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-rwxr-xr-xarch/x86/kernel/cpu/cpu_debug.c901
1 files changed, 901 insertions, 0 deletions
diff --git a/arch/x86/kernel/cpu/cpu_debug.c b/arch/x86/kernel/cpu/cpu_debug.c
new file mode 100755
index 00000000000..46e29ab96c6
--- /dev/null
+++ b/arch/x86/kernel/cpu/cpu_debug.c
@@ -0,0 +1,901 @@
1/*
2 * CPU x86 architecture debug code
3 *
4 * Copyright(C) 2009 Jaswinder Singh Rajput
5 *
6 * For licencing details see kernel-base/COPYING
7 */
8
9#include <linux/interrupt.h>
10#include <linux/compiler.h>
11#include <linux/seq_file.h>
12#include <linux/debugfs.h>
13#include <linux/kprobes.h>
14#include <linux/uaccess.h>
15#include <linux/kernel.h>
16#include <linux/module.h>
17#include <linux/percpu.h>
18#include <linux/signal.h>
19#include <linux/errno.h>
20#include <linux/sched.h>
21#include <linux/types.h>
22#include <linux/init.h>
23#include <linux/slab.h>
24#include <linux/smp.h>
25
26#include <asm/cpu_debug.h>
27#include <asm/paravirt.h>
28#include <asm/system.h>
29#include <asm/traps.h>
30#include <asm/apic.h>
31#include <asm/desc.h>
32
33static DEFINE_PER_CPU(struct cpu_cpuX_base, cpu_arr[CPU_REG_ALL_BIT]);
34static DEFINE_PER_CPU(struct cpu_private *, priv_arr[MAX_CPU_FILES]);
35static DEFINE_PER_CPU(unsigned, cpu_modelflag);
36static DEFINE_PER_CPU(int, cpu_priv_count);
37static DEFINE_PER_CPU(unsigned, cpu_model);
38
39static DEFINE_MUTEX(cpu_debug_lock);
40
41static struct dentry *cpu_debugfs_dir;
42
43static struct cpu_debug_base cpu_base[] = {
44 { "mc", CPU_MC, 0 },
45 { "monitor", CPU_MONITOR, 0 },
46 { "time", CPU_TIME, 0 },
47 { "pmc", CPU_PMC, 1 },
48 { "platform", CPU_PLATFORM, 0 },
49 { "apic", CPU_APIC, 0 },
50 { "poweron", CPU_POWERON, 0 },
51 { "control", CPU_CONTROL, 0 },
52 { "features", CPU_FEATURES, 0 },
53 { "lastbranch", CPU_LBRANCH, 0 },
54 { "bios", CPU_BIOS, 0 },
55 { "freq", CPU_FREQ, 0 },
56 { "mtrr", CPU_MTRR, 0 },
57 { "perf", CPU_PERF, 0 },
58 { "cache", CPU_CACHE, 0 },
59 { "sysenter", CPU_SYSENTER, 0 },
60 { "therm", CPU_THERM, 0 },
61 { "misc", CPU_MISC, 0 },
62 { "debug", CPU_DEBUG, 0 },
63 { "pat", CPU_PAT, 0 },
64 { "vmx", CPU_VMX, 0 },
65 { "call", CPU_CALL, 0 },
66 { "base", CPU_BASE, 0 },
67 { "ver", CPU_VER, 0 },
68 { "conf", CPU_CONF, 0 },
69 { "smm", CPU_SMM, 0 },
70 { "svm", CPU_SVM, 0 },
71 { "osvm", CPU_OSVM, 0 },
72 { "tss", CPU_TSS, 0 },
73 { "cr", CPU_CR, 0 },
74 { "dt", CPU_DT, 0 },
75 { "registers", CPU_REG_ALL, 0 },
76};
77
78static struct cpu_file_base cpu_file[] = {
79 { "index", CPU_REG_ALL, 0 },
80 { "value", CPU_REG_ALL, 1 },
81};
82
83/* Intel Registers Range */
84static struct cpu_debug_range cpu_intel_range[] = {
85 { 0x00000000, 0x00000001, CPU_MC, CPU_INTEL_ALL },
86 { 0x00000006, 0x00000007, CPU_MONITOR, CPU_CX_AT_XE },
87 { 0x00000010, 0x00000010, CPU_TIME, CPU_INTEL_ALL },
88 { 0x00000011, 0x00000013, CPU_PMC, CPU_INTEL_PENTIUM },
89 { 0x00000017, 0x00000017, CPU_PLATFORM, CPU_PX_CX_AT_XE },
90 { 0x0000001B, 0x0000001B, CPU_APIC, CPU_P6_CX_AT_XE },
91
92 { 0x0000002A, 0x0000002A, CPU_POWERON, CPU_PX_CX_AT_XE },
93 { 0x0000002B, 0x0000002B, CPU_POWERON, CPU_INTEL_XEON },
94 { 0x0000002C, 0x0000002C, CPU_FREQ, CPU_INTEL_XEON },
95 { 0x0000003A, 0x0000003A, CPU_CONTROL, CPU_CX_AT_XE },
96
97 { 0x00000040, 0x00000043, CPU_LBRANCH, CPU_PM_CX_AT_XE },
98 { 0x00000044, 0x00000047, CPU_LBRANCH, CPU_PM_CO_AT },
99 { 0x00000060, 0x00000063, CPU_LBRANCH, CPU_C2_AT },
100 { 0x00000064, 0x00000067, CPU_LBRANCH, CPU_INTEL_ATOM },
101
102 { 0x00000079, 0x00000079, CPU_BIOS, CPU_P6_CX_AT_XE },
103 { 0x00000088, 0x0000008A, CPU_CACHE, CPU_INTEL_P6 },
104 { 0x0000008B, 0x0000008B, CPU_BIOS, CPU_P6_CX_AT_XE },
105 { 0x0000009B, 0x0000009B, CPU_MONITOR, CPU_INTEL_XEON },
106
107 { 0x000000C1, 0x000000C2, CPU_PMC, CPU_P6_CX_AT },
108 { 0x000000CD, 0x000000CD, CPU_FREQ, CPU_CX_AT },
109 { 0x000000E7, 0x000000E8, CPU_PERF, CPU_CX_AT },
110 { 0x000000FE, 0x000000FE, CPU_MTRR, CPU_P6_CX_XE },
111
112 { 0x00000116, 0x00000116, CPU_CACHE, CPU_INTEL_P6 },
113 { 0x00000118, 0x00000118, CPU_CACHE, CPU_INTEL_P6 },
114 { 0x00000119, 0x00000119, CPU_CACHE, CPU_INTEL_PX },
115 { 0x0000011A, 0x0000011B, CPU_CACHE, CPU_INTEL_P6 },
116 { 0x0000011E, 0x0000011E, CPU_CACHE, CPU_PX_CX_AT },
117
118 { 0x00000174, 0x00000176, CPU_SYSENTER, CPU_P6_CX_AT_XE },
119 { 0x00000179, 0x0000017A, CPU_MC, CPU_PX_CX_AT_XE },
120 { 0x0000017B, 0x0000017B, CPU_MC, CPU_P6_XE },
121 { 0x00000186, 0x00000187, CPU_PMC, CPU_P6_CX_AT },
122 { 0x00000198, 0x00000199, CPU_PERF, CPU_PM_CX_AT_XE },
123 { 0x0000019A, 0x0000019A, CPU_TIME, CPU_PM_CX_AT_XE },
124 { 0x0000019B, 0x0000019D, CPU_THERM, CPU_PM_CX_AT_XE },
125 { 0x000001A0, 0x000001A0, CPU_MISC, CPU_PM_CX_AT_XE },
126
127 { 0x000001C9, 0x000001C9, CPU_LBRANCH, CPU_PM_CX_AT },
128 { 0x000001D7, 0x000001D8, CPU_LBRANCH, CPU_INTEL_XEON },
129 { 0x000001D9, 0x000001D9, CPU_DEBUG, CPU_CX_AT_XE },
130 { 0x000001DA, 0x000001DA, CPU_LBRANCH, CPU_INTEL_XEON },
131 { 0x000001DB, 0x000001DB, CPU_LBRANCH, CPU_P6_XE },
132 { 0x000001DC, 0x000001DC, CPU_LBRANCH, CPU_INTEL_P6 },
133 { 0x000001DD, 0x000001DE, CPU_LBRANCH, CPU_PX_CX_AT_XE },
134 { 0x000001E0, 0x000001E0, CPU_LBRANCH, CPU_INTEL_P6 },
135
136 { 0x00000200, 0x0000020F, CPU_MTRR, CPU_P6_CX_XE },
137 { 0x00000250, 0x00000250, CPU_MTRR, CPU_P6_CX_XE },
138 { 0x00000258, 0x00000259, CPU_MTRR, CPU_P6_CX_XE },
139 { 0x00000268, 0x0000026F, CPU_MTRR, CPU_P6_CX_XE },
140 { 0x00000277, 0x00000277, CPU_PAT, CPU_C2_AT_XE },
141 { 0x000002FF, 0x000002FF, CPU_MTRR, CPU_P6_CX_XE },
142
143 { 0x00000300, 0x00000308, CPU_PMC, CPU_INTEL_XEON },
144 { 0x00000309, 0x0000030B, CPU_PMC, CPU_C2_AT_XE },
145 { 0x0000030C, 0x00000311, CPU_PMC, CPU_INTEL_XEON },
146 { 0x00000345, 0x00000345, CPU_PMC, CPU_C2_AT },
147 { 0x00000360, 0x00000371, CPU_PMC, CPU_INTEL_XEON },
148 { 0x0000038D, 0x00000390, CPU_PMC, CPU_C2_AT },
149 { 0x000003A0, 0x000003BE, CPU_PMC, CPU_INTEL_XEON },
150 { 0x000003C0, 0x000003CD, CPU_PMC, CPU_INTEL_XEON },
151 { 0x000003E0, 0x000003E1, CPU_PMC, CPU_INTEL_XEON },
152 { 0x000003F0, 0x000003F0, CPU_PMC, CPU_INTEL_XEON },
153 { 0x000003F1, 0x000003F1, CPU_PMC, CPU_C2_AT_XE },
154 { 0x000003F2, 0x000003F2, CPU_PMC, CPU_INTEL_XEON },
155
156 { 0x00000400, 0x00000402, CPU_MC, CPU_PM_CX_AT_XE },
157 { 0x00000403, 0x00000403, CPU_MC, CPU_INTEL_XEON },
158 { 0x00000404, 0x00000406, CPU_MC, CPU_PM_CX_AT_XE },
159 { 0x00000407, 0x00000407, CPU_MC, CPU_INTEL_XEON },
160 { 0x00000408, 0x0000040A, CPU_MC, CPU_PM_CX_AT_XE },
161 { 0x0000040B, 0x0000040B, CPU_MC, CPU_INTEL_XEON },
162 { 0x0000040C, 0x0000040E, CPU_MC, CPU_PM_CX_XE },
163 { 0x0000040F, 0x0000040F, CPU_MC, CPU_INTEL_XEON },
164 { 0x00000410, 0x00000412, CPU_MC, CPU_PM_CX_AT_XE },
165 { 0x00000413, 0x00000417, CPU_MC, CPU_CX_AT_XE },
166 { 0x00000480, 0x0000048B, CPU_VMX, CPU_CX_AT_XE },
167
168 { 0x00000600, 0x00000600, CPU_DEBUG, CPU_PM_CX_AT_XE },
169 { 0x00000680, 0x0000068F, CPU_LBRANCH, CPU_INTEL_XEON },
170 { 0x000006C0, 0x000006CF, CPU_LBRANCH, CPU_INTEL_XEON },
171
172 { 0x000107CC, 0x000107D3, CPU_PMC, CPU_INTEL_XEON_MP },
173
174 { 0xC0000080, 0xC0000080, CPU_FEATURES, CPU_INTEL_XEON },
175 { 0xC0000081, 0xC0000082, CPU_CALL, CPU_INTEL_XEON },
176 { 0xC0000084, 0xC0000084, CPU_CALL, CPU_INTEL_XEON },
177 { 0xC0000100, 0xC0000102, CPU_BASE, CPU_INTEL_XEON },
178};
179
180/* AMD Registers Range */
181static struct cpu_debug_range cpu_amd_range[] = {
182 { 0x00000000, 0x00000001, CPU_MC, CPU_K10_PLUS, },
183 { 0x00000010, 0x00000010, CPU_TIME, CPU_K8_PLUS, },
184 { 0x0000001B, 0x0000001B, CPU_APIC, CPU_K8_PLUS, },
185 { 0x0000002A, 0x0000002A, CPU_POWERON, CPU_K7_PLUS },
186 { 0x0000008B, 0x0000008B, CPU_VER, CPU_K8_PLUS },
187 { 0x000000FE, 0x000000FE, CPU_MTRR, CPU_K8_PLUS, },
188
189 { 0x00000174, 0x00000176, CPU_SYSENTER, CPU_K8_PLUS, },
190 { 0x00000179, 0x0000017B, CPU_MC, CPU_K8_PLUS, },
191 { 0x000001D9, 0x000001D9, CPU_DEBUG, CPU_K8_PLUS, },
192 { 0x000001DB, 0x000001DE, CPU_LBRANCH, CPU_K8_PLUS, },
193
194 { 0x00000200, 0x0000020F, CPU_MTRR, CPU_K8_PLUS, },
195 { 0x00000250, 0x00000250, CPU_MTRR, CPU_K8_PLUS, },
196 { 0x00000258, 0x00000259, CPU_MTRR, CPU_K8_PLUS, },
197 { 0x00000268, 0x0000026F, CPU_MTRR, CPU_K8_PLUS, },
198 { 0x00000277, 0x00000277, CPU_PAT, CPU_K8_PLUS, },
199 { 0x000002FF, 0x000002FF, CPU_MTRR, CPU_K8_PLUS, },
200
201 { 0x00000400, 0x00000413, CPU_MC, CPU_K8_PLUS, },
202
203 { 0xC0000080, 0xC0000080, CPU_FEATURES, CPU_AMD_ALL, },
204 { 0xC0000081, 0xC0000084, CPU_CALL, CPU_K8_PLUS, },
205 { 0xC0000100, 0xC0000102, CPU_BASE, CPU_K8_PLUS, },
206 { 0xC0000103, 0xC0000103, CPU_TIME, CPU_K10_PLUS, },
207
208 { 0xC0010000, 0xC0010007, CPU_PMC, CPU_K8_PLUS, },
209 { 0xC0010010, 0xC0010010, CPU_CONF, CPU_K7_PLUS, },
210 { 0xC0010015, 0xC0010015, CPU_CONF, CPU_K7_PLUS, },
211 { 0xC0010016, 0xC001001A, CPU_MTRR, CPU_K8_PLUS, },
212 { 0xC001001D, 0xC001001D, CPU_MTRR, CPU_K8_PLUS, },
213 { 0xC001001F, 0xC001001F, CPU_CONF, CPU_K8_PLUS, },
214 { 0xC0010030, 0xC0010035, CPU_BIOS, CPU_K8_PLUS, },
215 { 0xC0010044, 0xC0010048, CPU_MC, CPU_K8_PLUS, },
216 { 0xC0010050, 0xC0010056, CPU_SMM, CPU_K0F_PLUS, },
217 { 0xC0010058, 0xC0010058, CPU_CONF, CPU_K10_PLUS, },
218 { 0xC0010060, 0xC0010060, CPU_CACHE, CPU_AMD_11, },
219 { 0xC0010061, 0xC0010068, CPU_SMM, CPU_K10_PLUS, },
220 { 0xC0010069, 0xC001006B, CPU_SMM, CPU_AMD_11, },
221 { 0xC0010070, 0xC0010071, CPU_SMM, CPU_K10_PLUS, },
222 { 0xC0010111, 0xC0010113, CPU_SMM, CPU_K8_PLUS, },
223 { 0xC0010114, 0xC0010118, CPU_SVM, CPU_K10_PLUS, },
224 { 0xC0010140, 0xC0010141, CPU_OSVM, CPU_K10_PLUS, },
225 { 0xC0011022, 0xC0011023, CPU_CONF, CPU_K10_PLUS, },
226};
227
228
229/* Intel */
230static int get_intel_modelflag(unsigned model)
231{
232 int flag;
233
234 switch (model) {
235 case 0x0501:
236 case 0x0502:
237 case 0x0504:
238 flag = CPU_INTEL_PENTIUM;
239 break;
240 case 0x0601:
241 case 0x0603:
242 case 0x0605:
243 case 0x0607:
244 case 0x0608:
245 case 0x060A:
246 case 0x060B:
247 flag = CPU_INTEL_P6;
248 break;
249 case 0x0609:
250 case 0x060D:
251 flag = CPU_INTEL_PENTIUM_M;
252 break;
253 case 0x060E:
254 flag = CPU_INTEL_CORE;
255 break;
256 case 0x060F:
257 case 0x0617:
258 flag = CPU_INTEL_CORE2;
259 break;
260 case 0x061C:
261 flag = CPU_INTEL_ATOM;
262 break;
263 case 0x0F00:
264 case 0x0F01:
265 case 0x0F02:
266 case 0x0F03:
267 case 0x0F04:
268 flag = CPU_INTEL_XEON_P4;
269 break;
270 case 0x0F06:
271 flag = CPU_INTEL_XEON_MP;
272 break;
273 default:
274 flag = CPU_NONE;
275 break;
276 }
277
278 return flag;
279}
280
281/* AMD */
282static int get_amd_modelflag(unsigned model)
283{
284 int flag;
285
286 switch (model >> 8) {
287 case 0x6:
288 flag = CPU_AMD_K6;
289 break;
290 case 0x7:
291 flag = CPU_AMD_K7;
292 break;
293 case 0x8:
294 flag = CPU_AMD_K8;
295 break;
296 case 0xf:
297 flag = CPU_AMD_0F;
298 break;
299 case 0x10:
300 flag = CPU_AMD_10;
301 break;
302 case 0x11:
303 flag = CPU_AMD_11;
304 break;
305 default:
306 flag = CPU_NONE;
307 break;
308 }
309
310 return flag;
311}
312
313static int get_cpu_modelflag(unsigned cpu)
314{
315 int flag;
316
317 flag = per_cpu(cpu_model, cpu);
318
319 switch (flag >> 16) {
320 case X86_VENDOR_INTEL:
321 flag = get_intel_modelflag(flag);
322 break;
323 case X86_VENDOR_AMD:
324 flag = get_amd_modelflag(flag & 0xffff);
325 break;
326 default:
327 flag = CPU_NONE;
328 break;
329 }
330
331 return flag;
332}
333
334static int get_cpu_range_count(unsigned cpu)
335{
336 int index;
337
338 switch (per_cpu(cpu_model, cpu) >> 16) {
339 case X86_VENDOR_INTEL:
340 index = ARRAY_SIZE(cpu_intel_range);
341 break;
342 case X86_VENDOR_AMD:
343 index = ARRAY_SIZE(cpu_amd_range);
344 break;
345 default:
346 index = 0;
347 break;
348 }
349
350 return index;
351}
352
353static int is_typeflag_valid(unsigned cpu, unsigned flag)
354{
355 unsigned vendor, modelflag;
356 int i, index;
357
358 /* Standard Registers should be always valid */
359 if (flag >= CPU_TSS)
360 return 1;
361
362 modelflag = per_cpu(cpu_modelflag, cpu);
363 vendor = per_cpu(cpu_model, cpu) >> 16;
364 index = get_cpu_range_count(cpu);
365
366 for (i = 0; i < index; i++) {
367 switch (vendor) {
368 case X86_VENDOR_INTEL:
369 if ((cpu_intel_range[i].model & modelflag) &&
370 (cpu_intel_range[i].flag & flag))
371 return 1;
372 break;
373 case X86_VENDOR_AMD:
374 if ((cpu_amd_range[i].model & modelflag) &&
375 (cpu_amd_range[i].flag & flag))
376 return 1;
377 break;
378 }
379 }
380
381 /* Invalid */
382 return 0;
383}
384
385static unsigned get_cpu_range(unsigned cpu, unsigned *min, unsigned *max,
386 int index, unsigned flag)
387{
388 unsigned modelflag;
389
390 modelflag = per_cpu(cpu_modelflag, cpu);
391 *max = 0;
392 switch (per_cpu(cpu_model, cpu) >> 16) {
393 case X86_VENDOR_INTEL:
394 if ((cpu_intel_range[index].model & modelflag) &&
395 (cpu_intel_range[index].flag & flag)) {
396 *min = cpu_intel_range[index].min;
397 *max = cpu_intel_range[index].max;
398 }
399 break;
400 case X86_VENDOR_AMD:
401 if ((cpu_amd_range[index].model & modelflag) &&
402 (cpu_amd_range[index].flag & flag)) {
403 *min = cpu_amd_range[index].min;
404 *max = cpu_amd_range[index].max;
405 }
406 break;
407 }
408
409 return *max;
410}
411
412/* This function can also be called with seq = NULL for printk */
413static void print_cpu_data(struct seq_file *seq, unsigned type,
414 u32 low, u32 high)
415{
416 struct cpu_private *priv;
417 u64 val = high;
418
419 if (seq) {
420 priv = seq->private;
421 if (priv->file) {
422 val = (val << 32) | low;
423 seq_printf(seq, "0x%llx\n", val);
424 } else
425 seq_printf(seq, " %08x: %08x_%08x\n",
426 type, high, low);
427 } else
428 printk(KERN_INFO " %08x: %08x_%08x\n", type, high, low);
429}
430
431/* This function can also be called with seq = NULL for printk */
432static void print_msr(struct seq_file *seq, unsigned cpu, unsigned flag)
433{
434 unsigned msr, msr_min, msr_max;
435 struct cpu_private *priv;
436 u32 low, high;
437 int i, range;
438
439 if (seq) {
440 priv = seq->private;
441 if (priv->file) {
442 if (!rdmsr_safe_on_cpu(priv->cpu, priv->reg,
443 &low, &high))
444 print_cpu_data(seq, priv->reg, low, high);
445 return;
446 }
447 }
448
449 range = get_cpu_range_count(cpu);
450
451 for (i = 0; i < range; i++) {
452 if (!get_cpu_range(cpu, &msr_min, &msr_max, i, flag))
453 continue;
454
455 for (msr = msr_min; msr <= msr_max; msr++) {
456 if (rdmsr_safe_on_cpu(cpu, msr, &low, &high))
457 continue;
458 print_cpu_data(seq, msr, low, high);
459 }
460 }
461}
462
463static void print_tss(void *arg)
464{
465 struct pt_regs *regs = task_pt_regs(current);
466 struct seq_file *seq = arg;
467 unsigned int seg;
468
469 seq_printf(seq, " RAX\t: %016lx\n", regs->ax);
470 seq_printf(seq, " RBX\t: %016lx\n", regs->bx);
471 seq_printf(seq, " RCX\t: %016lx\n", regs->cx);
472 seq_printf(seq, " RDX\t: %016lx\n", regs->dx);
473
474 seq_printf(seq, " RSI\t: %016lx\n", regs->si);
475 seq_printf(seq, " RDI\t: %016lx\n", regs->di);
476 seq_printf(seq, " RBP\t: %016lx\n", regs->bp);
477 seq_printf(seq, " ESP\t: %016lx\n", regs->sp);
478
479#ifdef CONFIG_X86_64
480 seq_printf(seq, " R08\t: %016lx\n", regs->r8);
481 seq_printf(seq, " R09\t: %016lx\n", regs->r9);
482 seq_printf(seq, " R10\t: %016lx\n", regs->r10);
483 seq_printf(seq, " R11\t: %016lx\n", regs->r11);
484 seq_printf(seq, " R12\t: %016lx\n", regs->r12);
485 seq_printf(seq, " R13\t: %016lx\n", regs->r13);
486 seq_printf(seq, " R14\t: %016lx\n", regs->r14);
487 seq_printf(seq, " R15\t: %016lx\n", regs->r15);
488#endif
489
490 asm("movl %%cs,%0" : "=r" (seg));
491 seq_printf(seq, " CS\t: %04x\n", seg);
492 asm("movl %%ds,%0" : "=r" (seg));
493 seq_printf(seq, " DS\t: %04x\n", seg);
494 seq_printf(seq, " SS\t: %04lx\n", regs->ss & 0xffff);
495 asm("movl %%es,%0" : "=r" (seg));
496 seq_printf(seq, " ES\t: %04x\n", seg);
497 asm("movl %%fs,%0" : "=r" (seg));
498 seq_printf(seq, " FS\t: %04x\n", seg);
499 asm("movl %%gs,%0" : "=r" (seg));
500 seq_printf(seq, " GS\t: %04x\n", seg);
501
502 seq_printf(seq, " EFLAGS\t: %016lx\n", regs->flags);
503
504 seq_printf(seq, " EIP\t: %016lx\n", regs->ip);
505}
506
507static void print_cr(void *arg)
508{
509 struct seq_file *seq = arg;
510
511 seq_printf(seq, " cr0\t: %016lx\n", read_cr0());
512 seq_printf(seq, " cr2\t: %016lx\n", read_cr2());
513 seq_printf(seq, " cr3\t: %016lx\n", read_cr3());
514 seq_printf(seq, " cr4\t: %016lx\n", read_cr4_safe());
515#ifdef CONFIG_X86_64
516 seq_printf(seq, " cr8\t: %016lx\n", read_cr8());
517#endif
518}
519
520static void print_desc_ptr(char *str, struct seq_file *seq, struct desc_ptr dt)
521{
522 seq_printf(seq, " %s\t: %016llx\n", str, (u64)(dt.address | dt.size));
523}
524
525static void print_dt(void *seq)
526{
527 struct desc_ptr dt;
528 unsigned long ldt;
529
530 /* IDT */
531 store_idt((struct desc_ptr *)&dt);
532 print_desc_ptr("IDT", seq, dt);
533
534 /* GDT */
535 store_gdt((struct desc_ptr *)&dt);
536 print_desc_ptr("GDT", seq, dt);
537
538 /* LDT */
539 store_ldt(ldt);
540 seq_printf(seq, " LDT\t: %016lx\n", ldt);
541
542 /* TR */
543 store_tr(ldt);
544 seq_printf(seq, " TR\t: %016lx\n", ldt);
545}
546
547static void print_dr(void *arg)
548{
549 struct seq_file *seq = arg;
550 unsigned long dr;
551 int i;
552
553 for (i = 0; i < 8; i++) {
554 /* Ignore db4, db5 */
555 if ((i == 4) || (i == 5))
556 continue;
557 get_debugreg(dr, i);
558 seq_printf(seq, " dr%d\t: %016lx\n", i, dr);
559 }
560
561 seq_printf(seq, "\n MSR\t:\n");
562}
563
564static void print_apic(void *arg)
565{
566 struct seq_file *seq = arg;
567
568#ifdef CONFIG_X86_LOCAL_APIC
569 seq_printf(seq, " LAPIC\t:\n");
570 seq_printf(seq, " ID\t\t: %08x\n", apic_read(APIC_ID) >> 24);
571 seq_printf(seq, " LVR\t\t: %08x\n", apic_read(APIC_LVR));
572 seq_printf(seq, " TASKPRI\t: %08x\n", apic_read(APIC_TASKPRI));
573 seq_printf(seq, " ARBPRI\t\t: %08x\n", apic_read(APIC_ARBPRI));
574 seq_printf(seq, " PROCPRI\t: %08x\n", apic_read(APIC_PROCPRI));
575 seq_printf(seq, " LDR\t\t: %08x\n", apic_read(APIC_LDR));
576 seq_printf(seq, " DFR\t\t: %08x\n", apic_read(APIC_DFR));
577 seq_printf(seq, " SPIV\t\t: %08x\n", apic_read(APIC_SPIV));
578 seq_printf(seq, " ISR\t\t: %08x\n", apic_read(APIC_ISR));
579 seq_printf(seq, " ESR\t\t: %08x\n", apic_read(APIC_ESR));
580 seq_printf(seq, " ICR\t\t: %08x\n", apic_read(APIC_ICR));
581 seq_printf(seq, " ICR2\t\t: %08x\n", apic_read(APIC_ICR2));
582 seq_printf(seq, " LVTT\t\t: %08x\n", apic_read(APIC_LVTT));
583 seq_printf(seq, " LVTTHMR\t: %08x\n", apic_read(APIC_LVTTHMR));
584 seq_printf(seq, " LVTPC\t\t: %08x\n", apic_read(APIC_LVTPC));
585 seq_printf(seq, " LVT0\t\t: %08x\n", apic_read(APIC_LVT0));
586 seq_printf(seq, " LVT1\t\t: %08x\n", apic_read(APIC_LVT1));
587 seq_printf(seq, " LVTERR\t\t: %08x\n", apic_read(APIC_LVTERR));
588 seq_printf(seq, " TMICT\t\t: %08x\n", apic_read(APIC_TMICT));
589 seq_printf(seq, " TMCCT\t\t: %08x\n", apic_read(APIC_TMCCT));
590 seq_printf(seq, " TDCR\t\t: %08x\n", apic_read(APIC_TDCR));
591#endif /* CONFIG_X86_LOCAL_APIC */
592
593 seq_printf(seq, "\n MSR\t:\n");
594}
595
596static int cpu_seq_show(struct seq_file *seq, void *v)
597{
598 struct cpu_private *priv = seq->private;
599
600 if (priv == NULL)
601 return -EINVAL;
602
603 switch (cpu_base[priv->type].flag) {
604 case CPU_TSS:
605 smp_call_function_single(priv->cpu, print_tss, seq, 1);
606 break;
607 case CPU_CR:
608 smp_call_function_single(priv->cpu, print_cr, seq, 1);
609 break;
610 case CPU_DT:
611 smp_call_function_single(priv->cpu, print_dt, seq, 1);
612 break;
613 case CPU_DEBUG:
614 if (priv->file == CPU_INDEX_BIT)
615 smp_call_function_single(priv->cpu, print_dr, seq, 1);
616 print_msr(seq, priv->cpu, cpu_base[priv->type].flag);
617 break;
618 case CPU_APIC:
619 if (priv->file == CPU_INDEX_BIT)
620 smp_call_function_single(priv->cpu, print_apic, seq, 1);
621 print_msr(seq, priv->cpu, cpu_base[priv->type].flag);
622 break;
623
624 default:
625 print_msr(seq, priv->cpu, cpu_base[priv->type].flag);
626 break;
627 }
628 seq_printf(seq, "\n");
629
630 return 0;
631}
632
633static void *cpu_seq_start(struct seq_file *seq, loff_t *pos)
634{
635 if (*pos == 0) /* One time is enough ;-) */
636 return seq;
637
638 return NULL;
639}
640
641static void *cpu_seq_next(struct seq_file *seq, void *v, loff_t *pos)
642{
643 (*pos)++;
644
645 return cpu_seq_start(seq, pos);
646}
647
648static void cpu_seq_stop(struct seq_file *seq, void *v)
649{
650}
651
652static const struct seq_operations cpu_seq_ops = {
653 .start = cpu_seq_start,
654 .next = cpu_seq_next,
655 .stop = cpu_seq_stop,
656 .show = cpu_seq_show,
657};
658
659static int cpu_seq_open(struct inode *inode, struct file *file)
660{
661 struct cpu_private *priv = inode->i_private;
662 struct seq_file *seq;
663 int err;
664
665 err = seq_open(file, &cpu_seq_ops);
666 if (!err) {
667 seq = file->private_data;
668 seq->private = priv;
669 }
670
671 return err;
672}
673
674static int write_msr(struct cpu_private *priv, u64 val)
675{
676 u32 low, high;
677
678 high = (val >> 32) & 0xffffffff;
679 low = val & 0xffffffff;
680
681 if (!wrmsr_safe_on_cpu(priv->cpu, priv->reg, low, high))
682 return 0;
683
684 return -EPERM;
685}
686
687static int write_cpu_register(struct cpu_private *priv, const char *buf)
688{
689 int ret = -EPERM;
690 u64 val;
691
692 ret = strict_strtoull(buf, 0, &val);
693 if (ret < 0)
694 return ret;
695
696 /* Supporting only MSRs */
697 if (priv->type < CPU_TSS_BIT)
698 return write_msr(priv, val);
699
700 return ret;
701}
702
703static ssize_t cpu_write(struct file *file, const char __user *ubuf,
704 size_t count, loff_t *off)
705{
706 struct seq_file *seq = file->private_data;
707 struct cpu_private *priv = seq->private;
708 char buf[19];
709
710 if ((priv == NULL) || (count >= sizeof(buf)))
711 return -EINVAL;
712
713 if (copy_from_user(&buf, ubuf, count))
714 return -EFAULT;
715
716 buf[count] = 0;
717
718 if ((cpu_base[priv->type].write) && (cpu_file[priv->file].write))
719 if (!write_cpu_register(priv, buf))
720 return count;
721
722 return -EACCES;
723}
724
725static const struct file_operations cpu_fops = {
726 .owner = THIS_MODULE,
727 .open = cpu_seq_open,
728 .read = seq_read,
729 .write = cpu_write,
730 .llseek = seq_lseek,
731 .release = seq_release,
732};
733
734static int cpu_create_file(unsigned cpu, unsigned type, unsigned reg,
735 unsigned file, struct dentry *dentry)
736{
737 struct cpu_private *priv = NULL;
738
739 /* Already intialized */
740 if (file == CPU_INDEX_BIT)
741 if (per_cpu(cpu_arr[type].init, cpu))
742 return 0;
743
744 priv = kzalloc(sizeof(*priv), GFP_KERNEL);
745 if (priv == NULL)
746 return -ENOMEM;
747
748 priv->cpu = cpu;
749 priv->type = type;
750 priv->reg = reg;
751 priv->file = file;
752 mutex_lock(&cpu_debug_lock);
753 per_cpu(priv_arr[type], cpu) = priv;
754 per_cpu(cpu_priv_count, cpu)++;
755 mutex_unlock(&cpu_debug_lock);
756
757 if (file)
758 debugfs_create_file(cpu_file[file].name, S_IRUGO,
759 dentry, (void *)priv, &cpu_fops);
760 else {
761 debugfs_create_file(cpu_base[type].name, S_IRUGO,
762 per_cpu(cpu_arr[type].dentry, cpu),
763 (void *)priv, &cpu_fops);
764 mutex_lock(&cpu_debug_lock);
765 per_cpu(cpu_arr[type].init, cpu) = 1;
766 mutex_unlock(&cpu_debug_lock);
767 }
768
769 return 0;
770}
771
772static int cpu_init_regfiles(unsigned cpu, unsigned int type, unsigned reg,
773 struct dentry *dentry)
774{
775 unsigned file;
776 int err = 0;
777
778 for (file = 0; file < ARRAY_SIZE(cpu_file); file++) {
779 err = cpu_create_file(cpu, type, reg, file, dentry);
780 if (err)
781 return err;
782 }
783
784 return err;
785}
786
787static int cpu_init_msr(unsigned cpu, unsigned type, struct dentry *dentry)
788{
789 struct dentry *cpu_dentry = NULL;
790 unsigned reg, reg_min, reg_max;
791 int i, range, err = 0;
792 char reg_dir[12];
793 u32 low, high;
794
795 range = get_cpu_range_count(cpu);
796
797 for (i = 0; i < range; i++) {
798 if (!get_cpu_range(cpu, &reg_min, &reg_max, i,
799 cpu_base[type].flag))
800 continue;
801
802 for (reg = reg_min; reg <= reg_max; reg++) {
803 if (rdmsr_safe_on_cpu(cpu, reg, &low, &high))
804 continue;
805
806 sprintf(reg_dir, "0x%x", reg);
807 cpu_dentry = debugfs_create_dir(reg_dir, dentry);
808 err = cpu_init_regfiles(cpu, type, reg, cpu_dentry);
809 if (err)
810 return err;
811 }
812 }
813
814 return err;
815}
816
817static int cpu_init_allreg(unsigned cpu, struct dentry *dentry)
818{
819 struct dentry *cpu_dentry = NULL;
820 unsigned type;
821 int err = 0;
822
823 for (type = 0; type < ARRAY_SIZE(cpu_base) - 1; type++) {
824 if (!is_typeflag_valid(cpu, cpu_base[type].flag))
825 continue;
826 cpu_dentry = debugfs_create_dir(cpu_base[type].name, dentry);
827 per_cpu(cpu_arr[type].dentry, cpu) = cpu_dentry;
828
829 if (type < CPU_TSS_BIT)
830 err = cpu_init_msr(cpu, type, cpu_dentry);
831 else
832 err = cpu_create_file(cpu, type, 0, CPU_INDEX_BIT,
833 cpu_dentry);
834 if (err)
835 return err;
836 }
837
838 return err;
839}
840
841static int cpu_init_cpu(void)
842{
843 struct dentry *cpu_dentry = NULL;
844 struct cpuinfo_x86 *cpui;
845 char cpu_dir[12];
846 unsigned cpu;
847 int err = 0;
848
849 for (cpu = 0; cpu < nr_cpu_ids; cpu++) {
850 cpui = &cpu_data(cpu);
851 if (!cpu_has(cpui, X86_FEATURE_MSR))
852 continue;
853 per_cpu(cpu_model, cpu) = ((cpui->x86_vendor << 16) |
854 (cpui->x86 << 8) |
855 (cpui->x86_model));
856 per_cpu(cpu_modelflag, cpu) = get_cpu_modelflag(cpu);
857
858 sprintf(cpu_dir, "cpu%d", cpu);
859 cpu_dentry = debugfs_create_dir(cpu_dir, cpu_debugfs_dir);
860 err = cpu_init_allreg(cpu, cpu_dentry);
861
862 pr_info("cpu%d(%d) debug files %d\n",
863 cpu, nr_cpu_ids, per_cpu(cpu_priv_count, cpu));
864 if (per_cpu(cpu_priv_count, cpu) > MAX_CPU_FILES) {
865 pr_err("Register files count %d exceeds limit %d\n",
866 per_cpu(cpu_priv_count, cpu), MAX_CPU_FILES);
867 per_cpu(cpu_priv_count, cpu) = MAX_CPU_FILES;
868 err = -ENFILE;
869 }
870 if (err)
871 return err;
872 }
873
874 return err;
875}
876
877static int __init cpu_debug_init(void)
878{
879 cpu_debugfs_dir = debugfs_create_dir("cpu", arch_debugfs_dir);
880
881 return cpu_init_cpu();
882}
883
884static void __exit cpu_debug_exit(void)
885{
886 int i, cpu;
887
888 if (cpu_debugfs_dir)
889 debugfs_remove_recursive(cpu_debugfs_dir);
890
891 for (cpu = 0; cpu < nr_cpu_ids; cpu++)
892 for (i = 0; i < per_cpu(cpu_priv_count, cpu); i++)
893 kfree(per_cpu(priv_arr[i], cpu));
894}
895
896module_init(cpu_debug_init);
897module_exit(cpu_debug_exit);
898
899MODULE_AUTHOR("Jaswinder Singh Rajput");
900MODULE_DESCRIPTION("CPU Debug module");
901MODULE_LICENSE("GPL");
generated by cgit v1.2.2 (git 2.25.0) at 2025-10-02 09:55:36 -0400