| blob | e2d46cb93ca987f16dc0d19f3d47d04e3235e332 |
1 // SPDX-License-Identifier: GPL-2.0
2 #include <linux/err.h>
3 #include <linux/slab.h>
4 #include <linux/mm_types.h>
5 #include <linux/sched/task.h>
7 #include <asm/branch.h>
8 #include <asm/cacheflush.h>
9 #include <asm/fpu_emulator.h>
10 #include <asm/inst.h>
11 #include <asm/mipsregs.h>
12 #include <linux/uaccess.h>
14 /**
15 * struct emuframe - The 'emulation' frame structure
16 * @emul: The instruction to 'emulate'.
17 * @badinst: A break instruction to cause a return to the kernel.
18 *
19 * This structure defines the frames placed within the delay slot emulation
20 * page in response to a call to mips_dsemul(). Each thread may be allocated
21 * only one frame at any given time. The kernel stores within it the
22 * instruction to be 'emulated' followed by a break instruction, then
23 * executes the frame in user mode. The break causes a trap to the kernel
24 * which leads to do_dsemulret() being called unless the instruction in
25 * @emul causes a trap itself, is a branch, or a signal is delivered to
26 * the thread. In these cases the allocated frame will either be reused by
27 * a subsequent delay slot 'emulation', or be freed during signal delivery or
28 * upon thread exit.
29 *
30 * This approach is used because:
31 *
32 * - Actually emulating all instructions isn't feasible. We would need to
33 * be able to handle instructions from all revisions of the MIPS ISA,
34 * all ASEs & all vendor instruction set extensions. This would be a
35 * whole lot of work & continual maintenance burden as new instructions
36 * are introduced, and in the case of some vendor extensions may not
37 * even be possible. Thus we need to take the approach of actually
38 * executing the instruction.
39 *
40 * - We must execute the instruction within user context. If we were to
41 * execute the instruction in kernel mode then it would have access to
42 * kernel resources without very careful checks, leaving us with a
43 * high potential for security or stability issues to arise.
44 *
45 * - We used to place the frame on the users stack, but this requires
46 * that the stack be executable. This is bad for security so the
47 * per-process page is now used instead.
48 *
49 * - The instruction in @emul may be something entirely invalid for a
50 * delay slot. The user may (intentionally or otherwise) place a branch
51 * in a delay slot, or a kernel mode instruction, or something else
52 * which generates an exception. Thus we can't rely upon the break in
53 * @badinst always being hit. For this reason we track the index of the
54 * frame allocated to each thread, allowing us to clean it up at later
55 * points such as signal delivery or thread exit.
56 *
57 * - The user may generate a fake struct emuframe if they wish, invoking
58 * the BRK_MEMU break instruction themselves. We must therefore not
59 * trust that BRK_MEMU means there's actually a valid frame allocated
60 * to the thread, and must not allow the user to do anything they
61 * couldn't already.
62 */
64 mips_instruction emul;
65 mips_instruction badinst;
66 };
71 {
73 }
76 {
80 retry:
83 /* Ensure we have an allocation bitmap */
88 GFP_ATOMIC);
93 }
94 }
96 /* Attempt to allocate a single bit/frame */
100 /*
101 * Failed to allocate a frame. We'll wait until one becomes
102 * available. We unlock the page so that other threads actually
103 * get the opportunity to free their frames, which means
104 * technically the result of bitmap_full may be incorrect.
105 * However the worst case is that we repeat all this and end up
106 * back here again.
107 */
111 emupage_frame_count)))
114 /* Received a fatal signal - just give in */
116 }
118 /* Success! */
120 out_unlock:
123 }
126 {
134 /* If some thread is waiting for a frame, now's its chance */
138 }
141 {
150 }
153 {
156 /* Clear any allocated frame, retrieving its index */
159 /* If no frame was allocated, we're done */
165 /* Free the frame that this thread had allocated */
171 }
174 {
178 /* Do nothing if we're not executing from a frame */
182 /* Find the frame being executed */
188 /*
189 * If the PC is at the emul instruction, roll back to the branch. If
190 * PC is at the badinst (break) instruction, we've already emulated the
191 * instruction so progress to the continue PC. If it's anything else
192 * then something is amiss & the user has branched into some other area
193 * of the emupage - we'll free the allocated frame anyway.
194 */
203 }
206 {
210 }
214 {
216 mips_instruction break_math;
221 /* NOP is easy */
225 /* microMIPS instructions */
229 /* NOP16 aka MOVE16 $0, $0 */
233 /* ADDIUPC */
236 s32 v;
243 }
244 }
248 /* Allocate a frame if we don't already have one */
255 /* Retrieve the appropriately encoded break instruction */
258 /* Write the instructions to the frame */
262 };
265 };
272 }
274 /* Write the frame to user memory */
282 }
284 /* Record the PC of the branch, PC to continue from & frame index */
289 /* Change user register context to execute the frame */
293 }
296 {
297 /* Cleanup the allocated frame, returning if there wasn't one */
301 }
303 /* Set EPC to return to post-branch instruction */
308 }