * Before we start the transition from binary A to binary B, make
+ * sure another thread hasn't started exiting the process. We grab
+ * the proc lock to check p_lflag initially, and the transition
+ * mechanism ensures that the value doesn't change after we release
+ * the lock.
+ */
+ proc_lock(p);
+ if (p->p_lflag & P_LEXIT) {
+ error = EDEADLK;
+ proc_unlock(p);
+ goto bad_notrans;
+ }
+ error = proc_transstart(p, 1, 0);
+ proc_unlock(p);
if (error)
goto bad_notrans;
&resid, vfs_context_proc(imgp->ip_vfs_context));
if (error)
goto bad;
-
+
+ if (resid) {
+ memset(imgp->ip_vdata + (PAGE_SIZE - resid), 0x0, resid);
+ }
+
encapsulated_binary:
/* Limit the number of iterations we will attempt on each binary */
- if (--iterlimit == 0) {
+ if (++itercount > EAI_ITERLIMIT) {
error = EBADEXEC;
goto bad;
}
switch (error) {
/* case -1: not claimed: continue */
- case -2: /* Encapsulated binary */
+ case -2: /* Encapsulated binary, imgp->ip_XXX set for next iteration */
goto encapsulated_binary;
case -3: /* Interpreter */
}
mac_vnode_label_copy(imgp->ip_vp->v_label,
imgp->ip_scriptlabelp);
+
+ /*
+ * Take a ref of the script vnode for later use.
+ */
+ if (imgp->ip_scriptvp)
+ vnode_put(imgp->ip_scriptvp);
+ if (vnode_getwithref(imgp->ip_vp) == 0)
+ imgp->ip_scriptvp = imgp->ip_vp;
#endif
+
+ nameidone(ndp);
+
vnode_put(imgp->ip_vp);
imgp->ip_vp = NULL; /* already put */
-
- NDINIT(&nd, LOOKUP, (nd.ni_cnd.cn_flags & HASBUF) | (FOLLOW | LOCKLEAF),
- UIO_SYSSPACE, CAST_USER_ADDR_T(imgp->ip_interp_name), imgp->ip_vfs_context);
+ imgp->ip_ndp = NULL; /* already nameidone */
-#ifdef IMGPF_POWERPC
- /*
- * PowerPC does not follow symlinks because the
- * code which sets exec_archhandler_ppc.fsid and
- * exec_archhandler_ppc.fileid doesn't follow them.
- */
- if (imgp->ip_flags & IMGPF_POWERPC)
- nd.ni_cnd.cn_flags &= ~FOLLOW;
-#endif /* IMGPF_POWERPC */
+ /* Use excpath, which exec_shell_imgact reset to the interpreter */
+ NDINIT(ndp, LOOKUP, OP_LOOKUP, FOLLOW | LOCKLEAF,
+ UIO_SYSSPACE, CAST_USER_ADDR_T(excpath), imgp->ip_vfs_context);
proc_transend(p, 0);
goto again;
if (error == 0 && kauth_authorize_fileop_has_listeners()) {
kauth_authorize_fileop(vfs_context_ucred(imgp->ip_vfs_context),
KAUTH_FILEOP_EXEC,
- (uintptr_t)nd.ni_vp, 0);
+ (uintptr_t)ndp->ni_vp, 0);
}
-
bad:
proc_transend(p, 0);
execargs_free(imgp);
if (imgp->ip_ndp)
nameidone(imgp->ip_ndp);
+ if (ndp)
+ FREE(ndp, M_TEMP);
return (error);
}
+
+/*
+ * exec_handle_spawnattr_policy
+ *
+ * Description: Decode and apply the posix_spawn apptype, qos clamp, and watchport ports to the task.
+ *
+ * Parameters: proc_t p process to apply attributes to
+ * int psa_apptype posix spawn attribute apptype
+ *
+ * Returns: 0 Success
+ */
+static errno_t
+exec_handle_spawnattr_policy(proc_t p, int psa_apptype, uint64_t psa_qos_clamp, uint64_t psa_darwin_role,
+ ipc_port_t * portwatch_ports, int portwatch_count)
+{
+ int apptype = TASK_APPTYPE_NONE;
+ int qos_clamp = THREAD_QOS_UNSPECIFIED;
+ int role = TASK_UNSPECIFIED;
+
+ if ((psa_apptype & POSIX_SPAWN_PROC_TYPE_MASK) != 0) {
+ int proctype = psa_apptype & POSIX_SPAWN_PROC_TYPE_MASK;
+
+ switch(proctype) {
+ case POSIX_SPAWN_PROC_TYPE_DAEMON_INTERACTIVE:
+ apptype = TASK_APPTYPE_DAEMON_INTERACTIVE;
+ break;
+ case POSIX_SPAWN_PROC_TYPE_DAEMON_STANDARD:
+ apptype = TASK_APPTYPE_DAEMON_STANDARD;
+ break;
+ case POSIX_SPAWN_PROC_TYPE_DAEMON_ADAPTIVE:
+ apptype = TASK_APPTYPE_DAEMON_ADAPTIVE;
+ break;
+ case POSIX_SPAWN_PROC_TYPE_DAEMON_BACKGROUND:
+ apptype = TASK_APPTYPE_DAEMON_BACKGROUND;
+ break;
+ case POSIX_SPAWN_PROC_TYPE_APP_DEFAULT:
+ apptype = TASK_APPTYPE_APP_DEFAULT;
+ break;
+#if !CONFIG_EMBEDDED
+ case POSIX_SPAWN_PROC_TYPE_APP_TAL:
+ apptype = TASK_APPTYPE_APP_TAL;
+ break;
+#endif /* !CONFIG_EMBEDDED */
+ default:
+ apptype = TASK_APPTYPE_NONE;
+ /* TODO: Should an invalid value here fail the spawn? */
+ break;
+ }
+ }
+
+ if (psa_qos_clamp != POSIX_SPAWN_PROC_CLAMP_NONE) {
+ switch (psa_qos_clamp) {
+ case POSIX_SPAWN_PROC_CLAMP_UTILITY:
+ qos_clamp = THREAD_QOS_UTILITY;
+ break;
+ case POSIX_SPAWN_PROC_CLAMP_BACKGROUND:
+ qos_clamp = THREAD_QOS_BACKGROUND;
+ break;
+ case POSIX_SPAWN_PROC_CLAMP_MAINTENANCE:
+ qos_clamp = THREAD_QOS_MAINTENANCE;
+ break;
+ default:
+ qos_clamp = THREAD_QOS_UNSPECIFIED;
+ /* TODO: Should an invalid value here fail the spawn? */
+ break;
+ }
+ }
+
+ if (psa_darwin_role != PRIO_DARWIN_ROLE_DEFAULT) {
+ proc_darwin_role_to_task_role(psa_darwin_role, &role);
+ }
+
+ if (apptype != TASK_APPTYPE_NONE ||
+ qos_clamp != THREAD_QOS_UNSPECIFIED ||
+ role != TASK_UNSPECIFIED) {
+ proc_set_task_spawnpolicy(p->task, apptype, qos_clamp, role,
+ portwatch_ports, portwatch_count);
+ }
+
+ return (0);
+}
+
+
/*
* exec_handle_port_actions
*
* and/or audit_session_spawnjoin for the current task.
*
* Parameters: struct image_params * Image parameter block
- * short psa_flags posix spawn attribute flags
*
* Returns: 0 Success
- * KERN_FAILURE Failure
+ * EINVAL Failure
* ENOTSUP Illegal posix_spawn attr flag was set
*/
-static int
-exec_handle_port_actions(struct image_params *imgp, short psa_flags)
+static errno_t
+exec_handle_port_actions(struct image_params *imgp, boolean_t * portwatch_present,
+ ipc_port_t * portwatch_ports)
{
_posix_spawn_port_actions_t pacts = imgp->ip_px_spa;
+#if CONFIG_AUDIT
proc_t p = vfs_context_proc(imgp->ip_vfs_context);
+#endif
_ps_port_action_t *act = NULL;
- task_t task = p->task;
+ task_t task = get_threadtask(imgp->ip_new_thread);
ipc_port_t port = NULL;
- kern_return_t ret = KERN_SUCCESS;
+ errno_t ret = 0;
int i;
+ kern_return_t kr;
+
+ *portwatch_present = FALSE;
for (i = 0; i < pacts->pspa_count; i++) {
act = &pacts->pspa_actions[i];
- ret = ipc_object_copyin(get_task_ipcspace(current_task()),
- CAST_MACH_PORT_TO_NAME(act->new_port),
- MACH_MSG_TYPE_COPY_SEND,
- (ipc_object_t *) &port);
+ if (MACH_PORT_VALID(act->new_port)) {
+ kr = ipc_object_copyin(get_task_ipcspace(current_task()),
+ act->new_port, MACH_MSG_TYPE_COPY_SEND,
+ (ipc_object_t *) &port);
- if (ret)
- return ret;
+ if (kr != KERN_SUCCESS) {
+ ret = EINVAL;
+ goto done;
+ }
+ } else {
+ /* it's NULL or DEAD */
+ port = CAST_MACH_NAME_TO_PORT(act->new_port);
+ }
switch (act->port_type) {
- case PSPA_SPECIAL:
- /* Only allowed when not under vfork */
- if (!(psa_flags & POSIX_SPAWN_SETEXEC))
- return ENOTSUP;
- ret = task_set_special_port(task,
- act->which,
- port);
- break;
- case PSPA_EXCEPTION:
- /* Only allowed when not under vfork */
- if (!(psa_flags & POSIX_SPAWN_SETEXEC))
- return ENOTSUP;
- ret = task_set_exception_ports(task,
- act->mask,
- port,
- act->behavior,
- act->flavor);
- break;
+ case PSPA_SPECIAL:
+ kr = task_set_special_port(task, act->which, port);
+
+ if (kr != KERN_SUCCESS)
+ ret = EINVAL;
+ break;
+
+ case PSPA_EXCEPTION:
+ kr = task_set_exception_ports(task, act->mask, port,
+ act->behavior, act->flavor);
+ if (kr != KERN_SUCCESS)
+ ret = EINVAL;
+ break;
#if CONFIG_AUDIT
- case PSPA_AU_SESSION:
- ret = audit_session_spawnjoin(p,
- port);
- break;
+ case PSPA_AU_SESSION:
+ ret = audit_session_spawnjoin(p, task, port);
+ if (ret) {
+ /* audit_session_spawnjoin() has already dropped the reference in case of error. */
+ goto done;
+ }
+
+ break;
#endif
- default:
- ret = KERN_FAILURE;
+ case PSPA_IMP_WATCHPORTS:
+ if (portwatch_ports != NULL && IPC_PORT_VALID(port)) {
+ *portwatch_present = TRUE;
+ /* hold on to this till end of spawn */
+ portwatch_ports[i] = port;
+ } else {
+ ipc_port_release_send(port);
+ }
+
+ break;
+ default:
+ ret = EINVAL;
+ break;
}
- /* action failed, so release port resources */
- if (ret) {
+
+ if (ret) {
+ /* action failed, so release port resources */
ipc_port_release_send(port);
- return ret;
+ break;
}
}
- return ret;
+done:
+ if (0 != ret)
+ DTRACE_PROC1(spawn__port__failure, mach_port_name_t, act->new_port);
+ return (ret);
}
/*
* normally permitted to perform.
*/
static int
-exec_handle_file_actions(struct image_params *imgp)
+exec_handle_file_actions(struct image_params *imgp, short psa_flags)
{
int error = 0;
int action;
* a path argument, which is normally copied in from
* user space; because of this, we have to support an
* open from kernel space that passes an address space
- * context oof UIO_SYSSPACE, and casts the address
+ * context of UIO_SYSSPACE, and casts the address
* argument to a user_addr_t.
*/
- struct vnode_attr va;
- struct nameidata nd;
+ char *bufp = NULL;
+ struct vnode_attr *vap;
+ struct nameidata *ndp;
int mode = psfa->psfaa_openargs.psfao_mode;
struct dup2_args dup2a;
struct close_nocancel_args ca;
int origfd;
- VATTR_INIT(&va);
+ MALLOC(bufp, char *, sizeof(*vap) + sizeof(*ndp), M_TEMP, M_WAITOK | M_ZERO);
+ if (bufp == NULL) {
+ error = ENOMEM;
+ break;
+ }
+
+ vap = (struct vnode_attr *) bufp;
+ ndp = (struct nameidata *) (bufp + sizeof(*vap));
+
+ VATTR_INIT(vap);
/* Mask off all but regular access permissions */
mode = ((mode &~ p->p_fd->fd_cmask) & ALLPERMS) & ~S_ISTXT;
- VATTR_SET(&va, va_mode, mode & ACCESSPERMS);
+ VATTR_SET(vap, va_mode, mode & ACCESSPERMS);
- NDINIT(&nd, LOOKUP, FOLLOW | AUDITVNPATH1, UIO_SYSSPACE,
+ NDINIT(ndp, LOOKUP, OP_OPEN, FOLLOW | AUDITVNPATH1, UIO_SYSSPACE,
CAST_USER_ADDR_T(psfa->psfaa_openargs.psfao_path),
imgp->ip_vfs_context);
error = open1(imgp->ip_vfs_context,
- &nd,
+ ndp,
psfa->psfaa_openargs.psfao_oflag,
- &va,
+ vap,
+ fileproc_alloc_init, NULL,
ival);
+ FREE(bufp, M_TEMP);
+
/*
* If there's an error, or we get the right fd by
- * accident, then drop out here. This is easier that
- * rearchitecting all the open code to preallocate fd
+ * accident, then drop out here. This is easier than
+ * reworking all the open code to preallocate fd
* slots, and internally taking one as an argument.
*/
if (error || ival[0] == psfa->psfaa_filedes)
}
break;
+ case PSFA_INHERIT: {
+ struct fcntl_nocancel_args fcntla;
+
+ /*
+ * Check to see if the descriptor exists, and
+ * ensure it's -not- marked as close-on-exec.
+ *
+ * Attempting to "inherit" a guarded fd will
+ * result in a error.
+ */
+ fcntla.fd = psfa->psfaa_filedes;
+ fcntla.cmd = F_GETFD;
+ if ((error = fcntl_nocancel(p, &fcntla, ival)) != 0)
+ break;
+
+ if ((ival[0] & FD_CLOEXEC) == FD_CLOEXEC) {
+ fcntla.fd = psfa->psfaa_filedes;
+ fcntla.cmd = F_SETFD;
+ fcntla.arg = ival[0] & ~FD_CLOEXEC;
+ error = fcntl_nocancel(p, &fcntla, ival);
+ }
+
+ }
+ break;
+
default:
error = EINVAL;
break;
}
+
/* All file actions failures are considered fatal, per POSIX */
- if (error)
+
+ if (error) {
+ if (PSFA_OPEN == psfa->psfaa_type) {
+ DTRACE_PROC1(spawn__open__failure, uintptr_t,
+ psfa->psfaa_openargs.psfao_path);
+ } else {
+ DTRACE_PROC1(spawn__fd__failure, int, psfa->psfaa_filedes);
+ }
break;
+ }
}
- return (error);
-}
+ if (error != 0 || (psa_flags & POSIX_SPAWN_CLOEXEC_DEFAULT) == 0)
+ return (error);
+
+ /*
+ * If POSIX_SPAWN_CLOEXEC_DEFAULT is set, behave (during
+ * this spawn only) as if "close on exec" is the default
+ * disposition of all pre-existing file descriptors. In this case,
+ * the list of file descriptors mentioned in the file actions
+ * are the only ones that can be inherited, so mark them now.
+ *
+ * The actual closing part comes later, in fdexec().
+ */
+ proc_fdlock(p);
+ for (action = 0; action < px_sfap->psfa_act_count; action++) {
+ _psfa_action_t *psfa = &px_sfap->psfa_act_acts[action];
+ int fd = psfa->psfaa_filedes;
+
+ switch (psfa->psfaa_type) {
+ case PSFA_DUP2:
+ fd = psfa->psfaa_openargs.psfao_oflag;
+ /*FALLTHROUGH*/
+ case PSFA_OPEN:
+ case PSFA_INHERIT:
+ *fdflags(p, fd) |= UF_INHERIT;
+ break;
+ case PSFA_CLOSE:
+ break;
+ }
+ }
+ proc_fdunlock(p);
+
+ return (0);
+}
+#if CONFIG_MACF
/*
- * posix_spawn
- *
- * Parameters: uap->pid Pointer to pid return area
- * uap->fname File name to exec
- * uap->argp Argument list
- * uap->envp Environment list
- *
- * Returns: 0 Success
- * EINVAL Invalid argument
- * ENOTSUP Not supported
- * ENOEXEC Executable file format error
- * exec_activate_image:EINVAL Invalid argument
- * exec_activate_image:EACCES Permission denied
- * exec_activate_image:EINTR Interrupted function
- * exec_activate_image:ENOMEM Not enough space
- * exec_activate_image:EFAULT Bad address
- * exec_activate_image:ENAMETOOLONG Filename too long
- * exec_activate_image:ENOEXEC Executable file format error
- * exec_activate_image:ETXTBSY Text file busy [misuse of error code]
- * exec_activate_image:EBADEXEC The executable is corrupt/unknown
- * exec_activate_image:???
- * mac_execve_enter:???
- *
- * TODO: Expect to need __mac_posix_spawn() at some point...
- * Handle posix_spawnattr_t
- * Handle posix_spawn_file_actions_t
+ * exec_spawnattr_getmacpolicyinfo
*/
-int
-posix_spawn(proc_t ap, struct posix_spawn_args *uap, int32_t *retval)
+void *
+exec_spawnattr_getmacpolicyinfo(const void *macextensions, const char *policyname, size_t *lenp)
{
- proc_t p = ap; /* quiet bogus GCC vfork() warning */
- user_addr_t pid = uap->pid;
- int ival[2]; /* dummy retval for setpgid() */
- char *bufp = NULL;
- struct image_params *imgp;
- struct vnode_attr *vap;
- struct vnode_attr *origvap;
- struct uthread *uthread = 0; /* compiler complains if not set to 0*/
- int error, sig;
- char alt_p_comm[sizeof(p->p_comm)] = {0}; /* for PowerPC */
- int is_64 = IS_64BIT_PROCESS(p);
- struct vfs_context context;
- struct user__posix_spawn_args_desc px_args;
- struct _posix_spawnattr px_sa;
- _posix_spawn_file_actions_t px_sfap = NULL;
- _posix_spawn_port_actions_t px_spap = NULL;
- struct __kern_sigaction vec;
- boolean_t spawn_no_exec = FALSE;
+ const struct _posix_spawn_mac_policy_extensions *psmx = macextensions;
+ int i;
- /*
- * Allocate a big chunk for locals instead of using stack since these
- * structures a pretty big.
- */
- MALLOC(bufp, char *, (sizeof(*imgp) + sizeof(*vap) + sizeof(*origvap)), M_TEMP, M_WAITOK | M_ZERO);
- imgp = (struct image_params *) bufp;
- if (bufp == NULL) {
- error = ENOMEM;
- goto bad;
+ if (psmx == NULL)
+ return NULL;
+
+ for (i = 0; i < psmx->psmx_count; i++) {
+ const _ps_mac_policy_extension_t *extension = &psmx->psmx_extensions[i];
+ if (strncmp(extension->policyname, policyname, sizeof(extension->policyname)) == 0) {
+ if (lenp != NULL)
+ *lenp = extension->datalen;
+ return extension->datap;
+ }
}
- vap = (struct vnode_attr *) (bufp + sizeof(*imgp));
- origvap = (struct vnode_attr *) (bufp + sizeof(*imgp) + sizeof(*vap));
- /* Initialize the common data in the image_params structure */
- imgp->ip_user_fname = uap->path;
- imgp->ip_user_argv = uap->argv;
- imgp->ip_user_envv = uap->envp;
- imgp->ip_vattr = vap;
- imgp->ip_origvattr = origvap;
- imgp->ip_vfs_context = &context;
- imgp->ip_flags = (is_64 ? IMGPF_WAS_64BIT : IMGPF_NONE);
- imgp->ip_p_comm = alt_p_comm; /* for PowerPC */
- imgp->ip_seg = (is_64 ? UIO_USERSPACE64 : UIO_USERSPACE32);
+ if (lenp != NULL)
+ *lenp = 0;
+ return NULL;
+}
- if (uap->adesc != USER_ADDR_NULL) {
- if(is_64) {
- error = copyin(uap->adesc, &px_args, sizeof(px_args));
- } else {
+static int
+spawn_copyin_macpolicyinfo(const struct user__posix_spawn_args_desc *px_args, _posix_spawn_mac_policy_extensions_t *psmxp)
+{
+ _posix_spawn_mac_policy_extensions_t psmx = NULL;
+ int error = 0;
+ int copycnt = 0;
+ int i = 0;
+
+ *psmxp = NULL;
+
+ if (px_args->mac_extensions_size < PS_MAC_EXTENSIONS_SIZE(1) ||
+ px_args->mac_extensions_size > PAGE_SIZE) {
+ error = EINVAL;
+ goto bad;
+ }
+
+ MALLOC(psmx, _posix_spawn_mac_policy_extensions_t, px_args->mac_extensions_size, M_TEMP, M_WAITOK);
+ if ((error = copyin(px_args->mac_extensions, psmx, px_args->mac_extensions_size)) != 0)
+ goto bad;
+
+ size_t extsize = PS_MAC_EXTENSIONS_SIZE(psmx->psmx_count);
+ if (extsize == 0 || extsize > px_args->mac_extensions_size) {
+ error = EINVAL;
+ goto bad;
+ }
+
+ for (i = 0; i < psmx->psmx_count; i++) {
+ _ps_mac_policy_extension_t *extension = &psmx->psmx_extensions[i];
+ if (extension->datalen == 0 || extension->datalen > PAGE_SIZE) {
+ error = EINVAL;
+ goto bad;
+ }
+ }
+
+ for (copycnt = 0; copycnt < psmx->psmx_count; copycnt++) {
+ _ps_mac_policy_extension_t *extension = &psmx->psmx_extensions[copycnt];
+ void *data = NULL;
+
+ MALLOC(data, void *, extension->datalen, M_TEMP, M_WAITOK);
+ if ((error = copyin(extension->data, data, extension->datalen)) != 0) {
+ FREE(data, M_TEMP);
+ goto bad;
+ }
+ extension->datap = data;
+ }
+
+ *psmxp = psmx;
+ return 0;
+
+bad:
+ if (psmx != NULL) {
+ for (i = 0; i < copycnt; i++)
+ FREE(psmx->psmx_extensions[i].datap, M_TEMP);
+ FREE(psmx, M_TEMP);
+ }
+ return error;
+}
+
+static void
+spawn_free_macpolicyinfo(_posix_spawn_mac_policy_extensions_t psmx)
+{
+ int i;
+
+ if (psmx == NULL)
+ return;
+ for (i = 0; i < psmx->psmx_count; i++)
+ FREE(psmx->psmx_extensions[i].datap, M_TEMP);
+ FREE(psmx, M_TEMP);
+}
+#endif /* CONFIG_MACF */
+
+#if CONFIG_COALITIONS
+static inline void spawn_coalitions_release_all(coalition_t coal[COALITION_NUM_TYPES])
+{
+ for (int c = 0; c < COALITION_NUM_TYPES; c++) {
+ if (coal[c]) {
+ coalition_remove_active(coal[c]);
+ coalition_release(coal[c]);
+ }
+ }
+}
+#endif
+
+#if CONFIG_PERSONAS
+static int spawn_validate_persona(struct _posix_spawn_persona_info *px_persona)
+{
+ int error = 0;
+ struct persona *persona = NULL;
+ int verify = px_persona->pspi_flags & POSIX_SPAWN_PERSONA_FLAGS_VERIFY;
+
+ /*
+ * TODO: rdar://problem/19981151
+ * Add entitlement check!
+ */
+ if (!kauth_cred_issuser(kauth_cred_get()))
+ return EPERM;
+
+ persona = persona_lookup(px_persona->pspi_id);
+ if (!persona) {
+ error = ESRCH;
+ goto out;
+ }
+
+ if (verify) {
+ if (px_persona->pspi_flags & POSIX_SPAWN_PERSONA_UID) {
+ if (px_persona->pspi_uid != persona_get_uid(persona)) {
+ error = EINVAL;
+ goto out;
+ }
+ }
+ if (px_persona->pspi_flags & POSIX_SPAWN_PERSONA_GID) {
+ if (px_persona->pspi_gid != persona_get_gid(persona)) {
+ error = EINVAL;
+ goto out;
+ }
+ }
+ if (px_persona->pspi_flags & POSIX_SPAWN_PERSONA_GROUPS) {
+ unsigned ngroups = 0;
+ gid_t groups[NGROUPS_MAX];
+
+ if (persona_get_groups(persona, &ngroups, groups,
+ px_persona->pspi_ngroups) != 0) {
+ error = EINVAL;
+ goto out;
+ }
+ if (ngroups != px_persona->pspi_ngroups) {
+ error = EINVAL;
+ goto out;
+ }
+ while (ngroups--) {
+ if (px_persona->pspi_groups[ngroups] != groups[ngroups]) {
+ error = EINVAL;
+ goto out;
+ }
+ }
+ if (px_persona->pspi_gmuid != persona_get_gmuid(persona)) {
+ error = EINVAL;
+ goto out;
+ }
+ }
+ }
+
+out:
+ if (persona)
+ persona_put(persona);
+
+ return error;
+}
+
+static int spawn_persona_adopt(proc_t p, struct _posix_spawn_persona_info *px_persona)
+{
+ int ret;
+ kauth_cred_t cred;
+ struct persona *persona = NULL;
+ int override = !!(px_persona->pspi_flags & POSIX_SPAWN_PERSONA_FLAGS_OVERRIDE);
+
+ if (!override)
+ return persona_proc_adopt_id(p, px_persona->pspi_id, NULL);
+
+ /*
+ * we want to spawn into the given persona, but we want to override
+ * the kauth with a different UID/GID combo
+ */
+ persona = persona_lookup(px_persona->pspi_id);
+ if (!persona)
+ return ESRCH;
+
+ cred = persona_get_cred(persona);
+ if (!cred) {
+ ret = EINVAL;
+ goto out;
+ }
+
+ if (px_persona->pspi_flags & POSIX_SPAWN_PERSONA_UID) {
+ cred = kauth_cred_setresuid(cred,
+ px_persona->pspi_uid,
+ px_persona->pspi_uid,
+ px_persona->pspi_uid,
+ KAUTH_UID_NONE);
+ }
+
+ if (px_persona->pspi_flags & POSIX_SPAWN_PERSONA_GID) {
+ cred = kauth_cred_setresgid(cred,
+ px_persona->pspi_gid,
+ px_persona->pspi_gid,
+ px_persona->pspi_gid);
+ }
+
+ if (px_persona->pspi_flags & POSIX_SPAWN_PERSONA_GROUPS) {
+ cred = kauth_cred_setgroups(cred,
+ px_persona->pspi_groups,
+ px_persona->pspi_ngroups,
+ px_persona->pspi_gmuid);
+ }
+
+ ret = persona_proc_adopt(p, persona, cred);
+
+out:
+ persona_put(persona);
+ return ret;
+}
+#endif
+
+/*
+ * posix_spawn
+ *
+ * Parameters: uap->pid Pointer to pid return area
+ * uap->fname File name to exec
+ * uap->argp Argument list
+ * uap->envp Environment list
+ *
+ * Returns: 0 Success
+ * EINVAL Invalid argument
+ * ENOTSUP Not supported
+ * ENOEXEC Executable file format error
+ * exec_activate_image:EINVAL Invalid argument
+ * exec_activate_image:EACCES Permission denied
+ * exec_activate_image:EINTR Interrupted function
+ * exec_activate_image:ENOMEM Not enough space
+ * exec_activate_image:EFAULT Bad address
+ * exec_activate_image:ENAMETOOLONG Filename too long
+ * exec_activate_image:ENOEXEC Executable file format error
+ * exec_activate_image:ETXTBSY Text file busy [misuse of error code]
+ * exec_activate_image:EBADEXEC The executable is corrupt/unknown
+ * exec_activate_image:???
+ * mac_execve_enter:???
+ *
+ * TODO: Expect to need __mac_posix_spawn() at some point...
+ * Handle posix_spawnattr_t
+ * Handle posix_spawn_file_actions_t
+ */
+int
+posix_spawn(proc_t ap, struct posix_spawn_args *uap, int32_t *retval)
+{
+ proc_t p = ap; /* quiet bogus GCC vfork() warning */
+ user_addr_t pid = uap->pid;
+ int ival[2]; /* dummy retval for setpgid() */
+ char *bufp = NULL;
+ struct image_params *imgp;
+ struct vnode_attr *vap;
+ struct vnode_attr *origvap;
+ struct uthread *uthread = 0; /* compiler complains if not set to 0*/
+ int error, sig;
+ int is_64 = IS_64BIT_PROCESS(p);
+ struct vfs_context context;
+ struct user__posix_spawn_args_desc px_args;
+ struct _posix_spawnattr px_sa;
+ _posix_spawn_file_actions_t px_sfap = NULL;
+ _posix_spawn_port_actions_t px_spap = NULL;
+ struct __kern_sigaction vec;
+ boolean_t spawn_no_exec = FALSE;
+ boolean_t proc_transit_set = TRUE;
+ boolean_t exec_done = FALSE;
+ int portwatch_count = 0;
+ ipc_port_t * portwatch_ports = NULL;
+ vm_size_t px_sa_offset = offsetof(struct _posix_spawnattr, psa_ports);
+ task_t new_task = NULL;
+ boolean_t should_release_proc_ref = FALSE;
+ void *inherit = NULL;
+#if CONFIG_PERSONAS
+ struct _posix_spawn_persona_info *px_persona = NULL;
+#endif
+
+ /*
+ * Allocate a big chunk for locals instead of using stack since these
+ * structures are pretty big.
+ */
+ MALLOC(bufp, char *, (sizeof(*imgp) + sizeof(*vap) + sizeof(*origvap)), M_TEMP, M_WAITOK | M_ZERO);
+ imgp = (struct image_params *) bufp;
+ if (bufp == NULL) {
+ error = ENOMEM;
+ goto bad;
+ }
+ vap = (struct vnode_attr *) (bufp + sizeof(*imgp));
+ origvap = (struct vnode_attr *) (bufp + sizeof(*imgp) + sizeof(*vap));
+
+ /* Initialize the common data in the image_params structure */
+ imgp->ip_user_fname = uap->path;
+ imgp->ip_user_argv = uap->argv;
+ imgp->ip_user_envv = uap->envp;
+ imgp->ip_vattr = vap;
+ imgp->ip_origvattr = origvap;
+ imgp->ip_vfs_context = &context;
+ imgp->ip_flags = (is_64 ? IMGPF_WAS_64BIT : IMGPF_NONE);
+ imgp->ip_seg = (is_64 ? UIO_USERSPACE64 : UIO_USERSPACE32);
+ imgp->ip_mac_return = 0;
+ imgp->ip_px_persona = NULL;
+ imgp->ip_cs_error = OS_REASON_NULL;
+
+ if (uap->adesc != USER_ADDR_NULL) {
+ if(is_64) {
+ error = copyin(uap->adesc, &px_args, sizeof(px_args));
+ } else {
struct user32__posix_spawn_args_desc px_args32;
error = copyin(uap->adesc, &px_args32, sizeof(px_args32));
px_args.file_actions = CAST_USER_ADDR_T(px_args32.file_actions);
px_args.port_actions_size = px_args32.port_actions_size;
px_args.port_actions = CAST_USER_ADDR_T(px_args32.port_actions);
+ px_args.mac_extensions_size = px_args32.mac_extensions_size;
+ px_args.mac_extensions = CAST_USER_ADDR_T(px_args32.mac_extensions);
+ px_args.coal_info_size = px_args32.coal_info_size;
+ px_args.coal_info = CAST_USER_ADDR_T(px_args32.coal_info);
+ px_args.persona_info_size = px_args32.persona_info_size;
+ px_args.persona_info = CAST_USER_ADDR_T(px_args32.persona_info);
}
if (error)
goto bad;
if (px_args.attr_size != 0) {
/*
- * This could lose some of the port_actions pointer,
- * but we already have it from px_args.
+ * We are not copying the port_actions pointer,
+ * because we already have it from px_args.
+ * This is a bit fragile: <rdar://problem/16427422>
*/
- if ((error = copyin(px_args.attrp, &px_sa, sizeof(px_sa))) != 0)
+
+ if ((error = copyin(px_args.attrp, &px_sa, px_sa_offset) != 0))
goto bad;
+
+ bzero( (void *)( (unsigned long) &px_sa + px_sa_offset), sizeof(px_sa) - px_sa_offset );
imgp->ip_px_sa = &px_sa;
}
if (px_args.file_actions_size != 0) {
/* Limit file_actions to allowed number of open files */
int maxfa = (p->p_limit ? p->p_rlimit[RLIMIT_NOFILE].rlim_cur : NOFILE);
+ size_t maxfa_size = PSF_ACTIONS_SIZE(maxfa);
if (px_args.file_actions_size < PSF_ACTIONS_SIZE(1) ||
- px_args.file_actions_size > PSF_ACTIONS_SIZE(maxfa)) {
+ maxfa_size == 0 || px_args.file_actions_size > maxfa_size) {
error = EINVAL;
goto bad;
}
if ((error = copyin(px_args.file_actions, px_sfap,
px_args.file_actions_size)) != 0)
goto bad;
+
+ /* Verify that the action count matches the struct size */
+ size_t psfsize = PSF_ACTIONS_SIZE(px_sfap->psfa_act_count);
+ if (psfsize == 0 || psfsize != px_args.file_actions_size) {
+ error = EINVAL;
+ goto bad;
+ }
}
if (px_args.port_actions_size != 0) {
/* Limit port_actions to one page of data */
if ((error = copyin(px_args.port_actions, px_spap,
px_args.port_actions_size)) != 0)
goto bad;
+
+ /* Verify that the action count matches the struct size */
+ size_t pasize = PS_PORT_ACTIONS_SIZE(px_spap->pspa_count);
+ if (pasize == 0 || pasize != px_args.port_actions_size) {
+ error = EINVAL;
+ goto bad;
+ }
+ }
+#if CONFIG_PERSONAS
+ /* copy in the persona info */
+ if (px_args.persona_info_size != 0 && px_args.persona_info != 0) {
+ /* for now, we need the exact same struct in user space */
+ if (px_args.persona_info_size != sizeof(*px_persona)) {
+ error = ERANGE;
+ goto bad;
+ }
+
+ MALLOC(px_persona, struct _posix_spawn_persona_info *, px_args.persona_info_size, M_TEMP, M_WAITOK|M_ZERO);
+ if (px_persona == NULL) {
+ error = ENOMEM;
+ goto bad;
+ }
+ imgp->ip_px_persona = px_persona;
+
+ if ((error = copyin(px_args.persona_info, px_persona,
+ px_args.persona_info_size)) != 0)
+ goto bad;
+ if ((error = spawn_validate_persona(px_persona)) != 0)
+ goto bad;
}
+#endif
+#if CONFIG_MACF
+ if (px_args.mac_extensions_size != 0) {
+ if ((error = spawn_copyin_macpolicyinfo(&px_args, (_posix_spawn_mac_policy_extensions_t *)&imgp->ip_px_smpx)) != 0)
+ goto bad;
+ }
+#endif /* CONFIG_MACF */
}
/* set uthread to parent */
}
/*
- * If we don't have the extention flag that turns "posix_spawn()"
+ * If we don't have the extension flag that turns "posix_spawn()"
* into "execve() with options", then we will be creating a new
* process which does not inherit memory from the parent process,
* which is one of the most expensive things about using fork()
* and execve().
*/
if (imgp->ip_px_sa == NULL || !(px_sa.psa_flags & POSIX_SPAWN_SETEXEC)){
- if ((error = fork1(p, &imgp->ip_new_thread, PROC_CREATE_SPAWN)) != 0)
+
+ /* Set the new task's coalition, if it is requested. */
+ coalition_t coal[COALITION_NUM_TYPES] = { COALITION_NULL };
+#if CONFIG_COALITIONS
+ int i, ncoals;
+ kern_return_t kr = KERN_SUCCESS;
+ struct _posix_spawn_coalition_info coal_info;
+ int coal_role[COALITION_NUM_TYPES];
+
+ if (imgp->ip_px_sa == NULL || !px_args.coal_info)
+ goto do_fork1;
+
+ memset(&coal_info, 0, sizeof(coal_info));
+
+ if (px_args.coal_info_size > sizeof(coal_info))
+ px_args.coal_info_size = sizeof(coal_info);
+ error = copyin(px_args.coal_info,
+ &coal_info, px_args.coal_info_size);
+ if (error != 0)
goto bad;
+
+ ncoals = 0;
+ for (i = 0; i < COALITION_NUM_TYPES; i++) {
+ uint64_t cid = coal_info.psci_info[i].psci_id;
+ if (cid != 0) {
+ /*
+ * don't allow tasks which are not in a
+ * privileged coalition to spawn processes
+ * into coalitions other than their own
+ */
+ if (!task_is_in_privileged_coalition(p->task, i)) {
+ coal_dbg("ERROR: %d not in privilegd "
+ "coalition of type %d",
+ p->p_pid, i);
+ spawn_coalitions_release_all(coal);
+ error = EPERM;
+ goto bad;
+ }
+
+ coal_dbg("searching for coalition id:%llu", cid);
+ /*
+ * take a reference and activation on the
+ * coalition to guard against free-while-spawn
+ * races
+ */
+ coal[i] = coalition_find_and_activate_by_id(cid);
+ if (coal[i] == COALITION_NULL) {
+ coal_dbg("could not find coalition id:%llu "
+ "(perhaps it has been terminated or reaped)", cid);
+ /*
+ * release any other coalition's we
+ * may have a reference to
+ */
+ spawn_coalitions_release_all(coal);
+ error = ESRCH;
+ goto bad;
+ }
+ if (coalition_type(coal[i]) != i) {
+ coal_dbg("coalition with id:%lld is not of type:%d"
+ " (it's type:%d)", cid, i, coalition_type(coal[i]));
+ error = ESRCH;
+ goto bad;
+ }
+ coal_role[i] = coal_info.psci_info[i].psci_role;
+ ncoals++;
+ }
+ }
+ if (ncoals < COALITION_NUM_TYPES) {
+ /*
+ * If the user is attempting to spawn into a subset of
+ * the known coalition types, then make sure they have
+ * _at_least_ specified a resource coalition. If not,
+ * the following fork1() call will implicitly force an
+ * inheritance from 'p' and won't actually spawn the
+ * new task into the coalitions the user specified.
+ * (also the call to coalitions_set_roles will panic)
+ */
+ if (coal[COALITION_TYPE_RESOURCE] == COALITION_NULL) {
+ spawn_coalitions_release_all(coal);
+ error = EINVAL;
+ goto bad;
+ }
+ }
+do_fork1:
+#endif /* CONFIG_COALITIONS */
+
+ /*
+ * note that this will implicitly inherit the
+ * caller's persona (if it exists)
+ */
+ error = fork1(p, &imgp->ip_new_thread, PROC_CREATE_SPAWN, coal);
+ /* returns a thread and task reference */
+
+ if (error == 0) {
+ new_task = get_threadtask(imgp->ip_new_thread);
+ }
+#if CONFIG_COALITIONS
+ /* set the roles of this task within each given coalition */
+ if (error == 0) {
+ kr = coalitions_set_roles(coal, new_task, coal_role);
+ if (kr != KERN_SUCCESS)
+ error = EINVAL;
+ if (kdebug_debugid_enabled(MACHDBG_CODE(DBG_MACH_COALITION,
+ MACH_COALITION_ADOPT))) {
+ for (i = 0; i < COALITION_NUM_TYPES; i++) {
+ if (coal[i] != COALITION_NULL) {
+ /*
+ * On 32-bit targets, uniqueid
+ * will get truncated to 32 bits
+ */
+ KDBG_RELEASE(MACHDBG_CODE(
+ DBG_MACH_COALITION,
+ MACH_COALITION_ADOPT),
+ coalition_id(coal[i]),
+ get_task_uniqueid(new_task));
+ }
+ }
+ }
+ }
+
+ /* drop our references and activations - fork1() now holds them */
+ spawn_coalitions_release_all(coal);
+#endif /* CONFIG_COALITIONS */
+ if (error != 0) {
+ goto bad;
+ }
imgp->ip_flags |= IMGPF_SPAWN; /* spawn w/o exec */
spawn_no_exec = TRUE; /* used in later tests */
+
+#if CONFIG_PERSONAS
+ /*
+ * If the parent isn't in a persona (launchd), and
+ * hasn't specified a new persona for the process,
+ * then we'll put the process into the system persona
+ *
+ * TODO: this will have to be re-worked because as of
+ * now, without any launchd adoption, the resulting
+ * xpcproxy process will not have sufficient
+ * privileges to setuid/gid.
+ */
+#if 0
+ if (!proc_has_persona(p) && imgp->ip_px_persona == NULL) {
+ MALLOC(px_persona, struct _posix_spawn_persona_info *,
+ sizeof(*px_persona), M_TEMP, M_WAITOK|M_ZERO);
+ if (px_persona == NULL) {
+ error = ENOMEM;
+ goto bad;
+ }
+ px_persona->pspi_id = persona_get_id(g_system_persona);
+ imgp->ip_px_persona = px_persona;
+ }
+#endif /* 0 */
+#endif /* CONFIG_PERSONAS */
+ } else {
+ /*
+ * For execve case, create a new task and thread
+ * which points to current_proc. The current_proc will point
+ * to the new task after image activation and proc ref drain.
+ *
+ * proc (current_proc) <----- old_task (current_task)
+ * ^ | ^
+ * | | |
+ * | ----------------------------------
+ * |
+ * --------- new_task (task marked as TF_EXEC_COPY)
+ *
+ * After image activation, the proc will point to the new task
+ * and would look like following.
+ *
+ * proc (current_proc) <----- old_task (current_task, marked as TPF_DID_EXEC)
+ * ^ |
+ * | |
+ * | ----------> new_task
+ * | |
+ * -----------------
+ *
+ * During exec any transition from new_task -> proc is fine, but don't allow
+ * transition from proc->task, since it will modify old_task.
+ */
+ imgp->ip_new_thread = fork_create_child(current_task(),
+ NULL, p, FALSE, p->p_flag & P_LP64, TRUE);
+ /* task and thread ref returned by fork_create_child */
+ if (imgp->ip_new_thread == NULL) {
+ error = ENOMEM;
+ goto bad;
+ }
+
+ new_task = get_threadtask(imgp->ip_new_thread);
+ imgp->ip_flags |= IMGPF_EXEC;
}
- if (spawn_no_exec)
+ if (spawn_no_exec) {
p = (proc_t)get_bsdthreadtask_info(imgp->ip_new_thread);
+
+ /*
+ * We had to wait until this point before firing the
+ * proc:::create probe, otherwise p would not point to the
+ * child process.
+ */
+ DTRACE_PROC1(create, proc_t, p);
+ }
+ assert(p != NULL);
-
- /* By default, the thread everyone plays with is the parent */
- context.vc_thread = current_thread();
+ context.vc_thread = imgp->ip_new_thread;
context.vc_ucred = p->p_ucred; /* XXX must NOT be kauth_cred_get() */
- /*
- * However, if we're not in the setexec case, redirect the context
- * to the newly created process instead
- */
- if (spawn_no_exec)
- context.vc_thread = imgp->ip_new_thread;
-
-
/*
* Post fdcopy(), pre exec_handle_sugid() - this is where we want
* to handle the file_actions. Since vfork() also ends up setting
* us into the parent process group, and saved off the signal flags,
* this is also where we want to handle the spawn flags.
*/
+
/* Has spawn file actions? */
- if (imgp->ip_px_sfa != NULL &&
- (error = exec_handle_file_actions(imgp)) != 0) {
- goto bad;
+ if (imgp->ip_px_sfa != NULL) {
+ /*
+ * The POSIX_SPAWN_CLOEXEC_DEFAULT flag
+ * is handled in exec_handle_file_actions().
+ */
+ if ((error = exec_handle_file_actions(imgp,
+ imgp->ip_px_sa != NULL ? px_sa.psa_flags : 0)) != 0)
+ goto bad;
}
/* Has spawn port actions? */
- if (imgp->ip_px_spa != NULL) {
- /*
- * The check for the POSIX_SPAWN_SETEXEC flag is done in
- * exec_handle_port_actions().
+ if (imgp->ip_px_spa != NULL) {
+ boolean_t is_adaptive = FALSE;
+ boolean_t portwatch_present = FALSE;
+
+ /* Will this process become adaptive? The apptype isn't ready yet, so we can't look there. */
+ if (imgp->ip_px_sa != NULL && px_sa.psa_apptype == POSIX_SPAWN_PROC_TYPE_DAEMON_ADAPTIVE)
+ is_adaptive = TRUE;
+
+ /*
+ * portwatch only:
+ * Allocate a place to store the ports we want to bind to the new task
+ * We can't bind them until after the apptype is set.
*/
- if((error = exec_handle_port_actions(imgp, px_sa.psa_flags)) != 0)
+ if (px_spap->pspa_count != 0 && is_adaptive) {
+ portwatch_count = px_spap->pspa_count;
+ MALLOC(portwatch_ports, ipc_port_t *, (sizeof(ipc_port_t) * portwatch_count), M_TEMP, M_WAITOK | M_ZERO);
+ } else {
+ portwatch_ports = NULL;
+ }
+
+ if ((error = exec_handle_port_actions(imgp, &portwatch_present, portwatch_ports)) != 0)
goto bad;
+
+ if (portwatch_present == FALSE && portwatch_ports != NULL) {
+ FREE(portwatch_ports, M_TEMP);
+ portwatch_ports = NULL;
+ portwatch_count = 0;
+ }
}
/* Has spawn attr? */
* image will take precedence over the spawn attributes
* (re)setting them.
*
- * The use of p_ucred is safe, since we are acting on the
- * new process, and it has no threads other than the one
- * we are creating for it.
+ * Modifications to p_ucred must be guarded using the
+ * proc's ucred lock. This prevents others from accessing
+ * a garbage credential.
*/
- if (px_sa.psa_flags & POSIX_SPAWN_RESETIDS) {
- kauth_cred_t my_cred = p->p_ucred;
- kauth_cred_t my_new_cred = kauth_cred_setuidgid(my_cred, my_cred->cr_ruid, my_cred->cr_rgid);
- if (my_new_cred != my_cred)
- p->p_ucred = my_new_cred;
+ while (px_sa.psa_flags & POSIX_SPAWN_RESETIDS) {
+ kauth_cred_t my_cred = kauth_cred_proc_ref(p);
+ kauth_cred_t my_new_cred = kauth_cred_setuidgid(my_cred, kauth_cred_getruid(my_cred), kauth_cred_getrgid(my_cred));
+
+ if (my_cred == my_new_cred) {
+ kauth_cred_unref(&my_cred);
+ break;
+ }
+
+ /* update cred on proc */
+ proc_ucred_lock(p);
+
+ if (p->p_ucred != my_cred) {
+ proc_ucred_unlock(p);
+ kauth_cred_unref(&my_new_cred);
+ continue;
+ }
+
+ /* donate cred reference on my_new_cred to p->p_ucred */
+ p->p_ucred = my_new_cred;
+ PROC_UPDATE_CREDS_ONPROC(p);
+ proc_ucred_unlock(p);
+
+ /* drop additional reference that was taken on the previous cred */
+ kauth_cred_unref(&my_cred);
}
+
+#if CONFIG_PERSONAS
+ if (spawn_no_exec && imgp->ip_px_persona != NULL) {
+ /*
+ * If we were asked to spawn a process into a new persona,
+ * do the credential switch now (which may override the UID/GID
+ * inherit done just above). It's important to do this switch
+ * before image activation both for reasons stated above, and
+ * to ensure that the new persona has access to the image/file
+ * being executed.
+ */
+ error = spawn_persona_adopt(p, imgp->ip_px_persona);
+ if (error != 0)
+ goto bad;
+ }
+#endif /* CONFIG_PERSONAS */
+#if !SECURE_KERNEL
+ /*
+ * Disable ASLR for the spawned process.
+ *
+ * But only do so if we are not embedded + RELEASE.
+ * While embedded allows for a boot-arg (-disable_aslr)
+ * to deal with this (which itself is only honored on
+ * DEVELOPMENT or DEBUG builds of xnu), it is often
+ * useful or necessary to disable ASLR on a per-process
+ * basis for unit testing and debugging.
+ */
+ if (px_sa.psa_flags & _POSIX_SPAWN_DISABLE_ASLR)
+ OSBitOrAtomic(P_DISABLE_ASLR, &p->p_flag);
+#endif /* !SECURE_KERNEL */
+
+ /* Randomize high bits of ASLR slide */
+ if (px_sa.psa_flags & _POSIX_SPAWN_HIGH_BITS_ASLR)
+ imgp->ip_flags |= IMGPF_HIGH_BITS_ASLR;
+
+ /*
+ * Forcibly disallow execution from data pages for the spawned process
+ * even if it would otherwise be permitted by the architecture default.
+ */
+ if (px_sa.psa_flags & _POSIX_SPAWN_ALLOW_DATA_EXEC)
+ imgp->ip_flags |= IMGPF_ALLOW_DATA_EXEC;
}
+ /*
+ * Disable ASLR during image activation. This occurs either if the
+ * _POSIX_SPAWN_DISABLE_ASLR attribute was found above or if
+ * P_DISABLE_ASLR was inherited from the parent process.
+ */
+ if (p->p_flag & P_DISABLE_ASLR)
+ imgp->ip_flags |= IMGPF_DISABLE_ASLR;
+
/*
* Clear transition flag so we won't hang if exec_activate_image() causes
* an automount (and launchd does a proc sysctl to service it).
*/
if (spawn_no_exec) {
proc_transend(p, 0);
+ proc_transit_set = 0;
}
#if MAC_SPAWN /* XXX */
* Activate the image
*/
error = exec_activate_image(imgp);
+
+ if (error == 0 && !spawn_no_exec) {
+ p = proc_exec_switch_task(p, current_task(), new_task, imgp->ip_new_thread);
+ /* proc ref returned */
+ should_release_proc_ref = TRUE;
+ }
- /* Image not claimed by any activator? */
- if (error == -1)
+ if (error == 0) {
+ /* process completed the exec */
+ exec_done = TRUE;
+ } else if (error == -1) {
+ /* Image not claimed by any activator? */
error = ENOEXEC;
+ }
/*
* If we have a spawn attr, and it contains signal related flags,
* until after the image is activated.
*/
if (!error && imgp->ip_px_sa != NULL) {
- thread_t child_thread = current_thread();
- uthread_t child_uthread = uthread;
-
- /*
- * If we created a new child thread, then the thread and
- * uthread are different than the current ones; otherwise,
- * we leave them, since we are in the exec case instead.
- */
- if (spawn_no_exec) {
- child_thread = imgp->ip_new_thread;
- child_uthread = get_bsdthread_info(child_thread);
- }
+ thread_t child_thread = imgp->ip_new_thread;
+ uthread_t child_uthread = get_bsdthread_info(child_thread);
/*
* Mask a list of signals, instead of them being unmasked, if
vec.sa_tramp = 0;
vec.sa_mask = 0;
vec.sa_flags = 0;
- for (sig = 0; sig < NSIG; sig++)
- if (px_sa.psa_sigdefault & (1 << sig)) {
- error = setsigvec(p, child_thread, sig + 1, &vec, spawn_no_exec);
+ for (sig = 1; sig < NSIG; sig++)
+ if (px_sa.psa_sigdefault & (1 << (sig-1))) {
+ error = setsigvec(p, child_thread, sig, &vec, spawn_no_exec);
}
}
+
+ /*
+ * Activate the CPU usage monitor, if requested. This is done via a task-wide, per-thread CPU
+ * usage limit, which will generate a resource exceeded exception if any one thread exceeds the
+ * limit.
+ *
+ * Userland gives us interval in seconds, and the kernel SPI expects nanoseconds.
+ */
+ if (px_sa.psa_cpumonitor_percent != 0) {
+ /*
+ * Always treat a CPU monitor activation coming from spawn as entitled. Requiring
+ * an entitlement to configure the monitor a certain way seems silly, since
+ * whomever is turning it on could just as easily choose not to do so.
+ */
+ error = proc_set_task_ruse_cpu(p->task,
+ TASK_POLICY_RESOURCE_ATTRIBUTE_NOTIFY_EXC,
+ px_sa.psa_cpumonitor_percent,
+ px_sa.psa_cpumonitor_interval * NSEC_PER_SEC,
+ 0, TRUE);
+ }
}
bad:
+
if (error == 0) {
+ /* reset delay idle sleep status if set */
+#if !CONFIG_EMBEDDED
+ if ((p->p_flag & P_DELAYIDLESLEEP) == P_DELAYIDLESLEEP)
+ OSBitAndAtomic(~((uint32_t)P_DELAYIDLESLEEP), &p->p_flag);
+#endif /* !CONFIG_EMBEDDED */
/* upon successful spawn, re/set the proc control state */
if (imgp->ip_px_sa != NULL) {
switch (px_sa.psa_pcontrol) {
};
}
exec_resettextvp(p, imgp);
+
+#if CONFIG_MEMORYSTATUS
+ /* Has jetsam attributes? */
+ if (imgp->ip_px_sa != NULL && (px_sa.psa_jetsam_flags & POSIX_SPAWN_JETSAM_SET)) {
+ /*
+ * With 2-level high-water-mark support, POSIX_SPAWN_JETSAM_HIWATER_BACKGROUND is no
+ * longer relevant, as background limits are described via the inactive limit slots.
+ *
+ * That said, however, if the POSIX_SPAWN_JETSAM_HIWATER_BACKGROUND is passed in,
+ * we attempt to mimic previous behavior by forcing the BG limit data into the
+ * inactive/non-fatal mode and force the active slots to hold system_wide/fatal mode.
+ */
+ if (px_sa.psa_jetsam_flags & POSIX_SPAWN_JETSAM_HIWATER_BACKGROUND) {
+ memorystatus_update(p, px_sa.psa_priority, 0,
+ (px_sa.psa_jetsam_flags & POSIX_SPAWN_JETSAM_USE_EFFECTIVE_PRIORITY),
+ TRUE,
+ -1, TRUE,
+ px_sa.psa_memlimit_inactive, FALSE);
+ } else {
+ memorystatus_update(p, px_sa.psa_priority, 0,
+ (px_sa.psa_jetsam_flags & POSIX_SPAWN_JETSAM_USE_EFFECTIVE_PRIORITY),
+ TRUE,
+ px_sa.psa_memlimit_active,
+ (px_sa.psa_jetsam_flags & POSIX_SPAWN_JETSAM_MEMLIMIT_ACTIVE_FATAL),
+ px_sa.psa_memlimit_inactive,
+ (px_sa.psa_jetsam_flags & POSIX_SPAWN_JETSAM_MEMLIMIT_INACTIVE_FATAL));
+ }
+
+ }
+#endif /* CONFIG_MEMORYSTATUS */
}
/*
* before check_for_signature(), which uses psignal.
*/
if (spawn_no_exec) {
+ if (proc_transit_set)
+ proc_transend(p, 0);
+
/*
* Drop the signal lock on the child which was taken on our
* behalf by forkproc()/cloneproc() to prevent signals being
/* flag the 'fork' has occurred */
proc_knote(p->p_pptr, NOTE_FORK | p->p_pid);
- /* then flag exec has occurred */
+ }
+
+ /* flag exec has occurred, notify only if it has not failed due to FP Key error */
+ if (!error && ((p->p_lflag & P_LTERM_DECRYPTFAIL) == 0))
proc_knote(p, NOTE_EXEC);
- DTRACE_PROC1(create, proc_t, p);
+
+
+ if (error == 0) {
+ /*
+ * We need to initialize the bank context behind the protection of
+ * the proc_trans lock to prevent a race with exit. We can't do this during
+ * exec_activate_image because task_bank_init checks entitlements that
+ * aren't loaded until subsequent calls (including exec_resettextvp).
+ */
+ error = proc_transstart(p, 0, 0);
+
+ if (error == 0) {
+ task_bank_init(get_threadtask(imgp->ip_new_thread));
+ proc_transend(p, 0);
+ }
+ }
+
+ /* Inherit task role from old task to new task for exec */
+ if (error == 0 && !spawn_no_exec) {
+ proc_inherit_task_role(get_threadtask(imgp->ip_new_thread), current_task());
+ }
+
+ /*
+ * Apply the spawnattr policy, apptype (which primes the task for importance donation),
+ * and bind any portwatch ports to the new task.
+ * This must be done after the exec so that the child's thread is ready,
+ * and after the in transit state has been released, because priority is
+ * dropped here so we need to be prepared for a potentially long preemption interval
+ *
+ * TODO: Consider splitting this up into separate phases
+ */
+ if (error == 0 && imgp->ip_px_sa != NULL) {
+ struct _posix_spawnattr *psa = (struct _posix_spawnattr *) imgp->ip_px_sa;
+
+ exec_handle_spawnattr_policy(p, psa->psa_apptype, psa->psa_qos_clamp, psa->psa_darwin_role,
+ portwatch_ports, portwatch_count);
+ }
+
+ /*
+ * Need to transfer pending watch port boosts to the new task while still making
+ * sure that the old task remains in the importance linkage. Create an importance
+ * linkage from old task to new task, then switch the task importance base
+ * of old task and new task. After the switch the port watch boost will be
+ * boosting the new task and new task will be donating importance to old task.
+ */
+ if (error == 0 && task_did_exec(current_task())) {
+ inherit = ipc_importance_exec_switch_task(current_task(), get_threadtask(imgp->ip_new_thread));
+ }
+
+ if (error == 0) {
+ /* Apply the main thread qos */
+ thread_t main_thread = imgp->ip_new_thread;
+ task_set_main_thread_qos(get_threadtask(imgp->ip_new_thread), main_thread);
+
+#if CONFIG_MACF
+ /*
+ * Processes with the MAP_JIT entitlement are permitted to have
+ * a jumbo-size map.
+ */
+ if (mac_proc_check_map_anon(p, 0, 0, 0, MAP_JIT, NULL) == 0) {
+ vm_map_set_jumbo(get_task_map(p->task));
+ }
+#endif /* CONFIG_MACF */
+ }
+
+ /*
+ * Release any ports we kept around for binding to the new task
+ * We need to release the rights even if the posix_spawn has failed.
+ */
+ if (portwatch_ports != NULL) {
+ for (int i = 0; i < portwatch_count; i++) {
+ ipc_port_t port = NULL;
+ if ((port = portwatch_ports[i]) != NULL) {
+ ipc_port_release_send(port);
+ }
+ }
+ FREE(portwatch_ports, M_TEMP);
+ portwatch_ports = NULL;
+ portwatch_count = 0;
}
/*
if (imgp != NULL && spawn_no_exec && (p->p_lflag & P_LTRACED)) {
psignal_vfork(p, p->task, imgp->ip_new_thread, SIGTRAP);
}
+
+ if (error == 0 && !spawn_no_exec)
+ KDBG(BSDDBG_CODE(DBG_BSD_PROC,BSD_PROC_EXEC),
+ p->p_pid);
}
if (imgp != NULL) {
if (imgp->ip_vp)
vnode_put(imgp->ip_vp);
+ if (imgp->ip_scriptvp)
+ vnode_put(imgp->ip_scriptvp);
if (imgp->ip_strings)
execargs_free(imgp);
if (imgp->ip_px_sfa != NULL)
FREE(imgp->ip_px_sfa, M_TEMP);
if (imgp->ip_px_spa != NULL)
FREE(imgp->ip_px_spa, M_TEMP);
-
+#if CONFIG_PERSONAS
+ if (imgp->ip_px_persona != NULL)
+ FREE(imgp->ip_px_persona, M_TEMP);
+#endif
#if CONFIG_MACF
+ if (imgp->ip_px_smpx != NULL)
+ spawn_free_macpolicyinfo(imgp->ip_px_smpx);
if (imgp->ip_execlabelp)
mac_cred_label_free(imgp->ip_execlabelp);
if (imgp->ip_scriptlabelp)
mac_vnode_label_free(imgp->ip_scriptlabelp);
+ if (imgp->ip_cs_error != OS_REASON_NULL) {
+ os_reason_free(imgp->ip_cs_error);
+ imgp->ip_cs_error = OS_REASON_NULL;
+ }
#endif
}
- if (error) {
- DTRACE_PROC1(exec__failure, int, error);
+#if CONFIG_DTRACE
+ if (spawn_no_exec) {
+ /*
+ * In the original DTrace reference implementation,
+ * posix_spawn() was a libc routine that just
+ * did vfork(2) then exec(2). Thus the proc::: probes
+ * are very fork/exec oriented. The details of this
+ * in-kernel implementation of posix_spawn() is different
+ * (while producing the same process-observable effects)
+ * particularly w.r.t. errors, and which thread/process
+ * is constructing what on behalf of whom.
+ */
+ if (error) {
+ DTRACE_PROC1(spawn__failure, int, error);
+ } else {
+ DTRACE_PROC(spawn__success);
+ /*
+ * Some DTrace scripts, e.g. newproc.d in
+ * /usr/bin, rely on the the 'exec-success'
+ * probe being fired in the child after the
+ * new process image has been constructed
+ * in order to determine the associated pid.
+ *
+ * So, even though the parent built the image
+ * here, for compatibility, mark the new thread
+ * so 'exec-success' fires on it as it leaves
+ * the kernel.
+ */
+ dtrace_thread_didexec(imgp->ip_new_thread);
+ }
} else {
- /*
- * <rdar://6609474> temporary - so dtrace call to current_proc()
- * returns the child process instead of the parent.
- */
- if (imgp != NULL && imgp->ip_flags & IMGPF_SPAWN) {
- p->p_lflag |= P_LINVFORK;
- p->p_vforkact = current_thread();
- uthread->uu_proc = p;
- uthread->uu_flag |= UT_VFORK;
- }
-
- DTRACE_PROC(exec__success);
-
- /*
- * <rdar://6609474> temporary - so dtrace call to current_proc()
- * returns the child process instead of the parent.
- */
- if (imgp != NULL && imgp->ip_flags & IMGPF_SPAWN) {
- p->p_lflag &= ~P_LINVFORK;
- p->p_vforkact = NULL;
- uthread->uu_proc = PROC_NULL;
- uthread->uu_flag &= ~UT_VFORK;
- }
+ if (error) {
+ DTRACE_PROC1(exec__failure, int, error);
+ } else {
+ dtrace_thread_didexec(imgp->ip_new_thread);
+ }
+ }
+
+ if ((dtrace_proc_waitfor_hook = dtrace_proc_waitfor_exec_ptr) != NULL) {
+ (*dtrace_proc_waitfor_hook)(p);
+ }
+#endif
+ /*
+ * clear bsd_info from old task if it did exec.
+ */
+ if (task_did_exec(current_task())) {
+ set_bsdtask_info(current_task(), NULL);
+ }
+
+ /* clear bsd_info from new task and terminate it if exec failed */
+ if (new_task != NULL && task_is_exec_copy(new_task)) {
+ set_bsdtask_info(new_task, NULL);
+ task_terminate_internal(new_task);
}
/* Return to both the parent and the child? */
p->exit_thread = current_thread();
proc_unlock(p);
exit1(p, 1, (int *)NULL);
- task_deallocate(get_threadtask(imgp->ip_new_thread));
- thread_deallocate(imgp->ip_new_thread);
} else {
/* someone is doing it for us; just skip it */
proc_unlock(p);
}
- } else {
-
- /*
- * Return" to the child
- *
- * Note: the image activator earlier dropped the
- * task/thread references to the newly spawned
- * process; this is OK, since we still have suspended
- * queue references on them, so we should be fine
- * with the delayed resume of the thread here.
- */
- (void)thread_resume(imgp->ip_new_thread);
}
}
+
+ /*
+ * Do not terminate the current task, if proc_exec_switch_task did not
+ * switch the tasks, terminating the current task without the switch would
+ * result in loosing the SIGKILL status.
+ */
+ if (task_did_exec(current_task())) {
+ /* Terminate the current task, since exec will start in new task */
+ task_terminate_internal(current_task());
+ }
+
+ /* Release the thread ref returned by fork_create_child/fork1 */
+ if (imgp != NULL && imgp->ip_new_thread) {
+ /* wake up the new thread */
+ task_clear_return_wait(get_threadtask(imgp->ip_new_thread));
+ thread_deallocate(imgp->ip_new_thread);
+ imgp->ip_new_thread = NULL;
+ }
+
+ /* Release the ref returned by fork_create_child/fork1 */
+ if (new_task) {
+ task_deallocate(new_task);
+ new_task = NULL;
+ }
+
+ if (should_release_proc_ref) {
+ proc_rele(p);
+ }
+
if (bufp != NULL) {
FREE(bufp, M_TEMP);
}
+
+ if (inherit != NULL) {
+ ipc_importance_release(inherit);
+ }
return(error);
}
+/*
+ * proc_exec_switch_task
+ *
+ * Parameters: p proc
+ * old_task task before exec
+ * new_task task after exec
+ * new_thread thread in new task
+ *
+ * Returns: proc.
+ *
+ * Note: The function will switch the task pointer of proc
+ * from old task to new task. The switch needs to happen
+ * after draining all proc refs and inside a proc translock.
+ * In the case of failure to switch the task, which might happen
+ * if the process received a SIGKILL or jetsam killed it, it will make
+ * sure that the new tasks terminates. User proc ref returned
+ * to caller.
+ *
+ * This function is called after point of no return, in the case
+ * failure to switch, it will terminate the new task and swallow the
+ * error and let the terminated process complete exec and die.
+ */
+proc_t
+proc_exec_switch_task(proc_t p, task_t old_task, task_t new_task, thread_t new_thread)
+{
+ int error = 0;
+ boolean_t task_active;
+ boolean_t proc_active;
+ boolean_t thread_active;
+ thread_t old_thread = current_thread();
+
+ /*
+ * Switch the task pointer of proc to new task.
+ * Before switching the task, wait for proc_refdrain.
+ * After the switch happens, the proc can disappear,
+ * take a ref before it disappears. Waiting for
+ * proc_refdrain in exec will block all other threads
+ * trying to take a proc ref, boost the current thread
+ * to avoid priority inversion.
+ */
+ thread_set_exec_promotion(old_thread);
+ p = proc_refdrain_with_refwait(p, TRUE);
+ /* extra proc ref returned to the caller */
+
+ assert(get_threadtask(new_thread) == new_task);
+ task_active = task_is_active(new_task);
+
+ /* Take the proc_translock to change the task ptr */
+ proc_lock(p);
+ proc_active = !(p->p_lflag & P_LEXIT);
+
+ /* Check if the current thread is not aborted due to SIGKILL */
+ thread_active = thread_is_active(old_thread);
+
+ /*
+ * Do not switch the task if the new task or proc is already terminated
+ * as a result of error in exec past point of no return
+ */
+ if (proc_active && task_active && thread_active) {
+ error = proc_transstart(p, 1, 0);
+ if (error == 0) {
+ uthread_t new_uthread = get_bsdthread_info(new_thread);
+ uthread_t old_uthread = get_bsdthread_info(current_thread());
+
+ /*
+ * bsd_info of old_task will get cleared in execve and posix_spawn
+ * after firing exec-success/error dtrace probe.
+ */
+ p->task = new_task;
+
+ /* Clear dispatchqueue and workloop ast offset */
+ p->p_dispatchqueue_offset = 0;
+ p->p_dispatchqueue_serialno_offset = 0;
+ p->p_return_to_kernel_offset = 0;
+
+ /* Copy the signal state, dtrace state and set bsd ast on new thread */
+ act_set_astbsd(new_thread);
+ new_uthread->uu_siglist = old_uthread->uu_siglist;
+ new_uthread->uu_sigwait = old_uthread->uu_sigwait;
+ new_uthread->uu_sigmask = old_uthread->uu_sigmask;
+ new_uthread->uu_oldmask = old_uthread->uu_oldmask;
+ new_uthread->uu_vforkmask = old_uthread->uu_vforkmask;
+ new_uthread->uu_exit_reason = old_uthread->uu_exit_reason;
+#if CONFIG_DTRACE
+ new_uthread->t_dtrace_sig = old_uthread->t_dtrace_sig;
+ new_uthread->t_dtrace_stop = old_uthread->t_dtrace_stop;
+ new_uthread->t_dtrace_resumepid = old_uthread->t_dtrace_resumepid;
+ assert(new_uthread->t_dtrace_scratch == NULL);
+ new_uthread->t_dtrace_scratch = old_uthread->t_dtrace_scratch;
+
+ old_uthread->t_dtrace_sig = 0;
+ old_uthread->t_dtrace_stop = 0;
+ old_uthread->t_dtrace_resumepid = 0;
+ old_uthread->t_dtrace_scratch = NULL;
+#endif
+ /* Copy the resource accounting info */
+ thread_copy_resource_info(new_thread, current_thread());
+
+ /* Clear the exit reason and signal state on old thread */
+ old_uthread->uu_exit_reason = NULL;
+ old_uthread->uu_siglist = 0;
+
+ /* Add the new uthread to proc uthlist and remove the old one */
+ TAILQ_INSERT_TAIL(&p->p_uthlist, new_uthread, uu_list);
+ TAILQ_REMOVE(&p->p_uthlist, old_uthread, uu_list);
+
+ task_set_did_exec_flag(old_task);
+ task_clear_exec_copy_flag(new_task);
+
+ task_copy_fields_for_exec(new_task, old_task);
+
+ proc_transend(p, 1);
+ }
+ }
+
+ proc_unlock(p);
+ proc_refwake(p);
+ thread_clear_exec_promotion(old_thread);
+
+ if (error != 0 || !task_active || !proc_active || !thread_active) {
+ task_terminate_internal(new_task);
+ }
+
+ return p;
+}
/*
* execve
struct __mac_execve_args muap;
int err;
+ memoryshot(VM_EXECVE, DBG_FUNC_NONE);
+
muap.fname = uap->fname;
muap.argp = uap->argp;
muap.envp = uap->envp;
struct vnode_attr *vap;
struct vnode_attr *origvap;
int error;
- char alt_p_comm[sizeof(p->p_comm)] = {0}; /* for PowerPC */
int is_64 = IS_64BIT_PROCESS(p);
struct vfs_context context;
+ struct uthread *uthread;
+ task_t new_task = NULL;
+ boolean_t should_release_proc_ref = FALSE;
+ boolean_t exec_done = FALSE;
+ boolean_t in_vfexec = FALSE;
+ void *inherit = NULL;
context.vc_thread = current_thread();
context.vc_ucred = kauth_cred_proc_ref(p); /* XXX must NOT be kauth_cred_get() */
imgp->ip_vattr = vap;
imgp->ip_origvattr = origvap;
imgp->ip_vfs_context = &context;
- imgp->ip_flags = (is_64 ? IMGPF_WAS_64BIT : IMGPF_NONE);
- imgp->ip_p_comm = alt_p_comm; /* for PowerPC */
+ imgp->ip_flags = (is_64 ? IMGPF_WAS_64BIT : IMGPF_NONE) | ((p->p_flag & P_DISABLE_ASLR) ? IMGPF_DISABLE_ASLR : IMGPF_NONE);
imgp->ip_seg = (is_64 ? UIO_USERSPACE64 : UIO_USERSPACE32);
+ imgp->ip_mac_return = 0;
+ imgp->ip_cs_error = OS_REASON_NULL;
#if CONFIG_MACF
if (uap->mac_p != USER_ADDR_NULL) {
}
}
#endif
+ uthread = get_bsdthread_info(current_thread());
+ if (uthread->uu_flag & UT_VFORK) {
+ imgp->ip_flags |= IMGPF_VFORK_EXEC;
+ in_vfexec = TRUE;
+ } else {
+ imgp->ip_flags |= IMGPF_EXEC;
+
+ /*
+ * For execve case, create a new task and thread
+ * which points to current_proc. The current_proc will point
+ * to the new task after image activation and proc ref drain.
+ *
+ * proc (current_proc) <----- old_task (current_task)
+ * ^ | ^
+ * | | |
+ * | ----------------------------------
+ * |
+ * --------- new_task (task marked as TF_EXEC_COPY)
+ *
+ * After image activation, the proc will point to the new task
+ * and would look like following.
+ *
+ * proc (current_proc) <----- old_task (current_task, marked as TPF_DID_EXEC)
+ * ^ |
+ * | |
+ * | ----------> new_task
+ * | |
+ * -----------------
+ *
+ * During exec any transition from new_task -> proc is fine, but don't allow
+ * transition from proc->task, since it will modify old_task.
+ */
+ imgp->ip_new_thread = fork_create_child(current_task(),
+ NULL, p, FALSE, p->p_flag & P_LP64, TRUE);
+ /* task and thread ref returned by fork_create_child */
+ if (imgp->ip_new_thread == NULL) {
+ error = ENOMEM;
+ goto exit_with_error;
+ }
+
+ new_task = get_threadtask(imgp->ip_new_thread);
+ context.vc_thread = imgp->ip_new_thread;
+ }
error = exec_activate_image(imgp);
+ /* thread and task ref returned for vfexec case */
+
+ if (imgp->ip_new_thread != NULL) {
+ /*
+ * task reference might be returned by exec_activate_image
+ * for vfexec.
+ */
+ new_task = get_threadtask(imgp->ip_new_thread);
+ }
+
+ if (!error && !in_vfexec) {
+ p = proc_exec_switch_task(p, current_task(), new_task, imgp->ip_new_thread);
+ /* proc ref returned */
+ should_release_proc_ref = TRUE;
+ }
kauth_cred_unref(&context.vc_ucred);
if (error == -1)
error = ENOEXEC;
- if (error == 0) {
+ if (!error) {
+ exec_done = TRUE;
+ assert(imgp->ip_new_thread != NULL);
+
exec_resettextvp(p, imgp);
error = check_for_signature(p, imgp);
- }
+ }
+
+ /* flag exec has occurred, notify only if it has not failed due to FP Key error */
+ if (exec_done && ((p->p_lflag & P_LTERM_DECRYPTFAIL) == 0))
+ proc_knote(p, NOTE_EXEC);
+
if (imgp->ip_vp != NULLVP)
vnode_put(imgp->ip_vp);
+ if (imgp->ip_scriptvp != NULLVP)
+ vnode_put(imgp->ip_scriptvp);
if (imgp->ip_strings)
execargs_free(imgp);
#if CONFIG_MACF
if (imgp->ip_scriptlabelp)
mac_vnode_label_free(imgp->ip_scriptlabelp);
#endif
+ if (imgp->ip_cs_error != OS_REASON_NULL) {
+ os_reason_free(imgp->ip_cs_error);
+ imgp->ip_cs_error = OS_REASON_NULL;
+ }
+
+ if (!error) {
+ /*
+ * We need to initialize the bank context behind the protection of
+ * the proc_trans lock to prevent a race with exit. We can't do this during
+ * exec_activate_image because task_bank_init checks entitlements that
+ * aren't loaded until subsequent calls (including exec_resettextvp).
+ */
+ error = proc_transstart(p, 0, 0);
+ }
+
if (!error) {
- struct uthread *uthread;
+ task_bank_init(get_threadtask(imgp->ip_new_thread));
+ proc_transend(p, 0);
/* Sever any extant thread affinity */
thread_affinity_exec(current_thread());
- DTRACE_PROC(exec__success);
- uthread = get_bsdthread_info(current_thread());
- if (uthread->uu_flag & UT_VFORK) {
+ /* Inherit task role from old task to new task for exec */
+ if (!in_vfexec) {
+ proc_inherit_task_role(get_threadtask(imgp->ip_new_thread), current_task());
+ }
+
+ thread_t main_thread = imgp->ip_new_thread;
+
+ task_set_main_thread_qos(new_task, main_thread);
+
+#if CONFIG_MACF
+ /*
+ * Processes with the MAP_JIT entitlement are permitted to have
+ * a jumbo-size map.
+ */
+ if (mac_proc_check_map_anon(p, 0, 0, 0, MAP_JIT, NULL) == 0) {
+ vm_map_set_jumbo(get_task_map(new_task));
+ }
+#endif /* CONFIG_MACF */
+
+
+#if CONFIG_DTRACE
+ dtrace_thread_didexec(imgp->ip_new_thread);
+
+ if ((dtrace_proc_waitfor_hook = dtrace_proc_waitfor_exec_ptr) != NULL)
+ (*dtrace_proc_waitfor_hook)(p);
+#endif
+
+ if (in_vfexec) {
vfork_return(p, retval, p->p_pid);
- (void)thread_resume(imgp->ip_new_thread);
}
} else {
DTRACE_PROC1(exec__failure, int, error);
}
exit_with_error:
+
+ /*
+ * clear bsd_info from old task if it did exec.
+ */
+ if (task_did_exec(current_task())) {
+ set_bsdtask_info(current_task(), NULL);
+ }
+
+ /* clear bsd_info from new task and terminate it if exec failed */
+ if (new_task != NULL && task_is_exec_copy(new_task)) {
+ set_bsdtask_info(new_task, NULL);
+ task_terminate_internal(new_task);
+ }
+
+ /*
+ * Need to transfer pending watch port boosts to the new task while still making
+ * sure that the old task remains in the importance linkage. Create an importance
+ * linkage from old task to new task, then switch the task importance base
+ * of old task and new task. After the switch the port watch boost will be
+ * boosting the new task and new task will be donating importance to old task.
+ */
+ if (error == 0 && task_did_exec(current_task())) {
+ inherit = ipc_importance_exec_switch_task(current_task(), get_threadtask(imgp->ip_new_thread));
+ }
+
+ if (imgp != NULL) {
+ /*
+ * Do not terminate the current task, if proc_exec_switch_task did not
+ * switch the tasks, terminating the current task without the switch would
+ * result in loosing the SIGKILL status.
+ */
+ if (task_did_exec(current_task())) {
+ /* Terminate the current task, since exec will start in new task */
+ task_terminate_internal(current_task());
+ }
+
+ /* Release the thread ref returned by fork_create_child */
+ if (imgp->ip_new_thread) {
+ /* wake up the new exec thread */
+ task_clear_return_wait(get_threadtask(imgp->ip_new_thread));
+ thread_deallocate(imgp->ip_new_thread);
+ imgp->ip_new_thread = NULL;
+ }
+ }
+
+ /* Release the ref returned by fork_create_child */
+ if (new_task) {
+ task_deallocate(new_task);
+ new_task = NULL;
+ }
+
+ if (should_release_proc_ref) {
+ proc_rele(p);
+ }
+
if (bufp != NULL) {
FREE(bufp, M_TEMP);
}
+
+ if (inherit != NULL) {
+ ipc_importance_release(inherit);
+ }
return(error);
}
* Returns: 0 Success
* EFAULT Bad 'ua'
*
- * Implicit returns:
- * *ptr_size Modified
*/
static int
copyoutptr(user_addr_t ua, user_addr_t ptr, int ptr_size)
* Note: The strings segment layout is backward, from the beginning
* of the top of the stack to consume the minimal amount of
* space possible; the returned stack pointer points to the
- * end of the area consumed (stacks grow upward).
+ * end of the area consumed (stacks grow downward).
*
* argc is an int; arg[i] are pointers; env[i] are pointers;
- * exec_path is a pointer; the 0's are (void *)NULL's
+ * the 0's are (void *)NULL's
*
* The stack frame layout is:
*
- * +-------------+
- * sp-> | argc |
- * +-------------+
- * | arg[0] |
- * +-------------+
- * :
- * :
- * +-------------+
- * | arg[argc-1] |
- * +-------------+
- * | 0 |
- * +-------------+
- * | env[0] |
- * +-------------+
- * :
- * :
- * +-------------+
- * | env[n] |
- * +-------------+
- * | 0 |
- * +-------------+
- * | exec_path | In MacOS X PR2 Beaker2E the path passed to exec() is
- * +-------------+ passed on the stack just after the trailing 0 of the
- * | 0 | the envp[] array as a pointer to a string.
- * +-------------+
- * | PATH AREA |
- * +-------------+
- * | STRING AREA |
- * :
- * :
- * | | <- p->user_stack
- * +-------------+
+ * +-------------+ <- p->user_stack
+ * | 16b |
+ * +-------------+
+ * | STRING AREA |
+ * | : |
+ * | : |
+ * | : |
+ * +- -- -- -- --+
+ * | PATH AREA |
+ * +-------------+
+ * | 0 |
+ * +-------------+
+ * | applev[n] |
+ * +-------------+
+ * :
+ * :
+ * +-------------+
+ * | applev[1] |
+ * +-------------+
+ * | exec_path / |
+ * | applev[0] |
+ * +-------------+
+ * | 0 |
+ * +-------------+
+ * | env[n] |
+ * +-------------+
+ * :
+ * :
+ * +-------------+
+ * | env[0] |
+ * +-------------+
+ * | 0 |
+ * +-------------+
+ * | arg[argc-1] |
+ * +-------------+
+ * :
+ * :
+ * +-------------+
+ * | arg[0] |
+ * +-------------+
+ * | argc |
+ * sp-> +-------------+
*
* Although technically a part of the STRING AREA, we treat the PATH AREA as
* a separate entity. This allows us to align the beginning of the PATH AREA
* to a pointer boundary so that the exec_path, env[i], and argv[i] pointers
* which preceed it on the stack are properly aligned.
- *
- * TODO: argc copied with suword(), which takes a 64 bit address
*/
+
static int
exec_copyout_strings(struct image_params *imgp, user_addr_t *stackp)
{
proc_t p = vfs_context_proc(imgp->ip_vfs_context);
int ptr_size = (imgp->ip_flags & IMGPF_IS_64BIT) ? 8 : 4;
- char *argv = imgp->ip_argv; /* modifiable copy of argv */
+ int ptr_area_size;
+ void *ptr_buffer_start, *ptr_buffer;
+ int string_size;
+
user_addr_t string_area; /* *argv[], *env[] */
- user_addr_t path_area; /* package launch path */
- user_addr_t ptr_area; /* argv[], env[], exec_path */
+ user_addr_t ptr_area; /* argv[], env[], applev[] */
+ user_addr_t argc_area; /* argc */
user_addr_t stack;
- int stringc = imgp->ip_argc + imgp->ip_envc;
- size_t len;
int error;
- ssize_t strspace;
+
+ unsigned i;
+ struct copyout_desc {
+ char *start_string;
+ int count;
+#if CONFIG_DTRACE
+ user_addr_t *dtrace_cookie;
+#endif
+ boolean_t null_term;
+ } descriptors[] = {
+ {
+ .start_string = imgp->ip_startargv,
+ .count = imgp->ip_argc,
+#if CONFIG_DTRACE
+ .dtrace_cookie = &p->p_dtrace_argv,
+#endif
+ .null_term = TRUE
+ },
+ {
+ .start_string = imgp->ip_endargv,
+ .count = imgp->ip_envc,
+#if CONFIG_DTRACE
+ .dtrace_cookie = &p->p_dtrace_envp,
+#endif
+ .null_term = TRUE
+ },
+ {
+ .start_string = imgp->ip_strings,
+ .count = 1,
+#if CONFIG_DTRACE
+ .dtrace_cookie = NULL,
+#endif
+ .null_term = FALSE
+ },
+ {
+ .start_string = imgp->ip_endenvv,
+ .count = imgp->ip_applec - 1, /* exec_path handled above */
+#if CONFIG_DTRACE
+ .dtrace_cookie = NULL,
+#endif
+ .null_term = TRUE
+ }
+ };
stack = *stackp;
- size_t patharea_len = imgp->ip_argv - imgp->ip_strings;
- int envc_add = 0;
-
/*
- * Set up pointers to the beginning of the string area, the beginning
- * of the path area, and the beginning of the pointer area (actually,
- * the location of argc, an int, which may be smaller than a pointer,
- * but we use ptr_size worth of space for it, for alignment).
+ * All previous contributors to the string area
+ * should have aligned their sub-area
*/
- string_area = stack - (((imgp->ip_strendp - imgp->ip_strings) + ptr_size-1) & ~(ptr_size-1)) - ptr_size;
- path_area = string_area - ((patharea_len + ptr_size-1) & ~(ptr_size-1));
- ptr_area = path_area - ((imgp->ip_argc + imgp->ip_envc + 4 + envc_add) * ptr_size) - ptr_size /*argc*/;
+ if (imgp->ip_strspace % ptr_size != 0) {
+ error = EINVAL;
+ goto bad;
+ }
- /* Return the initial stack address: the location of argc */
- *stackp = ptr_area;
+ /* Grow the stack down for the strings we've been building up */
+ string_size = imgp->ip_strendp - imgp->ip_strings;
+ stack -= string_size;
+ string_area = stack;
+
+ /*
+ * Need room for one pointer for each string, plus
+ * one for the NULLs terminating the argv, envv, and apple areas.
+ */
+ ptr_area_size = (imgp->ip_argc + imgp->ip_envc + imgp->ip_applec + 3) *
+ ptr_size;
+ stack -= ptr_area_size;
+ ptr_area = stack;
+
+ /* We'll construct all the pointer arrays in our string buffer,
+ * which we already know is aligned properly, and ip_argspace
+ * was used to verify we have enough space.
+ */
+ ptr_buffer_start = ptr_buffer = (void *)imgp->ip_strendp;
+
+ /*
+ * Need room for pointer-aligned argc slot.
+ */
+ stack -= ptr_size;
+ argc_area = stack;
/*
* Record the size of the arguments area so that sysctl_procargs()
*/
proc_lock(p);
p->p_argc = imgp->ip_argc;
- p->p_argslen = (int)(stack - path_area);
+ p->p_argslen = (int)(*stackp - string_area);
proc_unlock(p);
+ /* Return the initial stack address: the location of argc */
+ *stackp = stack;
/*
- * Support for new app package launching for Mac OS X allocates
- * the "path" at the begining of the imgp->ip_strings buffer.
- * copy it just before the string area.
+ * Copy out the entire strings area.
*/
- len = 0;
- error = copyoutstr(imgp->ip_strings, path_area,
- patharea_len,
- &len);
+ error = copyout(imgp->ip_strings, string_area,
+ string_size);
if (error)
goto bad;
+ for (i = 0; i < sizeof(descriptors)/sizeof(descriptors[0]); i++) {
+ char *cur_string = descriptors[i].start_string;
+ int j;
- /* Save a NULL pointer below it */
- (void)copyoutptr(0LL, path_area - ptr_size, ptr_size);
-
- /* Save the pointer to "path" just below it */
- (void)copyoutptr(path_area, path_area - 2*ptr_size, ptr_size);
+#if CONFIG_DTRACE
+ if (descriptors[i].dtrace_cookie) {
+ proc_lock(p);
+ *descriptors[i].dtrace_cookie = ptr_area + ((uintptr_t)ptr_buffer - (uintptr_t)ptr_buffer_start); /* dtrace convenience */
+ proc_unlock(p);
+ }
+#endif /* CONFIG_DTRACE */
- /*
- * ptr_size for 2 NULL one each ofter arg[argc -1] and env[n]
- * ptr_size for argc
- * skip over saved path, ptr_size for pointer to path,
- * and ptr_size for the NULL after pointer to path.
- */
+ /*
+ * For each segment (argv, envv, applev), copy as many pointers as requested
+ * to our pointer buffer.
+ */
+ for (j = 0; j < descriptors[i].count; j++) {
+ user_addr_t cur_address = string_area + (cur_string - imgp->ip_strings);
+
+ /* Copy out the pointer to the current string. Alignment has been verified */
+ if (ptr_size == 8) {
+ *(uint64_t *)ptr_buffer = (uint64_t)cur_address;
+ } else {
+ *(uint32_t *)ptr_buffer = (uint32_t)cur_address;
+ }
+
+ ptr_buffer = (void *)((uintptr_t)ptr_buffer + ptr_size);
+ cur_string += strlen(cur_string) + 1; /* Only a NUL between strings in the same area */
+ }
- /* argc (int32, stored in a ptr_size area) */
- (void)suword(ptr_area, imgp->ip_argc);
- ptr_area += sizeof(int);
- /* pad to ptr_size, if 64 bit image, to ensure user stack alignment */
- if (imgp->ip_flags & IMGPF_IS_64BIT) {
- (void)suword(ptr_area, 0); /* int, not long: ignored */
- ptr_area += sizeof(int);
+ if (descriptors[i].null_term) {
+ if (ptr_size == 8) {
+ *(uint64_t *)ptr_buffer = 0ULL;
+ } else {
+ *(uint32_t *)ptr_buffer = 0;
+ }
+
+ ptr_buffer = (void *)((uintptr_t)ptr_buffer + ptr_size);
+ }
}
-#if CONFIG_DTRACE
- p->p_dtrace_argv = ptr_area; /* user_addr_t &argv[0] for dtrace convenience */
-#endif /* CONFIG_DTRACE */
-
/*
- * We use (string_area - path_area) here rather than the more
- * intuitive (imgp->ip_argv - imgp->ip_strings) because we are
- * interested in the length of the PATH_AREA in user space,
- * rather than the actual length of the execution path, since
- * it includes alignment padding of the PATH_AREA + STRING_AREA
- * to a ptr_size boundary.
+ * Copy out all our pointer arrays in bulk.
*/
- strspace = SIZE_IMG_STRSPACE - (string_area - path_area);
- for (;;) {
- if (stringc == imgp->ip_envc) {
- /* argv[n] = NULL */
- (void)copyoutptr(0LL, ptr_area, ptr_size);
- ptr_area += ptr_size;
-#if CONFIG_DTRACE
- p->p_dtrace_envp = ptr_area; /* user_addr_t &env[0] for dtrace convenience */
-#endif /* CONFIG_DTRACE */
- }
- if (--stringc < 0)
- break;
-
- /* pointer: argv[n]/env[n] */
- (void)copyoutptr(string_area, ptr_area, ptr_size);
+ error = copyout(ptr_buffer_start, ptr_area,
+ ptr_area_size);
+ if (error)
+ goto bad;
- /* string : argv[n][]/env[n][] */
- do {
- if (strspace <= 0) {
- error = E2BIG;
- break;
- }
- error = copyoutstr(argv, string_area,
- strspace,
- &len);
- string_area += len;
- argv += len;
- strspace -= len;
- } while (error == ENAMETOOLONG);
- if (error == EFAULT || error == E2BIG)
- break; /* bad stack - user's problem */
- ptr_area += ptr_size;
- }
- /* env[n] = NULL */
- (void)copyoutptr(0LL, ptr_area, ptr_size);
+ /* argc (int32, stored in a ptr_size area) */
+ error = copyoutptr((user_addr_t)imgp->ip_argc, argc_area, ptr_size);
+ if (error)
+ goto bad;
bad:
return(error);
* Copy arguments and environment from user space into work area; we may
* have already copied some early arguments into the work area, and if
* so, any arguments opied in are appended to those already there.
+ * This function is the primary manipulator of ip_argspace, since
+ * these are the arguments the client of execve(2) knows about. After
+ * each argv[]/envv[] string is copied, we charge the string length
+ * and argv[]/envv[] pointer slot to ip_argspace, so that we can
+ * full preflight the arg list size.
*
* Parameters: struct image_params * the image parameter block
*
* Implicit returns;
* (imgp->ip_argc) Count of arguments, updated
* (imgp->ip_envc) Count of environment strings, updated
+ * (imgp->ip_argspace) Count of remaining of NCARGS
+ * (imgp->ip_interp_buffer) Interpreter and args (mutated in place)
*
*
* Note: The argument and environment vectors are user space pointers
exec_extract_strings(struct image_params *imgp)
{
int error = 0;
- int strsz = 0;
int ptr_size = (imgp->ip_flags & IMGPF_WAS_64BIT) ? 8 : 4;
+ int new_ptr_size = (imgp->ip_flags & IMGPF_IS_64BIT) ? 8 : 4;
user_addr_t argv = imgp->ip_user_argv;
user_addr_t envv = imgp->ip_user_envv;
- /*
- * If the argument vector is NULL, this is the system startup
- * bootstrap from load_init_program(), and there's nothing to do
- */
- if (imgp->ip_user_argv == 0LL)
- goto bad;
-
- /* Now, get rest of arguments */
-
/*
* Adjust space reserved for the path name by however much padding it
* needs. Doing this here since we didn't know if this would be a 32-
* or 64-bit process back in exec_save_path.
*/
- strsz = strlen(imgp->ip_strings) + 1;
- imgp->ip_strspace -= ((strsz + ptr_size-1) & ~(ptr_size-1)) - strsz;
+ while (imgp->ip_strspace % new_ptr_size != 0) {
+ *imgp->ip_strendp++ = '\0';
+ imgp->ip_strspace--;
+ /* imgp->ip_argspace--; not counted towards exec args total */
+ }
/*
- * If we are running an interpreter, replace the av[0] that was
- * passed to execve() with the fully qualified path name that was
- * passed to execve() for interpreters which do not use the PATH
- * to locate their script arguments.
+ * From now on, we start attributing string space to ip_argspace
*/
- if((imgp->ip_flags & IMGPF_INTERPRET) != 0 && argv != 0LL) {
+ imgp->ip_startargv = imgp->ip_strendp;
+ imgp->ip_argc = 0;
+
+ if((imgp->ip_flags & IMGPF_INTERPRET) != 0) {
user_addr_t arg;
+ char *argstart, *ch;
+
+ /* First, the arguments in the "#!" string are tokenized and extracted. */
+ argstart = imgp->ip_interp_buffer;
+ while (argstart) {
+ ch = argstart;
+ while (*ch && !IS_WHITESPACE(*ch)) {
+ ch++;
+ }
- error = copyinptr(argv, &arg, ptr_size);
- if (error)
- goto bad;
- if (arg != 0LL && arg != (user_addr_t)-1) {
- argv += ptr_size;
- error = exec_add_string(imgp, imgp->ip_user_fname);
+ if (*ch == '\0') {
+ /* last argument, no need to NUL-terminate */
+ error = exec_add_user_string(imgp, CAST_USER_ADDR_T(argstart), UIO_SYSSPACE, TRUE);
+ argstart = NULL;
+ } else {
+ /* NUL-terminate */
+ *ch = '\0';
+ error = exec_add_user_string(imgp, CAST_USER_ADDR_T(argstart), UIO_SYSSPACE, TRUE);
+
+ /*
+ * Find the next string. We know spaces at the end of the string have already
+ * been stripped.
+ */
+ argstart = ch + 1;
+ while (IS_WHITESPACE(*argstart)) {
+ argstart++;
+ }
+ }
+
+ /* Error-check, regardless of whether this is the last interpreter arg or not */
if (error)
goto bad;
+ if (imgp->ip_argspace < new_ptr_size) {
+ error = E2BIG;
+ goto bad;
+ }
+ imgp->ip_argspace -= new_ptr_size; /* to hold argv[] entry */
imgp->ip_argc++;
}
+
+ if (argv != 0LL) {
+ /*
+ * If we are running an interpreter, replace the av[0] that was
+ * passed to execve() with the path name that was
+ * passed to execve() for interpreters which do not use the PATH
+ * to locate their script arguments.
+ */
+ error = copyinptr(argv, &arg, ptr_size);
+ if (error)
+ goto bad;
+ if (arg != 0LL) {
+ argv += ptr_size; /* consume without using */
+ }
+ }
+
+ if (imgp->ip_interp_sugid_fd != -1) {
+ char temp[19]; /* "/dev/fd/" + 10 digits + NUL */
+ snprintf(temp, sizeof(temp), "/dev/fd/%d", imgp->ip_interp_sugid_fd);
+ error = exec_add_user_string(imgp, CAST_USER_ADDR_T(temp), UIO_SYSSPACE, TRUE);
+ } else {
+ error = exec_add_user_string(imgp, imgp->ip_user_fname, imgp->ip_seg, TRUE);
+ }
+
+ if (error)
+ goto bad;
+ if (imgp->ip_argspace < new_ptr_size) {
+ error = E2BIG;
+ goto bad;
+ }
+ imgp->ip_argspace -= new_ptr_size; /* to hold argv[] entry */
+ imgp->ip_argc++;
}
while (argv != 0LL) {
if (error)
goto bad;
- argv += ptr_size;
if (arg == 0LL) {
break;
- } else if (arg == (user_addr_t)-1) {
- /* Um... why would it be -1? */
- error = EFAULT;
- goto bad;
}
+
+ argv += ptr_size;
+
/*
* av[n...] = arg[n]
*/
- error = exec_add_string(imgp, arg);
+ error = exec_add_user_string(imgp, arg, imgp->ip_seg, TRUE);
if (error)
goto bad;
+ if (imgp->ip_argspace < new_ptr_size) {
+ error = E2BIG;
+ goto bad;
+ }
+ imgp->ip_argspace -= new_ptr_size; /* to hold argv[] entry */
imgp->ip_argc++;
}
+
+ /* Save space for argv[] NULL terminator */
+ if (imgp->ip_argspace < new_ptr_size) {
+ error = E2BIG;
+ goto bad;
+ }
+ imgp->ip_argspace -= new_ptr_size;
- /* Note where the args end and env begins. */
- imgp->ip_strendargvp = imgp->ip_strendp;
+ /* Note where the args ends and env begins. */
+ imgp->ip_endargv = imgp->ip_strendp;
+ imgp->ip_envc = 0;
/* Now, get the environment */
while (envv != 0LL) {
envv += ptr_size;
if (env == 0LL) {
break;
- } else if (env == (user_addr_t)-1) {
- error = EFAULT;
- goto bad;
}
/*
* av[n...] = env[n]
*/
- error = exec_add_string(imgp, env);
+ error = exec_add_user_string(imgp, env, imgp->ip_seg, TRUE);
if (error)
goto bad;
+ if (imgp->ip_argspace < new_ptr_size) {
+ error = E2BIG;
+ goto bad;
+ }
+ imgp->ip_argspace -= new_ptr_size; /* to hold envv[] entry */
imgp->ip_envc++;
}
+
+ /* Save space for envv[] NULL terminator */
+ if (imgp->ip_argspace < new_ptr_size) {
+ error = E2BIG;
+ goto bad;
+ }
+ imgp->ip_argspace -= new_ptr_size;
+
+ /* Align the tail of the combined argv+envv area */
+ while (imgp->ip_strspace % new_ptr_size != 0) {
+ if (imgp->ip_argspace < 1) {
+ error = E2BIG;
+ goto bad;
+ }
+ *imgp->ip_strendp++ = '\0';
+ imgp->ip_strspace--;
+ imgp->ip_argspace--;
+ }
+
+ /* Note where the envv ends and applev begins. */
+ imgp->ip_endenvv = imgp->ip_strendp;
+
+ /*
+ * From now on, we are no longer charging argument
+ * space to ip_argspace.
+ */
+
bad:
return error;
}
+/*
+ * Libc has an 8-element array set up for stack guard values. It only fills
+ * in one of those entries, and both gcc and llvm seem to use only a single
+ * 8-byte guard. Until somebody needs more than an 8-byte guard value, don't
+ * do the work to construct them.
+ */
+#define GUARD_VALUES 1
+#define GUARD_KEY "stack_guard="
+
+/*
+ * System malloc needs some entropy when it is initialized.
+ */
+#define ENTROPY_VALUES 2
+#define ENTROPY_KEY "malloc_entropy="
+
+/*
+ * System malloc engages nanozone for UIAPP.
+ */
+#define NANO_ENGAGE_KEY "MallocNanoZone=1"
+
+#define PFZ_KEY "pfz="
+extern user32_addr_t commpage_text32_location;
+extern user64_addr_t commpage_text64_location;
+
+#define MAIN_STACK_VALUES 4
+#define MAIN_STACK_KEY "main_stack="
+
+#define FSID_KEY "executable_file="
+#define DYLD_FSID_KEY "dyld_file="
+#define CDHASH_KEY "executable_cdhash="
+
+#define FSID_MAX_STRING "0x1234567890abcdef,0x1234567890abcdef"
+
+#define HEX_STR_LEN 18 // 64-bit hex value "0x0123456701234567"
+
+static int
+exec_add_entropy_key(struct image_params *imgp,
+ const char *key,
+ int values,
+ boolean_t embedNUL)
+{
+ const int limit = 8;
+ uint64_t entropy[limit];
+ char str[strlen(key) + (HEX_STR_LEN + 1) * limit + 1];
+ if (values > limit) {
+ values = limit;
+ }
+
+ read_random(entropy, sizeof(entropy[0]) * values);
+
+ if (embedNUL) {
+ entropy[0] &= ~(0xffull << 8);
+ }
+
+ int len = snprintf(str, sizeof(str), "%s0x%llx", key, entropy[0]);
+ int remaining = sizeof(str) - len;
+ for (int i = 1; i < values && remaining > 0; ++i) {
+ int start = sizeof(str) - remaining;
+ len = snprintf(&str[start], remaining, ",0x%llx", entropy[i]);
+ remaining -= len;
+ }
+
+ return exec_add_user_string(imgp, CAST_USER_ADDR_T(str), UIO_SYSSPACE, FALSE);
+}
+
+/*
+ * Build up the contents of the apple[] string vector
+ */
+static int
+exec_add_apple_strings(struct image_params *imgp,
+ const load_result_t *load_result)
+{
+ int error;
+ int img_ptr_size = (imgp->ip_flags & IMGPF_IS_64BIT) ? 8 : 4;
+
+ /* exec_save_path stored the first string */
+ imgp->ip_applec = 1;
+
+ /* adding the pfz string */
+ {
+ char pfz_string[strlen(PFZ_KEY) + HEX_STR_LEN + 1];
+
+ if (img_ptr_size == 8) {
+ snprintf(pfz_string, sizeof(pfz_string), PFZ_KEY "0x%llx", commpage_text64_location);
+ } else {
+ snprintf(pfz_string, sizeof(pfz_string), PFZ_KEY "0x%x", commpage_text32_location);
+ }
+ error = exec_add_user_string(imgp, CAST_USER_ADDR_T(pfz_string), UIO_SYSSPACE, FALSE);
+ if (error) {
+ goto bad;
+ }
+ imgp->ip_applec++;
+ }
+
+ /* adding the NANO_ENGAGE_KEY key */
+ if (imgp->ip_px_sa) {
+ int proc_flags = (((struct _posix_spawnattr *) imgp->ip_px_sa)->psa_flags);
+
+ if ((proc_flags & _POSIX_SPAWN_NANO_ALLOCATOR) == _POSIX_SPAWN_NANO_ALLOCATOR) {
+ const char *nano_string = NANO_ENGAGE_KEY;
+ error = exec_add_user_string(imgp, CAST_USER_ADDR_T(nano_string), UIO_SYSSPACE, FALSE);
+ if (error){
+ goto bad;
+ }
+ imgp->ip_applec++;
+ }
+ }
+
+ /*
+ * Supply libc with a collection of random values to use when
+ * implementing -fstack-protector.
+ *
+ * (The first random string always contains an embedded NUL so that
+ * __stack_chk_guard also protects against C string vulnerabilities)
+ */
+ error = exec_add_entropy_key(imgp, GUARD_KEY, GUARD_VALUES, TRUE);
+ if (error) {
+ goto bad;
+ }
+ imgp->ip_applec++;
+
+ /*
+ * Supply libc with entropy for system malloc.
+ */
+ error = exec_add_entropy_key(imgp, ENTROPY_KEY, ENTROPY_VALUES, FALSE);
+ if (error) {
+ goto bad;
+ }
+ imgp->ip_applec++;
+
+ /*
+ * Add MAIN_STACK_KEY: Supplies the address and size of the main thread's
+ * stack if it was allocated by the kernel.
+ *
+ * The guard page is not included in this stack size as libpthread
+ * expects to add it back in after receiving this value.
+ */
+ if (load_result->unixproc) {
+ char stack_string[strlen(MAIN_STACK_KEY) + (HEX_STR_LEN + 1) * MAIN_STACK_VALUES + 1];
+ snprintf(stack_string, sizeof(stack_string),
+ MAIN_STACK_KEY "0x%llx,0x%llx,0x%llx,0x%llx",
+ (uint64_t)load_result->user_stack,
+ (uint64_t)load_result->user_stack_size,
+ (uint64_t)load_result->user_stack_alloc,
+ (uint64_t)load_result->user_stack_alloc_size);
+ error = exec_add_user_string(imgp, CAST_USER_ADDR_T(stack_string), UIO_SYSSPACE, FALSE);
+ if (error) {
+ goto bad;
+ }
+ imgp->ip_applec++;
+ }
+
+ if (imgp->ip_vattr) {
+ uint64_t fsid = get_va_fsid(imgp->ip_vattr);
+ uint64_t fsobjid = imgp->ip_vattr->va_fileid;
+
+ char fsid_string[strlen(FSID_KEY) + strlen(FSID_MAX_STRING) + 1];
+ snprintf(fsid_string, sizeof(fsid_string),
+ FSID_KEY "0x%llx,0x%llx", fsid, fsobjid);
+ error = exec_add_user_string(imgp, CAST_USER_ADDR_T(fsid_string), UIO_SYSSPACE, FALSE);
+ if (error) {
+ goto bad;
+ }
+ imgp->ip_applec++;
+ }
+
+ if (imgp->ip_dyld_fsid || imgp->ip_dyld_fsobjid ) {
+ char fsid_string[strlen(DYLD_FSID_KEY) + strlen(FSID_MAX_STRING) + 1];
+ snprintf(fsid_string, sizeof(fsid_string),
+ DYLD_FSID_KEY "0x%llx,0x%llx", imgp->ip_dyld_fsid, imgp->ip_dyld_fsobjid);
+ error = exec_add_user_string(imgp, CAST_USER_ADDR_T(fsid_string), UIO_SYSSPACE, FALSE);
+ if (error) {
+ goto bad;
+ }
+ imgp->ip_applec++;
+ }
+
+ uint8_t cdhash[SHA1_RESULTLEN];
+ int cdhash_errror = ubc_cs_getcdhash(imgp->ip_vp, imgp->ip_arch_offset, cdhash);
+ if (cdhash_errror == 0) {
+ char hash_string[strlen(CDHASH_KEY) + 2*SHA1_RESULTLEN + 1];
+ strncpy(hash_string, CDHASH_KEY, sizeof(hash_string));
+ char *p = hash_string + sizeof(CDHASH_KEY) - 1;
+ for (int i = 0; i < SHA1_RESULTLEN; i++) {
+ snprintf(p, 3, "%02x", (int) cdhash[i]);
+ p += 2;
+ }
+ error = exec_add_user_string(imgp, CAST_USER_ADDR_T(hash_string), UIO_SYSSPACE, FALSE);
+ if (error) {
+ goto bad;
+ }
+ imgp->ip_applec++;
+ }
+
+ /* Align the tail of the combined applev area */
+ while (imgp->ip_strspace % img_ptr_size != 0) {
+ *imgp->ip_strendp++ = '\0';
+ imgp->ip_strspace--;
+ }
+
+bad:
+ return error;
+}
#define unix_stack_size(p) (p->p_rlimit[RLIMIT_STACK].rlim_cur)
/*
* exec_check_permissions
*
- * Decription: Verify that the file that is being attempted to be executed
+ * Description: Verify that the file that is being attempted to be executed
* is in fact allowed to be executed based on it POSIX file
* permissions and other access control criteria
*
VATTR_WANTED(vap, va_gid);
VATTR_WANTED(vap, va_mode);
VATTR_WANTED(vap, va_fsid);
+ VATTR_WANTED(vap, va_fsid64);
VATTR_WANTED(vap, va_fileid);
VATTR_WANTED(vap, va_data_size);
if ((error = vnode_getattr(vp, vap, imgp->ip_vfs_context)) != 0)
* will always succeed, and we don't want to happen unless the
* file really is executable.
*/
- if ((vap->va_mode & (S_IXUSR | S_IXGRP | S_IXOTH)) == 0)
+ if (!vfs_authopaque(vnode_mount(vp)) && ((vap->va_mode & (S_IXUSR | S_IXGRP | S_IXOTH)) == 0))
return (EACCES);
/* Disallow zero length files */
if ((vp->v_mount->mnt_flag & MNT_NOSUID) || (p->p_lflag & P_LTRACED))
vap->va_mode &= ~(VSUID | VSGID);
+ /*
+ * Disable _POSIX_SPAWN_ALLOW_DATA_EXEC and _POSIX_SPAWN_DISABLE_ASLR
+ * flags for setuid/setgid binaries.
+ */
+ if (vap->va_mode & (VSUID | VSGID))
+ imgp->ip_flags &= ~(IMGPF_ALLOW_DATA_EXEC | IMGPF_DISABLE_ASLR);
+
#if CONFIG_MACF
error = mac_vnode_check_exec(imgp->ip_vfs_context, vp, imgp);
if (error)
#endif
-#ifdef IMGPF_POWERPC
- /*
- * If the file we are about to attempt to load is the exec_handler_ppc,
- * which is determined by matching the vattr fields against previously
- * cached values, then we set the PowerPC environment flag.
- */
- if (vap->va_fsid == exec_archhandler_ppc.fsid &&
- vap->va_fileid == (uint64_t)((uint32_t)exec_archhandler_ppc.fileid)) {
- imgp->ip_flags |= IMGPF_POWERPC;
- }
-#endif /* IMGPF_POWERPC */
-
/* XXX May want to indicate to underlying FS that vnode is open */
return (error);
static int
exec_handle_sugid(struct image_params *imgp)
{
- kauth_cred_t cred = vfs_context_ucred(imgp->ip_vfs_context);
proc_t p = vfs_context_proc(imgp->ip_vfs_context);
+ kauth_cred_t cred = vfs_context_ucred(imgp->ip_vfs_context);
+ kauth_cred_t my_cred, my_new_cred;
int i;
int leave_sugid_clear = 0;
+ int mac_reset_ipc = 0;
int error = 0;
- struct vnode *dev_null = NULLVP;
+ task_t task = NULL;
#if CONFIG_MACF
- int mac_transition;
+ int mac_transition, disjoint_cred = 0;
+ int label_update_return = 0;
/*
* Determine whether a call to update the MAC label will result in the
mac_transition = mac_cred_check_label_update_execve(
imgp->ip_vfs_context,
imgp->ip_vp,
+ imgp->ip_arch_offset,
+ imgp->ip_scriptvp,
imgp->ip_scriptlabelp,
- imgp->ip_execlabelp, p);
+ imgp->ip_execlabelp,
+ p,
+ imgp->ip_px_smpx);
#endif
OSBitAndAtomic(~((uint32_t)P_SUGID), &p->p_flag);
kauth_cred_getuid(cred) != imgp->ip_origvattr->va_uid) ||
((imgp->ip_origvattr->va_mode & VSGID) != 0 &&
((kauth_cred_ismember_gid(cred, imgp->ip_origvattr->va_gid, &leave_sugid_clear) || !leave_sugid_clear) ||
- (cred->cr_gid != imgp->ip_origvattr->va_gid)))) {
+ (kauth_cred_getgid(cred) != imgp->ip_origvattr->va_gid)))) {
#if CONFIG_MACF
/* label for MAC transition and neither VSUID nor VSGID */
handle_mac_transition:
#endif
+#if !SECURE_KERNEL
/*
* Replace the credential with a copy of itself if euid or
* egid change.
* membership resolution, then dropping their
* effective privilege to that of the desired
* final credential state.
+ *
+ * Modifications to p_ucred must be guarded using the
+ * proc's ucred lock. This prevents others from accessing
+ * a garbage credential.
*/
- if (imgp->ip_origvattr->va_mode & VSUID) {
- p->p_ucred = kauth_cred_setresuid(p->p_ucred, KAUTH_UID_NONE, imgp->ip_origvattr->va_uid, imgp->ip_origvattr->va_uid, KAUTH_UID_NONE);
+ while (imgp->ip_origvattr->va_mode & VSUID) {
+ my_cred = kauth_cred_proc_ref(p);
+ my_new_cred = kauth_cred_setresuid(my_cred, KAUTH_UID_NONE, imgp->ip_origvattr->va_uid, imgp->ip_origvattr->va_uid, KAUTH_UID_NONE);
+
+ if (my_new_cred == my_cred) {
+ kauth_cred_unref(&my_cred);
+ break;
+ }
+
+ /* update cred on proc */
+ proc_ucred_lock(p);
+
+ if (p->p_ucred != my_cred) {
+ proc_ucred_unlock(p);
+ kauth_cred_unref(&my_new_cred);
+ continue;
+ }
+
+ /* donate cred reference on my_new_cred to p->p_ucred */
+ p->p_ucred = my_new_cred;
+ PROC_UPDATE_CREDS_ONPROC(p);
+ proc_ucred_unlock(p);
+
+ /* drop additional reference that was taken on the previous cred */
+ kauth_cred_unref(&my_cred);
+
+ break;
}
- if (imgp->ip_origvattr->va_mode & VSGID) {
- p->p_ucred = kauth_cred_setresgid(p->p_ucred, KAUTH_GID_NONE, imgp->ip_origvattr->va_gid, imgp->ip_origvattr->va_gid);
+
+ while (imgp->ip_origvattr->va_mode & VSGID) {
+ my_cred = kauth_cred_proc_ref(p);
+ my_new_cred = kauth_cred_setresgid(my_cred, KAUTH_GID_NONE, imgp->ip_origvattr->va_gid, imgp->ip_origvattr->va_gid);
+
+ if (my_new_cred == my_cred) {
+ kauth_cred_unref(&my_cred);
+ break;
+ }
+
+ /* update cred on proc */
+ proc_ucred_lock(p);
+
+ if (p->p_ucred != my_cred) {
+ proc_ucred_unlock(p);
+ kauth_cred_unref(&my_new_cred);
+ continue;
+ }
+
+ /* donate cred reference on my_new_cred to p->p_ucred */
+ p->p_ucred = my_new_cred;
+ PROC_UPDATE_CREDS_ONPROC(p);
+ proc_ucred_unlock(p);
+
+ /* drop additional reference that was taken on the previous cred */
+ kauth_cred_unref(&my_cred);
+
+ break;
}
+#endif /* !SECURE_KERNEL */
#if CONFIG_MACF
/*
* modifying any others sharing it.
*/
if (mac_transition) {
- kauth_cred_t my_cred;
- if (kauth_proc_label_update_execve(p,
+ /*
+ * This hook may generate upcalls that require
+ * importance donation from the kernel.
+ * (23925818)
+ */
+ thread_t thread = current_thread();
+ thread_enable_send_importance(thread, TRUE);
+ kauth_proc_label_update_execve(p,
imgp->ip_vfs_context,
imgp->ip_vp,
+ imgp->ip_arch_offset,
+ imgp->ip_scriptvp,
imgp->ip_scriptlabelp,
- imgp->ip_execlabelp)) {
+ imgp->ip_execlabelp,
+ &imgp->ip_csflags,
+ imgp->ip_px_smpx,
+ &disjoint_cred, /* will be non zero if disjoint */
+ &label_update_return);
+ thread_enable_send_importance(thread, FALSE);
+
+ if (disjoint_cred) {
/*
* If updating the MAC label resulted in a
* disjoint credential, flag that we need to
*/
leave_sugid_clear = 0;
}
-
- my_cred = kauth_cred_proc_ref(p);
- mac_task_label_update_cred(my_cred, p->task);
- kauth_cred_unref(&my_cred);
+
+ imgp->ip_mac_return = label_update_return;
}
-#endif /* CONFIG_MACF */
+
+ mac_reset_ipc = mac_proc_check_inherit_ipc_ports(p, p->p_textvp, p->p_textoff, imgp->ip_vp, imgp->ip_arch_offset, imgp->ip_scriptvp);
- /*
- * Have mach reset the task and thread ports.
- * We don't want anyone who had the ports before
- * a setuid exec to be able to access/control the
- * task/thread after.
- */
- ipc_task_reset(p->task);
- ipc_thread_reset((imgp->ip_new_thread != NULL) ?
- imgp->ip_new_thread : current_thread());
+#endif /* CONFIG_MACF */
/*
* If 'leave_sugid_clear' is non-zero, then we passed the
* the previous cred was a member of the VSGID group, but
* that it was not the default at the time of the execve,
* and that the post-labelling credential was not disjoint.
- * So we don't set the P_SUGID on the basis of simply
- * running this code.
+ * So we don't set the P_SUGID or reset mach ports and fds
+ * on the basis of simply running this code.
*/
- if (!leave_sugid_clear)
+ if (mac_reset_ipc || !leave_sugid_clear) {
+ /*
+ * Have mach reset the task and thread ports.
+ * We don't want anyone who had the ports before
+ * a setuid exec to be able to access/control the
+ * task/thread after.
+ */
+ ipc_task_reset((imgp->ip_new_thread != NULL) ?
+ get_threadtask(imgp->ip_new_thread) : p->task);
+ ipc_thread_reset((imgp->ip_new_thread != NULL) ?
+ imgp->ip_new_thread : current_thread());
+ }
+
+ if (!leave_sugid_clear) {
+ /*
+ * Flag the process as setuid.
+ */
OSBitOrAtomic(P_SUGID, &p->p_flag);
- /* Cache the vnode for /dev/null the first time around */
- if (dev_null == NULLVP) {
- struct nameidata nd1;
+ /*
+ * Radar 2261856; setuid security hole fix
+ * XXX For setuid processes, attempt to ensure that
+ * stdin, stdout, and stderr are already allocated.
+ * We do not want userland to accidentally allocate
+ * descriptors in this range which has implied meaning
+ * to libc.
+ */
+ for (i = 0; i < 3; i++) {
- NDINIT(&nd1, LOOKUP, FOLLOW, UIO_SYSSPACE,
- CAST_USER_ADDR_T("/dev/null"),
- imgp->ip_vfs_context);
+ if (p->p_fd->fd_ofiles[i] != NULL)
+ continue;
- if ((error = vn_open(&nd1, FREAD, 0)) == 0) {
- dev_null = nd1.ni_vp;
/*
- * vn_open returns with both a use_count
- * and an io_count on the found vnode
- * drop the io_count, but keep the use_count
+ * Do the kernel equivalent of
+ *
+ * if i == 0
+ * (void) open("/dev/null", O_RDONLY);
+ * else
+ * (void) open("/dev/null", O_WRONLY);
*/
- vnode_put(nd1.ni_vp);
- }
- }
- /* Radar 2261856; setuid security hole fix */
- /* Patch from OpenBSD: A. Ramesh */
- /*
- * XXX For setuid processes, attempt to ensure that
- * stdin, stdout, and stderr are already allocated.
- * We do not want userland to accidentally allocate
- * descriptors in this range which has implied meaning
- * to libc.
- */
- if (dev_null != NULLVP) {
- for (i = 0; i < 3; i++) {
struct fileproc *fp;
int indx;
+ int flag;
+ struct nameidata *ndp = NULL;
- if (p->p_fd->fd_ofiles[i] != NULL)
- continue;
+ if (i == 0)
+ flag = FREAD;
+ else
+ flag = FWRITE;
- if ((error = falloc(p, &fp, &indx, imgp->ip_vfs_context)) != 0)
+ if ((error = falloc(p,
+ &fp, &indx, imgp->ip_vfs_context)) != 0)
continue;
- if ((error = vnode_ref_ext(dev_null, FREAD)) != 0) {
+ MALLOC(ndp, struct nameidata *, sizeof(*ndp), M_TEMP, M_WAITOK | M_ZERO);
+ if (ndp == NULL) {
fp_free(p, indx, fp);
+ error = ENOMEM;
break;
}
- fp->f_fglob->fg_flag = FREAD;
- fp->f_fglob->fg_type = DTYPE_VNODE;
- fp->f_fglob->fg_ops = &vnops;
- fp->f_fglob->fg_data = (caddr_t)dev_null;
-
+ NDINIT(ndp, LOOKUP, OP_OPEN, FOLLOW, UIO_SYSSPACE,
+ CAST_USER_ADDR_T("/dev/null"),
+ imgp->ip_vfs_context);
+
+ if ((error = vn_open(ndp, flag, 0)) != 0) {
+ fp_free(p, indx, fp);
+ FREE(ndp, M_TEMP);
+ break;
+ }
+
+ struct fileglob *fg = fp->f_fglob;
+
+ fg->fg_flag = flag;
+ fg->fg_ops = &vnops;
+ fg->fg_data = ndp->ni_vp;
+
+ vnode_put(ndp->ni_vp);
+
proc_fdlock(p);
procfdtbl_releasefd(p, indx, NULL);
fp_drop(p, indx, fp, 1);
proc_fdunlock(p);
+
+ FREE(ndp, M_TEMP);
}
- /*
- * for now we need to drop the reference immediately
- * since we don't have any mechanism in place to
- * release it before starting to unmount "/dev"
- * during a reboot/shutdown
- */
- vnode_rele(dev_null);
- dev_null = NULLVP;
}
}
#if CONFIG_MACF
goto handle_mac_transition;
}
}
+
#endif /* CONFIG_MACF */
/*
* Implement the semantic where the effective user and group become
* the saved user and group in exec'ed programs.
+ *
+ * Modifications to p_ucred must be guarded using the
+ * proc's ucred lock. This prevents others from accessing
+ * a garbage credential.
*/
- p->p_ucred = kauth_cred_setsvuidgid(p->p_ucred, kauth_cred_getuid(p->p_ucred), p->p_ucred->cr_gid);
-
+ for (;;) {
+ my_cred = kauth_cred_proc_ref(p);
+ my_new_cred = kauth_cred_setsvuidgid(my_cred, kauth_cred_getuid(my_cred), kauth_cred_getgid(my_cred));
+
+ if (my_new_cred == my_cred) {
+ kauth_cred_unref(&my_cred);
+ break;
+ }
+
+ /* update cred on proc */
+ proc_ucred_lock(p);
+
+ if (p->p_ucred != my_cred) {
+ proc_ucred_unlock(p);
+ kauth_cred_unref(&my_new_cred);
+ continue;
+ }
+
+ /* donate cred reference on my_new_cred to p->p_ucred */
+ p->p_ucred = my_new_cred;
+ PROC_UPDATE_CREDS_ONPROC(p);
+ proc_ucred_unlock(p);
+
+ /* drop additional reference that was taken on the previous cred */
+ kauth_cred_unref(&my_cred);
+
+ break;
+ }
+
+
/* Update the process' identity version and set the security token */
p->p_idversion++;
- set_security_token(p);
+
+ if (imgp->ip_new_thread != NULL) {
+ task = get_threadtask(imgp->ip_new_thread);
+ } else {
+ task = p->task;
+ }
+ set_security_token_task_internal(p, task);
return(error);
}
* limits on stack growth, if they end up being needed.
*
* Parameters: p Process to set stack on
- * user_stack Address to set stack for process to
- * customstack FALSE if no custom stack in binary
- * map Address map in which to allocate the
- * new stack, if 'customstack' is FALSE
+ * load_result Information from mach-o load commands
+ * map Address map in which to allocate the new stack
*
* Returns: KERN_SUCCESS Stack successfully created
* !KERN_SUCCESS Mach failure code
*/
static kern_return_t
-create_unix_stack(vm_map_t map, user_addr_t user_stack, int customstack,
+create_unix_stack(vm_map_t map, load_result_t* load_result,
proc_t p)
{
mach_vm_size_t size, prot_size;
mach_vm_offset_t addr, prot_addr;
kern_return_t kr;
+ mach_vm_address_t user_stack = load_result->user_stack;
+
proc_lock(p);
p->user_stack = user_stack;
proc_unlock(p);
- if (!customstack) {
+ if (load_result->user_stack_alloc_size > 0) {
/*
* Allocate enough space for the maximum stack size we
* will ever authorize and an extra page to act as
- * a guard page for stack overflows.
+ * a guard page for stack overflows. For default stacks,
+ * vm_initial_limit_stack takes care of the extra guard page.
+ * Otherwise we must allocate it ourselves.
*/
- size = mach_vm_round_page(MAXSSIZ);
-#if STACK_GROWTH_UP
- addr = mach_vm_trunc_page(user_stack);
-#else /* STACK_GROWTH_UP */
- addr = mach_vm_trunc_page(user_stack - size);
-#endif /* STACK_GROWTH_UP */
- kr = mach_vm_allocate(map, &addr, size,
- VM_MAKE_TAG(VM_MEMORY_STACK) |
- VM_FLAGS_FIXED);
+ if (mach_vm_round_page_overflow(load_result->user_stack_alloc_size, &size)) {
+ return KERN_INVALID_ARGUMENT;
+ }
+ addr = mach_vm_trunc_page(load_result->user_stack - size);
+ kr = mach_vm_allocate_kernel(map, &addr, size,
+ VM_FLAGS_FIXED, VM_MEMORY_STACK);
if (kr != KERN_SUCCESS) {
- return kr;
+ // Can't allocate at default location, try anywhere
+ addr = 0;
+ kr = mach_vm_allocate_kernel(map, &addr, size,
+ VM_FLAGS_ANYWHERE, VM_MEMORY_STACK);
+ if (kr != KERN_SUCCESS) {
+ return kr;
+ }
+
+ user_stack = addr + size;
+ load_result->user_stack = user_stack;
+
+ proc_lock(p);
+ p->user_stack = user_stack;
+ proc_unlock(p);
}
+
+ load_result->user_stack_alloc = addr;
+
/*
* And prevent access to what's above the current stack
* size limit for this process.
*/
+ if (load_result->user_stack_size == 0) {
+ load_result->user_stack_size = unix_stack_size(p);
+ prot_size = mach_vm_trunc_page(size - load_result->user_stack_size);
+ } else {
+ prot_size = PAGE_SIZE;
+ }
+
prot_addr = addr;
-#if STACK_GROWTH_UP
- prot_addr += unix_stack_size(p);
-#endif /* STACK_GROWTH_UP */
- prot_addr = mach_vm_round_page(prot_addr);
- prot_size = mach_vm_trunc_page(size - unix_stack_size(p));
kr = mach_vm_protect(map,
prot_addr,
prot_size,
FALSE,
VM_PROT_NONE);
if (kr != KERN_SUCCESS) {
- (void) mach_vm_deallocate(map, addr, size);
+ (void)mach_vm_deallocate(map, addr, size);
return kr;
}
}
+
return KERN_SUCCESS;
}
#include <sys/reboot.h>
-static char init_program_name[128] = "/sbin/launchd";
-
-struct execve_args init_exec_args;
-
/*
- * load_init_program
+ * load_init_program_at_path
*
* Description: Load the "init" program; in most cases, this will be "launchd"
*
* Parameters: p Process to call execve() to create
* the "init" program
+ * scratch_addr Page in p, scratch space
+ * path NULL terminated path
*
- * Returns: (void)
+ * Returns: KERN_SUCCESS Success
+ * !KERN_SUCCESS See execve/mac_execve for error codes
*
* Notes: The process that is passed in is the first manufactured
* process on the system, and gets here via bsd_ast() firing
* for the first time. This is done to ensure that bsd_init()
* has run to completion.
+ *
+ * The address map of the first manufactured process matches the
+ * word width of the kernel. Once the self-exec completes, the
+ * initproc might be different.
*/
-void
-load_init_program(proc_t p)
+static int
+load_init_program_at_path(proc_t p, user_addr_t scratch_addr, const char* path)
{
- vm_offset_t init_addr;
- int argc = 0;
- uint32_t argv[3];
- int error;
- int retval[2];
+ int retval[2];
+ int error;
+ struct execve_args init_exec_args;
+ user_addr_t argv0 = USER_ADDR_NULL, argv1 = USER_ADDR_NULL;
/*
- * Copy out program name.
+ * Validate inputs and pre-conditions
*/
+ assert(p);
+ assert(scratch_addr);
+ assert(path);
- init_addr = VM_MIN_ADDRESS;
- (void) vm_allocate(current_map(), &init_addr, PAGE_SIZE,
- VM_FLAGS_ANYWHERE);
- if (init_addr == 0)
- init_addr++;
-
- (void) copyout((caddr_t) init_program_name, CAST_USER_ADDR_T(init_addr),
- (unsigned) sizeof(init_program_name)+1);
+ /*
+ * Copy out program name.
+ */
+ size_t path_length = strlen(path) + 1;
+ argv0 = scratch_addr;
+ error = copyout(path, argv0, path_length);
+ if (error)
+ return error;
- argv[argc++] = (uint32_t)init_addr;
- init_addr += sizeof(init_program_name);
- init_addr = (vm_offset_t)ROUND_PTR(char, init_addr);
+ scratch_addr = USER_ADDR_ALIGN(scratch_addr + path_length, sizeof(user_addr_t));
/*
* Put out first (and only) argument, similarly.
- * Assumes everything fits in a page as allocated
- * above.
+ * Assumes everything fits in a page as allocated above.
*/
if (boothowto & RB_SINGLE) {
const char *init_args = "-s";
+ size_t init_args_length = strlen(init_args)+1;
- copyout(init_args, CAST_USER_ADDR_T(init_addr),
- strlen(init_args));
-
- argv[argc++] = (uint32_t)init_addr;
- init_addr += strlen(init_args);
- init_addr = (vm_offset_t)ROUND_PTR(char, init_addr);
+ argv1 = scratch_addr;
+ error = copyout(init_args, argv1, init_args_length);
+ if (error)
+ return error;
+ scratch_addr = USER_ADDR_ALIGN(scratch_addr + init_args_length, sizeof(user_addr_t));
}
- /*
- * Null-end the argument list
- */
- argv[argc] = 0;
-
- /*
- * Copy out the argument list.
- */
-
- (void) copyout((caddr_t) argv, CAST_USER_ADDR_T(init_addr),
- (unsigned) sizeof(argv));
+ if (proc_is64bit(p)) {
+ user64_addr_t argv64bit[3];
+
+ argv64bit[0] = argv0;
+ argv64bit[1] = argv1;
+ argv64bit[2] = USER_ADDR_NULL;
+
+ error = copyout(argv64bit, scratch_addr, sizeof(argv64bit));
+ if (error)
+ return error;
+ } else {
+ user32_addr_t argv32bit[3];
+
+ argv32bit[0] = (user32_addr_t)argv0;
+ argv32bit[1] = (user32_addr_t)argv1;
+ argv32bit[2] = USER_ADDR_NULL;
+
+ error = copyout(argv32bit, scratch_addr, sizeof(argv32bit));
+ if (error)
+ return error;
+ }
/*
* Set up argument block for fake call to execve.
*/
+ init_exec_args.fname = argv0;
+ init_exec_args.argp = scratch_addr;
+ init_exec_args.envp = USER_ADDR_NULL;
- init_exec_args.fname = CAST_USER_ADDR_T(argv[0]);
- init_exec_args.argp = CAST_USER_ADDR_T((char **)init_addr);
- init_exec_args.envp = CAST_USER_ADDR_T(0);
-
/*
- * So that mach_init task is set with uid,gid 0 token
+ * So that init task is set with uid,gid 0 token
*/
set_security_token(p);
- error = execve(p,&init_exec_args,retval);
- if (error)
- panic("Process 1 exec of %s failed, errno %d\n",
- init_program_name, error);
+ return execve(p, &init_exec_args, retval);
+}
+
+static const char * init_programs[] = {
+#if DEBUG
+ "/usr/local/sbin/launchd.debug",
+#endif
+#if DEVELOPMENT || DEBUG
+ "/usr/local/sbin/launchd.development",
+#endif
+ "/sbin/launchd",
+};
+
+/*
+ * load_init_program
+ *
+ * Description: Load the "init" program; in most cases, this will be "launchd"
+ *
+ * Parameters: p Process to call execve() to create
+ * the "init" program
+ *
+ * Returns: (void)
+ *
+ * Notes: The process that is passed in is the first manufactured
+ * process on the system, and gets here via bsd_ast() firing
+ * for the first time. This is done to ensure that bsd_init()
+ * has run to completion.
+ *
+ * In DEBUG & DEVELOPMENT builds, the launchdsuffix boot-arg
+ * may be used to select a specific launchd executable. As with
+ * the kcsuffix boot-arg, setting launchdsuffix to "" or "release"
+ * will force /sbin/launchd to be selected.
+ *
+ * Search order by build:
+ *
+ * DEBUG DEVELOPMENT RELEASE PATH
+ * ----------------------------------------------------------------------------------
+ * 1 1 NA /usr/local/sbin/launchd.$LAUNCHDSUFFIX
+ * 2 NA NA /usr/local/sbin/launchd.debug
+ * 3 2 NA /usr/local/sbin/launchd.development
+ * 4 3 1 /sbin/launchd
+ */
+void
+load_init_program(proc_t p)
+{
+ uint32_t i;
+ int error;
+ vm_map_t map = current_map();
+ mach_vm_offset_t scratch_addr = 0;
+ mach_vm_size_t map_page_size = vm_map_page_size(map);
+
+ (void) mach_vm_allocate_kernel(map, &scratch_addr, map_page_size, VM_FLAGS_ANYWHERE, VM_KERN_MEMORY_NONE);
+#if CONFIG_MEMORYSTATUS
+ (void) memorystatus_init_at_boot_snapshot();
+#endif /* CONFIG_MEMORYSTATUS */
+
+#if DEBUG || DEVELOPMENT
+ /* Check for boot-arg suffix first */
+ char launchd_suffix[64];
+ if (PE_parse_boot_argn("launchdsuffix", launchd_suffix, sizeof(launchd_suffix))) {
+ char launchd_path[128];
+ boolean_t is_release_suffix = ((launchd_suffix[0] == 0) ||
+ (strcmp(launchd_suffix, "release") == 0));
+
+ if (is_release_suffix) {
+ printf("load_init_program: attempting to load /sbin/launchd\n");
+ error = load_init_program_at_path(p, (user_addr_t)scratch_addr, "/sbin/launchd");
+ if (!error)
+ return;
+
+ panic("Process 1 exec of launchd.release failed, errno %d", error);
+ } else {
+ strlcpy(launchd_path, "/usr/local/sbin/launchd.", sizeof(launchd_path));
+ strlcat(launchd_path, launchd_suffix, sizeof(launchd_path));
+
+ printf("load_init_program: attempting to load %s\n", launchd_path);
+ error = load_init_program_at_path(p, (user_addr_t)scratch_addr, launchd_path);
+ if (!error) {
+ return;
+ } else {
+ printf("load_init_program: failed loading %s: errno %d\n", launchd_path, error);
+ }
+ }
+ }
+#endif
+
+ error = ENOENT;
+ for (i = 0; i < sizeof(init_programs)/sizeof(init_programs[0]); i++) {
+ printf("load_init_program: attempting to load %s\n", init_programs[i]);
+ error = load_init_program_at_path(p, (user_addr_t)scratch_addr, init_programs[i]);
+ if (!error) {
+ return;
+ } else {
+ printf("load_init_program: failed loading %s: errno %d\n", init_programs[i], error);
+ }
+ }
+
+ panic("Process 1 exec of %s failed, errno %d", ((i == 0) ? "<null>" : init_programs[i-1]), error);
}
/*
* EIO An I/O error occurred
* EBADEXEC The executable is corrupt/unknown
*/
-static int
+static int
load_return_to_errno(load_return_t lrtn)
{
switch (lrtn) {
case LOAD_SUCCESS:
return 0;
case LOAD_BADARCH:
+ case LOAD_BADARCH_X86:
return EBADARCH;
case LOAD_BADMACHO:
+ case LOAD_BADMACHO_UPX:
return EBADMACHO;
case LOAD_SHLIB:
return ESHLIBVERS;
case LOAD_IOERROR:
return EIO;
case LOAD_FAILURE:
+ case LOAD_DECRYPTFAIL:
default:
return EBADEXEC;
}
#include <kern/clock.h>
#include <mach/kern_return.h>
-extern semaphore_t execve_semaphore;
-
/*
* execargs_alloc
*
lck_mtx_unlock(execargs_cache_lock);
}
-static void
+static wait_result_t
execargs_lock_sleep(void) {
- lck_mtx_sleep(execargs_cache_lock, LCK_SLEEP_DEFAULT, &execargs_free_count, THREAD_UNINT);
+ return(lck_mtx_sleep(execargs_cache_lock, LCK_SLEEP_DEFAULT, &execargs_free_count, THREAD_INTERRUPTIBLE));
}
static kern_return_t
execargs_purgeable_allocate(char **execarg_address) {
- kern_return_t kr = vm_allocate(bsd_pageable_map, (vm_offset_t *)execarg_address, NCARGS + PAGE_SIZE, VM_FLAGS_ANYWHERE | VM_FLAGS_PURGABLE);
+ kern_return_t kr = vm_allocate_kernel(bsd_pageable_map, (vm_offset_t *)execarg_address, BSD_PAGEABLE_SIZE_PER_EXEC, VM_FLAGS_ANYWHERE | VM_FLAGS_PURGABLE, VM_KERN_MEMORY_NONE);
assert(kr == KERN_SUCCESS);
return kr;
}
execargs_alloc(struct image_params *imgp)
{
kern_return_t kret;
+ wait_result_t res;
int i, cache_index = -1;
execargs_lock_lock();
while (execargs_free_count == 0) {
execargs_waiters++;
- execargs_lock_sleep();
+ res = execargs_lock_sleep();
execargs_waiters--;
+ if (res != THREAD_AWAKENED) {
+ execargs_lock_unlock();
+ return (EINTR);
+ }
}
execargs_free_count--;
return (ENOMEM);
}
- imgp->ip_vdata = imgp->ip_strings + NCARGS;
+ /* last page used to read in file headers */
+ imgp->ip_vdata = imgp->ip_strings + ( NCARGS + PAGE_SIZE );
+ imgp->ip_strendp = imgp->ip_strings;
+ imgp->ip_argspace = NCARGS;
+ imgp->ip_strspace = ( NCARGS + PAGE_SIZE );
return (0);
}
}
-static int
+// Includes the 0-byte (therefore "SIZE" instead of "LEN").
+static const size_t CS_CDHASH_STRING_SIZE = CS_CDHASH_LEN * 2 + 1;
+
+static void cdhash_to_string(char str[CS_CDHASH_STRING_SIZE], uint8_t const * const cdhash) {
+ static char const nibble[] = "0123456789abcdef";
+
+ /* Apparently still the safest way to get a hex representation
+ * of binary data.
+ * xnu's printf routines have %*D/%20D in theory, but "not really", see:
+ * <rdar://problem/33328859> confusion around %*D/%nD in printf
+ */
+ for (int i = 0; i < CS_CDHASH_LEN; ++i) {
+ str[i*2] = nibble[(cdhash[i] & 0xf0) >> 4];
+ str[i*2+1] = nibble[cdhash[i] & 0x0f];
+ }
+ str[CS_CDHASH_STRING_SIZE - 1] = 0;
+}
+
+/*
+ * __EXEC_WAITING_ON_TASKGATED_CODE_SIGNATURE_UPCALL__
+ *
+ * Description: Waits for the userspace daemon to respond to the request
+ * we made. Function declared non inline to be visible in
+ * stackshots and spindumps as well as debugging.
+ */
+__attribute__((noinline)) int
+__EXEC_WAITING_ON_TASKGATED_CODE_SIGNATURE_UPCALL__(mach_port_t task_access_port, int32_t new_pid)
+{
+ return find_code_signature(task_access_port, new_pid);
+}
+
+static int
check_for_signature(proc_t p, struct image_params *imgp)
{
mach_port_t port = NULL;
- kern_return_t error = 0;
- unsigned char hash[SHA1_RESULTLEN];
+ kern_return_t kr = KERN_FAILURE;
+ int error = EACCES;
+ boolean_t unexpected_failure = FALSE;
+ struct cs_blob *csb;
+ boolean_t require_success = FALSE;
+ int spawn = (imgp->ip_flags & IMGPF_SPAWN);
+ int vfexec = (imgp->ip_flags & IMGPF_VFORK_EXEC);
+ os_reason_t signature_failure_reason = OS_REASON_NULL;
/*
* Override inherited code signing flags with the
}
/*
- * If the task_access_port is set and the proc isn't signed,
- * ask for a code signature from user space. Fail the exec
- * if permission is denied.
+ * image activation may be failed due to policy
+ * which is unexpected but security framework does not
+ * approve of exec, kill and return immediately.
*/
- error = task_get_task_access_port(p->task, &port);
- if (error == 0 && IPC_PORT_VALID(port) && !(p->p_csflags & CS_VALID)) {
- error = find_code_signature(port, p->p_pid);
- if (error == KERN_FAILURE) {
- /* Make very sure execution fails */
- psignal(p, SIGKILL);
- return EACCES;
+ if (imgp->ip_mac_return != 0) {
+
+ KERNEL_DEBUG_CONSTANT(BSDDBG_CODE(DBG_BSD_PROC, BSD_PROC_EXITREASON_CREATE) | DBG_FUNC_NONE,
+ p->p_pid, OS_REASON_EXEC, EXEC_EXIT_REASON_SECURITY_POLICY, 0, 0);
+ signature_failure_reason = os_reason_create(OS_REASON_EXEC, EXEC_EXIT_REASON_SECURITY_POLICY);
+ error = imgp->ip_mac_return;
+ unexpected_failure = TRUE;
+ goto done;
+ }
+
+ if (imgp->ip_cs_error != OS_REASON_NULL) {
+ signature_failure_reason = imgp->ip_cs_error;
+ imgp->ip_cs_error = OS_REASON_NULL;
+ error = EACCES;
+ goto done;
+ }
+
+ /* If the code signature came through the image activation path, we skip the
+ * taskgated / externally attached path. */
+ if (imgp->ip_csflags & CS_SIGNED) {
+ error = 0;
+ goto done;
+ }
+
+ /* The rest of the code is for signatures that either already have been externally
+ * attached (likely, but not necessarily by a previous run through the taskgated
+ * path), or that will now be attached by taskgated. */
+
+ kr = task_get_task_access_port(p->task, &port);
+ if (KERN_SUCCESS != kr || !IPC_PORT_VALID(port)) {
+ error = 0;
+ if (require_success) {
+ KERNEL_DEBUG_CONSTANT(BSDDBG_CODE(DBG_BSD_PROC, BSD_PROC_EXITREASON_CREATE) | DBG_FUNC_NONE,
+ p->p_pid, OS_REASON_CODESIGNING, CODESIGNING_EXIT_REASON_TASK_ACCESS_PORT, 0, 0);
+ signature_failure_reason = os_reason_create(OS_REASON_CODESIGNING, CODESIGNING_EXIT_REASON_TASK_ACCESS_PORT);
+ error = EACCES;
}
+ goto done;
+ }
+
+ /*
+ * taskgated returns KERN_SUCCESS if it has completed its work
+ * and the exec should continue, KERN_FAILURE if the exec should
+ * fail, or it may error out with different error code in an
+ * event of mig failure (e.g. process was signalled during the
+ * rpc call, taskgated died, mig server died etc.).
+ */
+
+ kr = __EXEC_WAITING_ON_TASKGATED_CODE_SIGNATURE_UPCALL__(port, p->p_pid);
+ switch (kr) {
+ case KERN_SUCCESS:
+ error = 0;
+ break;
+ case KERN_FAILURE:
+ error = EACCES;
+
+ KERNEL_DEBUG_CONSTANT(BSDDBG_CODE(DBG_BSD_PROC, BSD_PROC_EXITREASON_CREATE) | DBG_FUNC_NONE,
+ p->p_pid, OS_REASON_CODESIGNING, CODESIGNING_EXIT_REASON_TASKGATED_INVALID_SIG, 0, 0);
+ signature_failure_reason = os_reason_create(OS_REASON_CODESIGNING, CODESIGNING_EXIT_REASON_TASKGATED_INVALID_SIG);
+ goto done;
+ default:
+ error = EACCES;
+
+ KERNEL_DEBUG_CONSTANT(BSDDBG_CODE(DBG_BSD_PROC, BSD_PROC_EXITREASON_CREATE) | DBG_FUNC_NONE,
+ p->p_pid, OS_REASON_EXEC, EXEC_EXIT_REASON_TASKGATED_OTHER, 0, 0);
+ signature_failure_reason = os_reason_create(OS_REASON_EXEC, EXEC_EXIT_REASON_TASKGATED_OTHER);
+ unexpected_failure = TRUE;
+ goto done;
+ }
+
+ /* Only do this if exec_resettextvp() did not fail */
+ if (p->p_textvp != NULLVP) {
+ csb = ubc_cs_blob_get(p->p_textvp, -1, p->p_textoff);
+
+ if (csb != NULL) {
+ /* As the enforcement we can do here is very limited, we only allow things that
+ * are the only reason why this code path still exists:
+ * Adhoc signed non-platform binaries without special cs_flags and without any
+ * entitlements (unrestricted ones still pass AMFI). */
+ if (
+ /* Revalidate the blob if necessary through bumped generation count. */
+ (ubc_cs_generation_check(p->p_textvp) == 0 ||
+ ubc_cs_blob_revalidate(p->p_textvp, csb, imgp, 0) == 0) &&
+ /* Only CS_ADHOC, no CS_KILL, CS_HARD etc. */
+ (csb->csb_flags & CS_ALLOWED_MACHO) == CS_ADHOC &&
+ /* If it has a CMS blob, it's not adhoc. The CS_ADHOC flag can lie. */
+ csblob_find_blob_bytes((const uint8_t *)csb->csb_mem_kaddr, csb->csb_mem_size,
+ CSSLOT_SIGNATURESLOT,
+ CSMAGIC_BLOBWRAPPER) == NULL &&
+ /* It could still be in a trust cache (unlikely with CS_ADHOC), or a magic path. */
+ csb->csb_platform_binary == 0 &&
+ /* No entitlements, not even unrestricted ones. */
+ csb->csb_entitlements_blob == NULL) {
- /* Only do this if exec_resettextvp() did not fail */
- if (p->p_textvp != NULLVP) {
- /*
- * If there's a new code directory, mark this process
- * as signed.
- */
- error = ubc_cs_getcdhash(p->p_textvp, p->p_textoff, hash);
- if (error == 0) {
proc_lock(p);
- p->p_csflags |= CS_VALID;
+ p->p_csflags |= CS_SIGNED | CS_VALID;
proc_unlock(p);
+
+ } else {
+ uint8_t cdhash[CS_CDHASH_LEN];
+ char cdhash_string[CS_CDHASH_STRING_SIZE];
+ proc_getcdhash(p, cdhash);
+ cdhash_to_string(cdhash_string, cdhash);
+ printf("ignoring detached code signature on '%s' with cdhash '%s' "
+ "because it is invalid, or not a simple adhoc signature.\n",
+ p->p_name, cdhash_string);
}
+
}
}
- return KERN_SUCCESS;
+done:
+ if (0 == error) {
+ /* The process's code signature related properties are
+ * fully set up, so this is an opportune moment to log
+ * platform binary execution, if desired. */
+ if (platform_exec_logging != 0 && csproc_get_platform_binary(p)) {
+ uint8_t cdhash[CS_CDHASH_LEN];
+ char cdhash_string[CS_CDHASH_STRING_SIZE];
+ proc_getcdhash(p, cdhash);
+ cdhash_to_string(cdhash_string, cdhash);
+
+ os_log(peLog, "CS Platform Exec Logging: Executing platform signed binary "
+ "'%s' with cdhash %s\n", p->p_name, cdhash_string);
+ }
+ } else {
+ if (!unexpected_failure)
+ p->p_csflags |= CS_KILLED;
+ /* make very sure execution fails */
+ if (vfexec || spawn) {
+ assert(signature_failure_reason != OS_REASON_NULL);
+ psignal_vfork_with_reason(p, p->task, imgp->ip_new_thread,
+ SIGKILL, signature_failure_reason);
+ signature_failure_reason = OS_REASON_NULL;
+ error = 0;
+ } else {
+ assert(signature_failure_reason != OS_REASON_NULL);
+ psignal_with_reason(p, SIGKILL, signature_failure_reason);
+ signature_failure_reason = OS_REASON_NULL;
+ }
+ }
+
+ /* If we hit this, we likely would have leaked an exit reason */
+ assert(signature_failure_reason == OS_REASON_NULL);
+ return error;
}
+/*
+ * Typically as soon as we start executing this process, the
+ * first instruction will trigger a VM fault to bring the text
+ * pages (as executable) into the address space, followed soon
+ * thereafter by dyld data structures (for dynamic executable).
+ * To optimize this, as well as improve support for hardware
+ * debuggers that can only access resident pages present
+ * in the process' page tables, we prefault some pages if
+ * possible. Errors are non-fatal.
+ */
+static void exec_prefault_data(proc_t p __unused, struct image_params *imgp, load_result_t *load_result)
+{
+ int ret;
+ size_t expected_all_image_infos_size;
+
+ /*
+ * Prefault executable or dyld entry point.
+ */
+ vm_fault(current_map(),
+ vm_map_trunc_page(load_result->entry_point,
+ vm_map_page_mask(current_map())),
+ VM_PROT_READ | VM_PROT_EXECUTE,
+ FALSE, VM_KERN_MEMORY_NONE,
+ THREAD_UNINT, NULL, 0);
+
+ if (imgp->ip_flags & IMGPF_IS_64BIT) {
+ expected_all_image_infos_size = sizeof(struct user64_dyld_all_image_infos);
+ } else {
+ expected_all_image_infos_size = sizeof(struct user32_dyld_all_image_infos);
+ }
+
+ /* Decode dyld anchor structure from <mach-o/dyld_images.h> */
+ if (load_result->dynlinker &&
+ load_result->all_image_info_addr &&
+ load_result->all_image_info_size >= expected_all_image_infos_size) {
+ union {
+ struct user64_dyld_all_image_infos infos64;
+ struct user32_dyld_all_image_infos infos32;
+ } all_image_infos;
+
+ /*
+ * Pre-fault to avoid copyin() going through the trap handler
+ * and recovery path.
+ */
+ vm_fault(current_map(),
+ vm_map_trunc_page(load_result->all_image_info_addr,
+ vm_map_page_mask(current_map())),
+ VM_PROT_READ | VM_PROT_WRITE,
+ FALSE, VM_KERN_MEMORY_NONE,
+ THREAD_UNINT, NULL, 0);
+ if ((load_result->all_image_info_addr & PAGE_MASK) + expected_all_image_infos_size > PAGE_SIZE) {
+ /* all_image_infos straddles a page */
+ vm_fault(current_map(),
+ vm_map_trunc_page(load_result->all_image_info_addr + expected_all_image_infos_size - 1,
+ vm_map_page_mask(current_map())),
+ VM_PROT_READ | VM_PROT_WRITE,
+ FALSE, VM_KERN_MEMORY_NONE,
+ THREAD_UNINT, NULL, 0);
+ }
+
+ ret = copyin(load_result->all_image_info_addr,
+ &all_image_infos,
+ expected_all_image_infos_size);
+ if (ret == 0 && all_image_infos.infos32.version >= DYLD_ALL_IMAGE_INFOS_ADDRESS_MINIMUM_VERSION) {
+
+ user_addr_t notification_address;
+ user_addr_t dyld_image_address;
+ user_addr_t dyld_version_address;
+ user_addr_t dyld_all_image_infos_address;
+ user_addr_t dyld_slide_amount;
+
+ if (imgp->ip_flags & IMGPF_IS_64BIT) {
+ notification_address = all_image_infos.infos64.notification;
+ dyld_image_address = all_image_infos.infos64.dyldImageLoadAddress;
+ dyld_version_address = all_image_infos.infos64.dyldVersion;
+ dyld_all_image_infos_address = all_image_infos.infos64.dyldAllImageInfosAddress;
+ } else {
+ notification_address = all_image_infos.infos32.notification;
+ dyld_image_address = all_image_infos.infos32.dyldImageLoadAddress;
+ dyld_version_address = all_image_infos.infos32.dyldVersion;
+ dyld_all_image_infos_address = all_image_infos.infos32.dyldAllImageInfosAddress;
+ }
+
+ /*
+ * dyld statically sets up the all_image_infos in its Mach-O
+ * binary at static link time, with pointers relative to its default
+ * load address. Since ASLR might slide dyld before its first
+ * instruction is executed, "dyld_slide_amount" tells us how far
+ * dyld was loaded compared to its default expected load address.
+ * All other pointers into dyld's image should be adjusted by this
+ * amount. At some point later, dyld will fix up pointers to take
+ * into account the slide, at which point the all_image_infos_address
+ * field in the structure will match the runtime load address, and
+ * "dyld_slide_amount" will be 0, if we were to consult it again.
+ */
+
+ dyld_slide_amount = load_result->all_image_info_addr - dyld_all_image_infos_address;
+
+#if 0
+ kprintf("exec_prefault: 0x%016llx 0x%08x 0x%016llx 0x%016llx 0x%016llx 0x%016llx\n",
+ (uint64_t)load_result->all_image_info_addr,
+ all_image_infos.infos32.version,
+ (uint64_t)notification_address,
+ (uint64_t)dyld_image_address,
+ (uint64_t)dyld_version_address,
+ (uint64_t)dyld_all_image_infos_address);
+#endif
+
+ vm_fault(current_map(),
+ vm_map_trunc_page(notification_address + dyld_slide_amount,
+ vm_map_page_mask(current_map())),
+ VM_PROT_READ | VM_PROT_EXECUTE,
+ FALSE, VM_KERN_MEMORY_NONE,
+ THREAD_UNINT, NULL, 0);
+ vm_fault(current_map(),
+ vm_map_trunc_page(dyld_image_address + dyld_slide_amount,
+ vm_map_page_mask(current_map())),
+ VM_PROT_READ | VM_PROT_EXECUTE,
+ FALSE, VM_KERN_MEMORY_NONE,
+ THREAD_UNINT, NULL, 0);
+ vm_fault(current_map(),
+ vm_map_trunc_page(dyld_version_address + dyld_slide_amount,
+ vm_map_page_mask(current_map())),
+ VM_PROT_READ,
+ FALSE, VM_KERN_MEMORY_NONE,
+ THREAD_UNINT, NULL, 0);
+ vm_fault(current_map(),
+ vm_map_trunc_page(dyld_all_image_infos_address + dyld_slide_amount,
+ vm_map_page_mask(current_map())),
+ VM_PROT_READ | VM_PROT_WRITE,
+ FALSE, VM_KERN_MEMORY_NONE,
+ THREAD_UNINT, NULL, 0);
+ }
+ }
+}