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29 #include <mach_debug.h>
30 #include <mach_ldebug.h>
32 #include <mach/kern_return.h>
33 #include <mach/mach_traps.h>
34 #include <mach/thread_status.h>
35 #include <mach/vm_param.h>
37 #include <kern/counters.h>
38 #include <kern/cpu_data.h>
39 #include <kern/mach_param.h>
40 #include <kern/task.h>
41 #include <kern/thread.h>
42 #include <kern/sched_prim.h>
43 #include <kern/misc_protos.h>
44 #include <kern/assert.h>
45 #include <kern/debug.h>
47 #include <kern/syscall_sw.h>
48 #include <ipc/ipc_port.h>
49 #include <vm/vm_kern.h>
52 #include <i386/cpu_number.h>
53 #include <i386/eflags.h>
54 #include <i386/proc_reg.h>
56 #include <i386/user_ldt.h>
58 #include <i386/machdep_call.h>
59 #include <i386/vmparam.h>
60 #include <i386/mp_desc.h>
61 #include <i386/misc_protos.h>
62 #include <i386/thread.h>
63 #include <i386/trap.h>
65 #include <mach/i386/syscall_sw.h>
66 #include <sys/syscall.h>
67 #include <sys/kdebug.h>
68 #include <sys/errno.h>
69 #include <../bsd/sys/sysent.h>
73 * Duplicate parent state in child
83 pcb_t parent_pcb
= THREAD_TO_PCB(parent
);
84 pcb_t child_pcb
= THREAD_TO_PCB(child
);
87 * Copy over the x86_saved_state registers
89 if (thread_is_64bit(parent
))
90 bcopy(USER_REGS64(parent
), USER_REGS64(child
), sizeof(x86_saved_state64_t
));
92 bcopy(USER_REGS32(parent
), USER_REGS32(child
), sizeof(x86_saved_state32_t
));
95 * Check to see if parent is using floating point
96 * and if so, copy the registers to the child
98 fpu_dup_fxstate(parent
, child
);
102 * Copy the parent's cthread id and USER_CTHREAD descriptor, if 32-bit.
104 child_pcb
->cthread_self
= parent_pcb
->cthread_self
;
105 if (!thread_is_64bit(parent
))
106 child_pcb
->cthread_desc
= parent_pcb
->cthread_desc
;
109 * FIXME - should a user specified LDT, TSS and V86 info
110 * be duplicated as well?? - probably not.
112 // duplicate any use LDT entry that was set I think this is appropriate.
113 if (parent_pcb
->uldt_selector
!= 0) {
114 child_pcb
->uldt_selector
= parent_pcb
->uldt_selector
;
115 child_pcb
->uldt_desc
= parent_pcb
->uldt_desc
;
119 return (KERN_SUCCESS
);
122 void thread_set_parent(thread_t parent
, int pid
);
125 thread_set_parent(thread_t parent
, int pid
)
127 pal_register_cache_state(parent
, DIRTY
);
129 if (thread_is_64bit(parent
)) {
130 x86_saved_state64_t
*iss64
;
132 iss64
= USER_REGS64(parent
);
136 iss64
->isf
.rflags
&= ~EFL_CF
;
138 x86_saved_state32_t
*iss32
;
140 iss32
= USER_REGS32(parent
);
144 iss32
->efl
&= ~EFL_CF
;
149 * thread_fast_set_cthread_self: Sets the machine kernel thread ID of the
150 * current thread to the given thread ID; fast version for 32-bit processes
152 * Parameters: self Thread ID to set
158 thread_fast_set_cthread_self(uint32_t self
)
160 machine_thread_set_tsd_base(current_thread(), self
);
161 return (USER_CTHREAD
); /* N.B.: not a kern_return_t! */
165 * thread_fast_set_cthread_self64: Sets the machine kernel thread ID of the
166 * current thread to the given thread ID; fast version for 64-bit processes
168 * Parameters: self Thread ID
174 thread_fast_set_cthread_self64(uint64_t self
)
176 machine_thread_set_tsd_base(current_thread(), self
);
177 return (USER_CTHREAD
); /* N.B.: not a kern_return_t! */
181 * thread_set_user_ldt routine is the interface for the user level
182 * settable ldt entry feature. allowing a user to create arbitrary
183 * ldt entries seems to be too large of a security hole, so instead
184 * this mechanism is in place to allow user level processes to have
185 * an ldt entry that can be used in conjunction with the FS register.
187 * Swapping occurs inside the pcb.c file along with initialization
188 * when a thread is created. The basic functioning theory is that the
189 * pcb->uldt_selector variable will contain either 0 meaning the
190 * process has not set up any entry, or the selector to be used in
191 * the FS register. pcb->uldt_desc contains the actual descriptor the
192 * user has set up stored in machine usable ldt format.
194 * Currently one entry is shared by all threads (USER_SETTABLE), but
195 * this could be changed in the future by changing how this routine
196 * allocates the selector. There seems to be no real reason at this
197 * time to have this added feature, but in the future it might be
200 * address is the linear address of the start of the data area size
201 * is the size in bytes of the area flags should always be set to 0
202 * for now. in the future it could be used to set R/W permisions or
203 * other functions. Currently the segment is created as a data segment
204 * up to 1 megabyte in size with full read/write permisions only.
206 * this call returns the segment selector or -1 if any error occurs
209 thread_set_user_ldt(uint32_t address
, uint32_t size
, uint32_t flags
)
212 struct fake_descriptor temp
;
215 return -1; // flags not supported
217 return -1; // size too big, 1 meg is the limit
219 mp_disable_preemption();
221 // create a "fake" descriptor so we can use fix_desc()
222 // to build a real one...
223 // 32 bit default operation size
224 // standard read/write perms for a data segment
225 pcb
= THREAD_TO_PCB(current_thread());
226 temp
.offset
= address
;
227 temp
.lim_or_seg
= size
;
228 temp
.size_or_wdct
= SZ_32
;
229 temp
.access
= ACC_P
|ACC_PL_U
|ACC_DATA_W
;
231 // turn this into a real descriptor
234 // set up our data in the pcb
235 pcb
->uldt_desc
= *(struct real_descriptor
*)&temp
;
236 pcb
->uldt_selector
= USER_SETTABLE
; // set the selector value
238 // now set it up in the current table...
239 *ldt_desc_p(USER_SETTABLE
) = *(struct real_descriptor
*)&temp
;
241 mp_enable_preemption();
243 return USER_SETTABLE
;