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Add KEY_MICMUTE and enable it on Lenovo X220
[linux-2.6/linux-acpi-2.6/ibm-acpi-2.6.git] / arch / alpha / kernel / ptrace.c
blobe2af5eb59bb432ad870b2d2a08d46a74e97c82fe
1 /* ptrace.c */
2 /* By Ross Biro 1/23/92 */
3 /* edited by Linus Torvalds */
4 /* mangled further by Bob Manson (manson@santafe.edu) */
5 /* more mutilation by David Mosberger (davidm@azstarnet.com) */
6
7 #include <linux/kernel.h>
8 #include <linux/sched.h>
9 #include <linux/mm.h>
10 #include <linux/smp.h>
11 #include <linux/errno.h>
12 #include <linux/ptrace.h>
13 #include <linux/user.h>
14 #include <linux/security.h>
15 #include <linux/signal.h>
16
17 #include <asm/uaccess.h>
18 #include <asm/pgtable.h>
19 #include <asm/system.h>
20 #include <asm/fpu.h>
21
22 #include "proto.h"
23
24 #define DEBUG DBG_MEM
25 #undef DEBUG
26
27 #ifdef DEBUG
28 enum {
29 DBG_MEM = (1<<0),
30 DBG_BPT = (1<<1),
31 DBG_MEM_ALL = (1<<2)
32 };
33 #define DBG(fac,args) {if ((fac) & DEBUG) printk args;}
34 #else
35 #define DBG(fac,args)
36 #endif
37
38 #define BREAKINST 0x00000080 /* call_pal bpt */
39
40 /*
41 * does not yet catch signals sent when the child dies.
42 * in exit.c or in signal.c.
43 */
44
45 /*
46 * Processes always block with the following stack-layout:
47 *
48 * +================================+ <---- task + 2*PAGE_SIZE
49 * | PALcode saved frame (ps, pc, | ^
50 * | gp, a0, a1, a2) | |
51 * +================================+ | struct pt_regs
52 * | | |
53 * | frame generated by SAVE_ALL | |
54 * | | v
55 * +================================+
56 * | | ^
57 * | frame saved by do_switch_stack | | struct switch_stack
58 * | | v
59 * +================================+
60 */
61
62 /*
63 * The following table maps a register index into the stack offset at
64 * which the register is saved. Register indices are 0-31 for integer
65 * regs, 32-63 for fp regs, and 64 for the pc. Notice that sp and
66 * zero have no stack-slot and need to be treated specially (see
67 * get_reg/put_reg below).
68 */
69 enum {
70 REG_R0 = 0, REG_F0 = 32, REG_FPCR = 63, REG_PC = 64
71 };
72
73 #define PT_REG(reg) \
74 (PAGE_SIZE*2 - sizeof(struct pt_regs) + offsetof(struct pt_regs, reg))
75
76 #define SW_REG(reg) \
77 (PAGE_SIZE*2 - sizeof(struct pt_regs) - sizeof(struct switch_stack) \
78 + offsetof(struct switch_stack, reg))
79
80 static int regoff[] = {
81 PT_REG( r0), PT_REG( r1), PT_REG( r2), PT_REG( r3),
82 PT_REG( r4), PT_REG( r5), PT_REG( r6), PT_REG( r7),
83 PT_REG( r8), SW_REG( r9), SW_REG( r10), SW_REG( r11),
84 SW_REG( r12), SW_REG( r13), SW_REG( r14), SW_REG( r15),
85 PT_REG( r16), PT_REG( r17), PT_REG( r18), PT_REG( r19),
86 PT_REG( r20), PT_REG( r21), PT_REG( r22), PT_REG( r23),
87 PT_REG( r24), PT_REG( r25), PT_REG( r26), PT_REG( r27),
88 PT_REG( r28), PT_REG( gp), -1, -1,
89 SW_REG(fp[ 0]), SW_REG(fp[ 1]), SW_REG(fp[ 2]), SW_REG(fp[ 3]),
90 SW_REG(fp[ 4]), SW_REG(fp[ 5]), SW_REG(fp[ 6]), SW_REG(fp[ 7]),
91 SW_REG(fp[ 8]), SW_REG(fp[ 9]), SW_REG(fp[10]), SW_REG(fp[11]),
92 SW_REG(fp[12]), SW_REG(fp[13]), SW_REG(fp[14]), SW_REG(fp[15]),
93 SW_REG(fp[16]), SW_REG(fp[17]), SW_REG(fp[18]), SW_REG(fp[19]),
94 SW_REG(fp[20]), SW_REG(fp[21]), SW_REG(fp[22]), SW_REG(fp[23]),
95 SW_REG(fp[24]), SW_REG(fp[25]), SW_REG(fp[26]), SW_REG(fp[27]),
96 SW_REG(fp[28]), SW_REG(fp[29]), SW_REG(fp[30]), SW_REG(fp[31]),
97 PT_REG( pc)
98 };
99
100 static unsigned long zero;
101
102 /*
103 * Get address of register REGNO in task TASK.
104 */
105 static unsigned long *
106 get_reg_addr(struct task_struct * task, unsigned long regno)
107 {
108 unsigned long *addr;
109
110 if (regno == 30) {
111 addr = &task_thread_info(task)->pcb.usp;
112 } else if (regno == 65) {
113 addr = &task_thread_info(task)->pcb.unique;
114 } else if (regno == 31 || regno > 65) {
115 zero = 0;
116 addr = &zero;
117 } else {
118 addr = task_stack_page(task) + regoff[regno];
119 }
120 return addr;
121 }
122
123 /*
124 * Get contents of register REGNO in task TASK.
125 */
126 static unsigned long
127 get_reg(struct task_struct * task, unsigned long regno)
128 {
129 /* Special hack for fpcr -- combine hardware and software bits. */
130 if (regno == 63) {
131 unsigned long fpcr = *get_reg_addr(task, regno);
132 unsigned long swcr
133 = task_thread_info(task)->ieee_state & IEEE_SW_MASK;
134 swcr = swcr_update_status(swcr, fpcr);
135 return fpcr | swcr;
136 }
137 return *get_reg_addr(task, regno);
138 }
139
140 /*
141 * Write contents of register REGNO in task TASK.
142 */
143 static int
144 put_reg(struct task_struct *task, unsigned long regno, unsigned long data)
145 {
146 if (regno == 63) {
147 task_thread_info(task)->ieee_state
148 = ((task_thread_info(task)->ieee_state & ~IEEE_SW_MASK)
149 | (data & IEEE_SW_MASK));
150 data = (data & FPCR_DYN_MASK) | ieee_swcr_to_fpcr(data);
151 }
152 *get_reg_addr(task, regno) = data;
153 return 0;
154 }
155
156 static inline int
157 read_int(struct task_struct *task, unsigned long addr, int * data)
158 {
159 int copied = access_process_vm(task, addr, data, sizeof(int), 0);
160 return (copied == sizeof(int)) ? 0 : -EIO;
161 }
162
163 static inline int
164 write_int(struct task_struct *task, unsigned long addr, int data)
165 {
166 int copied = access_process_vm(task, addr, &data, sizeof(int), 1);
167 return (copied == sizeof(int)) ? 0 : -EIO;
168 }
169
170 /*
171 * Set breakpoint.
172 */
173 int
174 ptrace_set_bpt(struct task_struct * child)
175 {
176 int displ, i, res, reg_b, nsaved = 0;
177 unsigned int insn, op_code;
178 unsigned long pc;
179
180 pc = get_reg(child, REG_PC);
181 res = read_int(child, pc, (int *) &insn);
182 if (res < 0)
183 return res;
184
185 op_code = insn >> 26;
186 if (op_code >= 0x30) {
187 /*
188 * It's a branch: instead of trying to figure out
189 * whether the branch will be taken or not, we'll put
190 * a breakpoint at either location. This is simpler,
191 * more reliable, and probably not a whole lot slower
192 * than the alternative approach of emulating the
193 * branch (emulation can be tricky for fp branches).
194 */
195 displ = ((s32)(insn << 11)) >> 9;
196 task_thread_info(child)->bpt_addr[nsaved++] = pc + 4;
197 if (displ) /* guard against unoptimized code */
198 task_thread_info(child)->bpt_addr[nsaved++]
199 = pc + 4 + displ;
200 DBG(DBG_BPT, ("execing branch\n"));
201 } else if (op_code == 0x1a) {
202 reg_b = (insn >> 16) & 0x1f;
203 task_thread_info(child)->bpt_addr[nsaved++] = get_reg(child, reg_b);
204 DBG(DBG_BPT, ("execing jump\n"));
205 } else {
206 task_thread_info(child)->bpt_addr[nsaved++] = pc + 4;
207 DBG(DBG_BPT, ("execing normal insn\n"));
208 }
209
210 /* install breakpoints: */
211 for (i = 0; i < nsaved; ++i) {
212 res = read_int(child, task_thread_info(child)->bpt_addr[i],
213 (int *) &insn);
214 if (res < 0)
215 return res;
216 task_thread_info(child)->bpt_insn[i] = insn;
217 DBG(DBG_BPT, (" -> next_pc=%lx\n",
218 task_thread_info(child)->bpt_addr[i]));
219 res = write_int(child, task_thread_info(child)->bpt_addr[i],
220 BREAKINST);
221 if (res < 0)
222 return res;
223 }
224 task_thread_info(child)->bpt_nsaved = nsaved;
225 return 0;
226 }
227
228 /*
229 * Ensure no single-step breakpoint is pending. Returns non-zero
230 * value if child was being single-stepped.
231 */
232 int
233 ptrace_cancel_bpt(struct task_struct * child)
234 {
235 int i, nsaved = task_thread_info(child)->bpt_nsaved;
236
237 task_thread_info(child)->bpt_nsaved = 0;
238
239 if (nsaved > 2) {
240 printk("ptrace_cancel_bpt: bogus nsaved: %d!\n", nsaved);
241 nsaved = 2;
242 }
243
244 for (i = 0; i < nsaved; ++i) {
245 write_int(child, task_thread_info(child)->bpt_addr[i],
246 task_thread_info(child)->bpt_insn[i]);
247 }
248 return (nsaved != 0);
249 }
250
251 void user_enable_single_step(struct task_struct *child)
252 {
253 /* Mark single stepping. */
254 task_thread_info(child)->bpt_nsaved = -1;
255 }
256
257 void user_disable_single_step(struct task_struct *child)
258 {
259 ptrace_cancel_bpt(child);
260 }
261
262 /*
263 * Called by kernel/ptrace.c when detaching..
264 *
265 * Make sure the single step bit is not set.
266 */
267 void ptrace_disable(struct task_struct *child)
268 {
269 user_disable_single_step(child);
270 }
271
272 long arch_ptrace(struct task_struct *child, long request,
273 unsigned long addr, unsigned long data)
274 {
275 unsigned long tmp;
276 size_t copied;
277 long ret;
278
279 switch (request) {
280 /* When I and D space are separate, these will need to be fixed. */
281 case PTRACE_PEEKTEXT: /* read word at location addr. */
282 case PTRACE_PEEKDATA:
283 copied = access_process_vm(child, addr, &tmp, sizeof(tmp), 0);
284 ret = -EIO;
285 if (copied != sizeof(tmp))
286 break;
287
288 force_successful_syscall_return();
289 ret = tmp;
290 break;
291
292 /* Read register number ADDR. */
293 case PTRACE_PEEKUSR:
294 force_successful_syscall_return();
295 ret = get_reg(child, addr);
296 DBG(DBG_MEM, ("peek $%lu->%#lx\n", addr, ret));
297 break;
298
299 /* When I and D space are separate, this will have to be fixed. */
300 case PTRACE_POKETEXT: /* write the word at location addr. */
301 case PTRACE_POKEDATA:
302 ret = generic_ptrace_pokedata(child, addr, data);
303 break;
304
305 case PTRACE_POKEUSR: /* write the specified register */
306 DBG(DBG_MEM, ("poke $%lu<-%#lx\n", addr, data));
307 ret = put_reg(child, addr, data);
308 break;
309 default:
310 ret = ptrace_request(child, request, addr, data);
311 break;
312 }
313 return ret;
314 }
315
316 asmlinkage void
317 syscall_trace(void)
318 {
319 if (!test_thread_flag(TIF_SYSCALL_TRACE))
320 return;
321 if (!(current->ptrace & PT_PTRACED))
322 return;
323 /* The 0x80 provides a way for the tracing parent to distinguish
324 between a syscall stop and SIGTRAP delivery */
325 ptrace_notify(SIGTRAP | ((current->ptrace & PT_TRACESYSGOOD)
326 ? 0x80 : 0));
327
328 /*
329 * This isn't the same as continuing with a signal, but it will do
330 * for normal use. strace only continues with a signal if the
331 * stopping signal is not SIGTRAP. -brl
332 */
333 if (current->exit_code) {
334 send_sig(current->exit_code, current, 1);
335 current->exit_code = 0;
336 }
337 }
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