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29 
30 // stackwalker_selftest.cc: Tests StackwalkerX86 or StackwalkerPPC using the
31 // running process' stack as test data, if running on an x86 or ppc and
32 // compiled with gcc.  This test is not enabled in the "make check" suite
33 // by default, because certain optimizations interfere with its proper
34 // operation.  To turn it on, configure with --enable-selftest.
35 //
36 // Optimizations that cause problems:
37 //  - stack frame reuse.  The Recursor function here calls itself with
38 //    |return Recursor|.  When the caller's frame is reused, it will cause
39 //    CountCallerFrames to correctly return the same number of frames
40 //    in both the caller and callee.  This is considered an unexpected
41 //    condition in the test, which expects a callee to have one more
42 //    caller frame in the stack than its caller.
43 //  - frame pointer omission.  Even with a stackwalker that understands
44 //    this optimization, the code to harness debug information currently
45 //    only exists to retrieve it from minidumps, not the current process.
46 //
47 // This test can also serve as a developmental and debugging aid if
48 // PRINT_STACKS is defined.
49 //
50 // Author: Mark Mentovai
51 
52 #include <assert.h>
53 
54 #include "processor/logging.h"
55 
56 #if defined(__i386) && !defined(__i386__)
57 #define __i386__
58 #endif
59 #if defined(__sparc) && !defined(__sparc__)
60 #define __sparc__
61 #endif
62 
63 #if (defined(__SUNPRO_CC) || defined(__GNUC__)) && \
64     (defined(__i386__) || defined(__ppc__) || defined(__sparc__))
65 
66 
67 #include <stdio.h>
68 
69 #include "common/scoped_ptr.h"
70 #include "google_breakpad/common/breakpad_types.h"
71 #include "google_breakpad/common/minidump_format.h"
72 #include "google_breakpad/processor/basic_source_line_resolver.h"
73 #include "google_breakpad/processor/call_stack.h"
74 #include "google_breakpad/processor/code_module.h"
75 #include "google_breakpad/processor/memory_region.h"
76 #include "google_breakpad/processor/stack_frame.h"
77 #include "google_breakpad/processor/stack_frame_cpu.h"
78 
79 using google_breakpad::BasicSourceLineResolver;
80 using google_breakpad::CallStack;
81 using google_breakpad::CodeModule;
82 using google_breakpad::MemoryRegion;
83 using google_breakpad::scoped_ptr;
84 using google_breakpad::StackFrame;
85 using google_breakpad::StackFramePPC;
86 using google_breakpad::StackFrameX86;
87 using google_breakpad::StackFrameSPARC;
88 
89 #if defined(__i386__)
90 #include "processor/stackwalker_x86.h"
91 using google_breakpad::StackwalkerX86;
92 #elif defined(__ppc__)
93 #include "processor/stackwalker_ppc.h"
94 using google_breakpad::StackwalkerPPC;
95 #elif defined(__sparc__)
96 #include "processor/stackwalker_sparc.h"
97 using google_breakpad::StackwalkerSPARC;
98 #endif  // __i386__ || __ppc__ || __sparc__
99 
100 #define RECURSION_DEPTH 100
101 
102 
103 // A simple MemoryRegion subclass that provides direct access to this
104 // process' memory space by pointer.
105 class SelfMemoryRegion : public MemoryRegion {
106  public:
GetBase() const107   virtual uint64_t GetBase() const { return 0; }
GetSize() const108   virtual uint32_t GetSize() const { return 0xffffffff; }
109 
GetMemoryAtAddress(uint64_t address,uint8_t * value) const110   bool GetMemoryAtAddress(uint64_t address, uint8_t*  value) const {
111       return GetMemoryAtAddressInternal(address, value); }
GetMemoryAtAddress(uint64_t address,uint16_t * value) const112   bool GetMemoryAtAddress(uint64_t address, uint16_t* value) const {
113       return GetMemoryAtAddressInternal(address, value); }
GetMemoryAtAddress(uint64_t address,uint32_t * value) const114   bool GetMemoryAtAddress(uint64_t address, uint32_t* value) const {
115       return GetMemoryAtAddressInternal(address, value); }
GetMemoryAtAddress(uint64_t address,uint64_t * value) const116   bool GetMemoryAtAddress(uint64_t address, uint64_t* value) const {
117       return GetMemoryAtAddressInternal(address, value); }
Print() const118   void Print() const {
119     assert(false);
120   }
121 
122  private:
GetMemoryAtAddressInternal(uint64_t address,T * value)123   template<typename T> bool GetMemoryAtAddressInternal(uint64_t address,
124                                                        T*        value) {
125     // Without knowing what addresses are actually mapped, just assume that
126     // everything low is not mapped.  This helps the stackwalker catch the
127     // end of a stack when it tries to dereference a null or low pointer
128     // in an attempt to find the caller frame.  Other unmapped accesses will
129     // cause the program to crash, but that would properly be a test failure.
130     if (address < 0x100)
131       return false;
132 
133     uint8_t* memory = 0;
134     *value = *reinterpret_cast<const T*>(&memory[address]);
135     return true;
136   }
137 };
138 
139 
140 #if defined(__GNUC__)
141 
142 
143 #if defined(__i386__)
144 
145 // GetEBP returns the current value of the %ebp register.  Because it's
146 // implemented as a function, %ebp itself contains GetEBP's frame pointer
147 // and not the caller's frame pointer.  Dereference %ebp to obtain the
148 // caller's frame pointer, which the compiler-generated preamble stored
149 // on the stack (provided frame pointers are not being omitted.)  Because
150 // this function depends on the compiler-generated preamble, inlining is
151 // disabled.
152 static uint32_t GetEBP() __attribute__((noinline));
GetEBP()153 static uint32_t GetEBP() {
154   uint32_t ebp;
155   __asm__ __volatile__(
156     "movl (%%ebp), %0"
157     : "=a" (ebp)
158   );
159   return ebp;
160 }
161 
162 
163 // The caller's %esp is 8 higher than the value of %ebp in this function,
164 // assuming that it's not inlined and that the standard prolog is used.
165 // The CALL instruction places a 4-byte return address on the stack above
166 // the caller's %esp, and this function's prolog will save the caller's %ebp
167 // on the stack as well, for another 4 bytes, before storing %esp in %ebp.
168 static uint32_t GetESP() __attribute__((noinline));
GetESP()169 static uint32_t GetESP() {
170   uint32_t ebp;
171   __asm__ __volatile__(
172     "movl %%ebp, %0"
173     : "=a" (ebp)
174   );
175   return ebp + 8;
176 }
177 
178 
179 // GetEIP returns the instruction pointer identifying the next instruction
180 // to execute after GetEIP returns.  It obtains this information from the
181 // stack, where it was placed by the call instruction that called GetEIP.
182 // This function depends on frame pointers not being omitted.  It is possible
183 // to write a pure asm version of this routine that has no compiler-generated
184 // preamble and uses %esp instead of %ebp; that would function in the
185 // absence of frame pointers.  However, the simpler approach is used here
186 // because GetEBP and stackwalking necessarily depends on access to frame
187 // pointers.  Because this function depends on a call instruction and the
188 // compiler-generated preamble, inlining is disabled.
189 static uint32_t GetEIP() __attribute__((noinline));
GetEIP()190 static uint32_t GetEIP() {
191   uint32_t eip;
192   __asm__ __volatile__(
193     "movl 4(%%ebp), %0"
194     : "=a" (eip)
195   );
196   return eip;
197 }
198 
199 
200 #elif defined(__ppc__)
201 
202 
203 // GetSP returns the current value of the %r1 register, which by convention,
204 // is the stack pointer on ppc.  Because it's implemented as a function,
205 // %r1 itself contains GetSP's own stack pointer and not the caller's stack
206 // pointer.  Dereference %r1 to obtain the caller's stack pointer, which the
207 // compiler-generated prolog stored on the stack.  Because this function
208 // depends on the compiler-generated prolog, inlining is disabled.
209 static uint32_t GetSP() __attribute__((noinline));
GetSP()210 static uint32_t GetSP() {
211   uint32_t sp;
212   __asm__ __volatile__(
213     "lwz %0, 0(r1)"
214     : "=r" (sp)
215   );
216   return sp;
217 }
218 
219 
220 // GetPC returns the program counter identifying the next instruction to
221 // execute after GetPC returns.  It obtains this information from the
222 // link register, where it was placed by the branch instruction that called
223 // GetPC.  Because this function depends on the caller's use of a branch
224 // instruction, inlining is disabled.
225 static uint32_t GetPC() __attribute__((noinline));
GetPC()226 static uint32_t GetPC() {
227   uint32_t lr;
228   __asm__ __volatile__(
229     "mflr %0"
230     : "=r" (lr)
231   );
232   return lr;
233 }
234 
235 
236 #elif defined(__sparc__)
237 
238 
239 // GetSP returns the current value of the %sp/%o6/%g_r[14] register, which
240 // by convention, is the stack pointer on sparc.  Because it's implemented
241 // as a function, %sp itself contains GetSP's own stack pointer and not
242 // the caller's stack pointer.  Dereference  to obtain the caller's stack
243 // pointer, which the compiler-generated prolog stored on the stack.
244 // Because this function depends on the compiler-generated prolog, inlining
245 // is disabled.
246 static uint32_t GetSP() __attribute__((noinline));
GetSP()247 static uint32_t GetSP() {
248   uint32_t sp;
249   __asm__ __volatile__(
250     "mov %%fp, %0"
251     : "=r" (sp)
252   );
253   return sp;
254 }
255 
256 // GetFP returns the current value of the %fp register.  Because it's
257 // implemented as a function, %fp itself contains GetFP's frame pointer
258 // and not the caller's frame pointer.  Dereference %fp to obtain the
259 // caller's frame pointer, which the compiler-generated preamble stored
260 // on the stack (provided frame pointers are not being omitted.)  Because
261 // this function depends on the compiler-generated preamble, inlining is
262 // disabled.
263 static uint32_t GetFP() __attribute__((noinline));
GetFP()264 static uint32_t GetFP() {
265   uint32_t fp;
266   __asm__ __volatile__(
267     "ld [%%fp+56], %0"
268     : "=r" (fp)
269   );
270   return fp;
271 }
272 
273 // GetPC returns the program counter identifying the next instruction to
274 // execute after GetPC returns.  It obtains this information from the
275 // link register, where it was placed by the branch instruction that called
276 // GetPC.  Because this function depends on the caller's use of a branch
277 // instruction, inlining is disabled.
278 static uint32_t GetPC() __attribute__((noinline));
GetPC()279 static uint32_t GetPC() {
280   uint32_t pc;
281   __asm__ __volatile__(
282     "mov %%i7, %0"
283     : "=r" (pc)
284   );
285   return pc + 8;
286 }
287 
288 #endif  // __i386__ || __ppc__ || __sparc__
289 
290 #elif defined(__SUNPRO_CC)
291 
292 #if defined(__i386__)
293 extern "C" {
294 extern uint32_t GetEIP();
295 extern uint32_t GetEBP();
296 extern uint32_t GetESP();
297 }
298 #elif defined(__sparc__)
299 extern "C" {
300 extern uint32_t GetPC();
301 extern uint32_t GetFP();
302 extern uint32_t GetSP();
303 }
304 #endif // __i386__ || __sparc__
305 
306 #endif // __GNUC__ || __SUNPRO_CC
307 
308 // CountCallerFrames returns the number of stack frames beneath the function
309 // that called CountCallerFrames.  Because this function's return value
310 // is dependent on the size of the stack beneath it, inlining is disabled,
311 // and any function that calls this should not be inlined either.
312 #if defined(__GNUC__)
313 static unsigned int CountCallerFrames() __attribute__((noinline));
314 #elif defined(__SUNPRO_CC)
315 static unsigned int CountCallerFrames();
316 #endif
CountCallerFrames()317 static unsigned int CountCallerFrames() {
318   SelfMemoryRegion memory;
319   BasicSourceLineResolver resolver;
320 
321 #if defined(__i386__)
322   MDRawContextX86 context = MDRawContextX86();
323   context.eip = GetEIP();
324   context.ebp = GetEBP();
325   context.esp = GetESP();
326 
327   StackwalkerX86 stackwalker = StackwalkerX86(NULL, &context, &memory, NULL,
328                                               NULL, &resolver);
329 #elif defined(__ppc__)
330   MDRawContextPPC context = MDRawContextPPC();
331   context.srr0 = GetPC();
332   context.gpr[1] = GetSP();
333 
334   StackwalkerPPC stackwalker = StackwalkerPPC(NULL, &context, &memory, NULL,
335                                               NULL, &resolver);
336 #elif defined(__sparc__)
337   MDRawContextSPARC context = MDRawContextSPARC();
338   context.pc = GetPC();
339   context.g_r[14] = GetSP();
340   context.g_r[30] = GetFP();
341 
342   StackwalkerSPARC stackwalker = StackwalkerSPARC(NULL, &context, &memory,
343                                                   NULL, NULL, &resolver);
344 #endif  // __i386__ || __ppc__ || __sparc__
345 
346   CallStack stack;
347   vector<const CodeModule*> modules_without_symbols;
348   stackwalker.Walk(&stack, &modules_without_symbols);
349 
350 #ifdef PRINT_STACKS
351   printf("\n");
352   for (unsigned int frame_index = 0;
353       frame_index < stack.frames()->size();
354       ++frame_index) {
355     StackFrame *frame = stack.frames()->at(frame_index);
356     printf("frame %-3d  instruction = 0x%08" PRIx64,
357            frame_index, frame->instruction);
358 #if defined(__i386__)
359     StackFrameX86 *frame_x86 = reinterpret_cast<StackFrameX86*>(frame);
360     printf("  esp = 0x%08x  ebp = 0x%08x\n",
361            frame_x86->context.esp, frame_x86->context.ebp);
362 #elif defined(__ppc__)
363     StackFramePPC *frame_ppc = reinterpret_cast<StackFramePPC*>(frame);
364     printf("  gpr[1] = 0x%08x\n", frame_ppc->context.gpr[1]);
365 #elif defined(__sparc__)
366     StackFrameSPARC *frame_sparc = reinterpret_cast<StackFrameSPARC*>(frame);
367     printf("  sp = 0x%08x  fp = 0x%08x\n",
368            frame_sparc->context.g_r[14], frame_sparc->context.g_r[30]);
369 #endif  // __i386__ || __ppc__ || __sparc__
370   }
371 #endif  // PRINT_STACKS
372 
373   // Subtract 1 because the caller wants the number of frames beneath
374   // itself.  Because the caller called us, subract two for our frame and its
375   // frame, which are included in stack.size().
376   return stack.frames()->size() - 2;
377 }
378 
379 
380 // Recursor verifies that the number stack frames beneath itself is one more
381 // than the number of stack frames beneath its parent.  When depth frames
382 // have been reached, Recursor stops checking and returns success.  If the
383 // frame count check fails at any depth, Recursor will stop and return false.
384 // Because this calls CountCallerFrames, inlining is disabled.
385 #if defined(__GNUC__)
386 static bool Recursor(unsigned int depth, unsigned int parent_callers)
387     __attribute__((noinline));
388 #elif defined(__SUNPRO_CC)
389 static bool Recursor(unsigned int depth, unsigned int parent_callers);
390 #endif
Recursor(unsigned int depth,unsigned int parent_callers)391 static bool Recursor(unsigned int depth, unsigned int parent_callers) {
392   unsigned int callers = CountCallerFrames();
393   if (callers != parent_callers + 1)
394     return false;
395 
396   if (depth)
397     return Recursor(depth - 1, callers);
398 
399   // depth == 0
400   return true;
401 }
402 
403 
404 // Because this calls CountCallerFrames, inlining is disabled - but because
405 // it's main (and nobody calls it other than the entry point), it wouldn't
406 // be inlined anyway.
407 #if defined(__GNUC__)
408 int main(int argc, char** argv) __attribute__((noinline));
409 #elif defined(__SUNPRO_CC)
410 int main(int argc, char** argv);
411 #endif
main(int argc,char ** argv)412 int main(int argc, char** argv) {
413   BPLOG_INIT(&argc, &argv);
414 
415   return Recursor(RECURSION_DEPTH, CountCallerFrames()) ? 0 : 1;
416 }
417 
418 
419 #else
420 // Not i386 or ppc or sparc?  We can only test stacks we know how to walk.
421 
422 
main(int argc,char ** argv)423 int main(int argc, char **argv) {
424   BPLOG_INIT(&argc, &argv);
425 
426   // "make check" interprets an exit status of 77 to mean that the test is
427   // not supported.
428   BPLOG(ERROR) << "Selftest not supported here";
429   return 77;
430 }
431 
432 
433 #endif  // (__GNUC__ || __SUNPRO_CC) && (__i386__ || __ppc__ || __sparc__)
434