lib/asan/asan_stack.cc - platform/external/compiler-rt - Gitiles

 //===-- asan_stack.cc -------------------------------------------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // This file is a part of AddressSanitizer, an address sanity checker.
 //
 // Code for ASan stack trace.
 //===----------------------------------------------------------------------===//
 #include "asan_interceptors.h"
 #include "asan_lock.h"
 #include "asan_procmaps.h"
 #include "asan_stack.h"
 #include "asan_thread.h"
 #include "asan_thread_registry.h"

 #include <string.h>

 #if ASAN_USE_SYSINFO == 1
 #include "sysinfo/sysinfo.h"
 #endif

 #ifdef ASAN_USE_EXTERNAL_SYMBOLIZER
 extern bool
 ASAN_USE_EXTERNAL_SYMBOLIZER(const void *pc, char *out, int out_size);
 #endif

 namespace __asan {

 // ----------------------- ProcSelfMaps ----------------------------- {{{1
 #if ASAN_USE_SYSINFO == 1
 class ProcSelfMaps {
  public:
   void Init() {
     ScopedLock lock(&mu_);
     if (map_size_ != 0) return;  // already inited
     if (FLAG_v >= 2) {
       Printf("ProcSelfMaps::Init()\n");
     }
     ProcMapsIterator it(0, &proc_self_maps_);   // 0 means "current pid"

     uint64 start, end, offset;
     int64 inode;
     char *flags, *filename;
     CHECK(map_size_ == 0);
     while (it.Next(&start, &end, &flags, &offset, &inode, &filename)) {
       CHECK(map_size_ < kMaxProcSelfMapsSize);
       Mapping &mapping = memory_map[map_size_];
       mapping.beg = start;
       mapping.end = end;
       mapping.offset = offset;
       real_strncpy(mapping.name,
                    filename, ASAN_ARRAY_SIZE(mapping.name));
       mapping.name[ASAN_ARRAY_SIZE(mapping.name) - 1] = 0;
       if (FLAG_v >= 2) {
         Printf("[%ld] [%p,%p] off %p %s\n", map_size_,
                mapping.beg, mapping.end, mapping.offset, mapping.name);
       }
       map_size_++;
     }
   }

   void Print() {
     Printf("%s\n", proc_self_maps_);
   }

   void PrintPc(uintptr_t pc, int idx) {
     for (size_t i = 0; i < map_size_; i++) {
       Mapping &m = memory_map[i];
       if (pc >= m.beg && pc < m.end) {
         uintptr_t offset = pc - m.beg;
         if (i == 0) offset = pc;
         Printf("    #%d 0x%lx (%s+0x%lx)\n", idx, pc, m.name, offset);
         return;
       }
     }
     Printf("  #%d 0x%lx\n", idx, pc);
   }

  private:
   void copy_until_new_line(const char *str, char *dest, size_t max_size) {
     size_t i = 0;
     for (; str[i] && str[i] != '\n' && i < max_size - 1; i++) {
       dest[i] = str[i];
     }
     dest[i] = 0;
   }


   struct Mapping {
     uintptr_t beg, end, offset;
     char name[1000];
   };
   static const size_t kMaxNumMapEntries = 4096;
   static const size_t kMaxProcSelfMapsSize = 1 << 20;
   ProcMapsIterator::Buffer proc_self_maps_;
   size_t map_size_;
   Mapping memory_map[kMaxNumMapEntries];

   static AsanLock mu_;
 };

 static ProcSelfMaps proc_self_maps;
 AsanLock ProcSelfMaps::mu_(LINKER_INITIALIZED);


 void AsanStackTrace::PrintStack(uintptr_t *addr, size_t size) {
   proc_self_maps.Init();
   for (size_t i = 0; i < size && addr[i]; i++) {
     uintptr_t pc = addr[i];
     // int line;
     proc_self_maps.PrintPc(pc, i);
     // Printf("  #%ld 0x%lx %s\n", i, pc, rtn.c_str());
   }
 }
 #elif defined(ASAN_USE_EXTERNAL_SYMBOLIZER)
 void AsanStackTrace::PrintStack(uintptr_t *addr, size_t size) {
   for (size_t i = 0; i < size && addr[i]; i++) {
     uintptr_t pc = addr[i];
     char buff[4096];
     ASAN_USE_EXTERNAL_SYMBOLIZER((void*)pc, buff, sizeof(buff));
     Printf("  #%ld 0x%lx %s\n", i, pc, buff);
   }
 }

 #else  // ASAN_USE_SYSINFO
 void AsanStackTrace::PrintStack(uintptr_t *addr, size_t size) {
   AsanProcMaps proc_maps;
   for (size_t i = 0; i < size && addr[i]; i++) {
     proc_maps.Reset();
     uintptr_t pc = addr[i];
     uintptr_t offset;
     char filename[4096];
     if (proc_maps.GetObjectNameAndOffset(pc, &offset,
                                          filename, sizeof(filename))) {
       Printf("    #%ld 0x%lx (%s+0x%lx)\n", i, pc, filename, offset);
     } else {
       Printf("    #%ld 0x%lx\n", i, pc);
     }
   }
 }
 #endif  // ASAN_USE_SYSINFO

 #ifdef __arm__
 #define UNWIND_STOP _URC_END_OF_STACK
 #define UNWIND_CONTINUE _URC_OK
 #else
 #define UNWIND_STOP _URC_NORMAL_STOP
 #define UNWIND_CONTINUE _URC_NO_REASON
 #endif

 // ----------------------- AsanStackTrace ----------------------------- {{{1
 uintptr_t AsanStackTrace::GetCurrentPc() {
   return GET_CALLER_PC();
 }

 void AsanStackTrace::FastUnwindStack(uintptr_t pc, uintptr_t bp) {
   CHECK(size == 0 && trace[0] == pc);
   size = 1;
   if (!asan_inited) return;
   AsanThread *t = asanThreadRegistry().GetCurrent();
   if (!t) return;
   uintptr_t *frame = (uintptr_t*)bp;
   uintptr_t *prev_frame = frame;
   uintptr_t *top = (uintptr_t*)t->stack_top();
   uintptr_t *bottom = (uintptr_t*)t->stack_bottom();
   while (frame >= prev_frame &&
          frame < top &&
          frame > bottom &&
          size < max_size) {
     uintptr_t pc1 = frame[1];
     if (pc1 != pc) {
       trace[size++] = pc1;
     }
     prev_frame = frame;
     frame = (uintptr_t*)frame[0];
   }
 }

 // On 32-bits we don't compress stack traces.
 // On 64-bits we compress stack traces: if a given pc differes slightly from
 // the previous one, we record a 31-bit offset instead of the full pc.
 size_t AsanStackTrace::CompressStack(AsanStackTrace *stack,
                                    uint32_t *compressed, size_t size) {
 #if __WORDSIZE == 32
   // Don't compress, just copy.
   size_t res = 0;
   for (size_t i = 0; i < stack->size && i < size; i++) {
     compressed[i] = stack->trace[i];
     res++;
   }
   if (stack->size < size)
     compressed[stack->size] = 0;
 #else  // 64 bits, compress.
   uintptr_t prev_pc = 0;
   const uintptr_t kMaxOffset = (1ULL << 30) - 1;
   uintptr_t c_index = 0;
   size_t res = 0;
   for (size_t i = 0, n = stack->size; i < n; i++) {
     uintptr_t pc = stack->trace[i];
     if (!pc) break;
     if ((int64_t)pc < 0) break;
     // Printf("C pc[%ld] %lx\n", i, pc);
     if (prev_pc - pc < kMaxOffset || pc - prev_pc < kMaxOffset) {
       uintptr_t offset = (int64_t)(pc - prev_pc);
       offset |= (1U << 31);
       if (c_index >= size) break;
       // Printf("C co[%ld] offset %lx\n", i, offset);
       compressed[c_index++] = offset;
     } else {
       uintptr_t hi = pc >> 32;
       uintptr_t lo = (pc << 32) >> 32;
       CHECK((hi & (1 << 31)) == 0);
       if (c_index + 1 >= size) break;
       // Printf("C co[%ld] hi/lo: %lx %lx\n", c_index, hi, lo);
       compressed[c_index++] = hi;
       compressed[c_index++] = lo;
     }
     res++;
     prev_pc = pc;
   }
   if (c_index < size)
     compressed[c_index] = 0;
   if (c_index + 1 < size)
     compressed[c_index + 1] = 0;
 #endif  // __WORDSIZE

   // debug-only code
 #if 0
   AsanStackTrace check_stack;
   UncompressStack(&check_stack, compressed, size);
   if (res < check_stack.size) {
     Printf("res %ld check_stack.size %ld; c_size %ld\n", res,
            check_stack.size, size);
   }
   // |res| may be greater than check_stack.size, because
   // UncompressStack(CompressStack(stack)) eliminates the 0x0 frames.
   CHECK(res >= check_stack.size);
   CHECK(0 == real_memcmp(check_stack.trace, stack->trace,
                          check_stack.size * sizeof(uintptr_t)));
 #endif

   return res;
 }

 void AsanStackTrace::UncompressStack(AsanStackTrace *stack,
                                      uint32_t *compressed, size_t size) {
 #if __WORDSIZE == 32
   // Don't uncompress, just copy.
   stack->size = 0;
   for (size_t i = 0; i < size && i < kStackTraceMax; i++) {
     if (!compressed[i]) break;
     stack->size++;
     stack->trace[i] = compressed[i];
   }
 #else  // 64 bits, uncompress
   uintptr_t prev_pc = 0;
   stack->size = 0;
   for (size_t i = 0; i < size && stack->size < kStackTraceMax; i++) {
     uint32_t x = compressed[i];
     uintptr_t pc = 0;
     if (x & (1U << 31)) {
       // Printf("U co[%ld] offset: %x\n", i, x);
       // this is an offset
       int32_t offset = x;
       offset = (offset << 1) >> 1;  // remove the 31-byte and sign-extend.
       pc = prev_pc + offset;
       CHECK(pc);
     } else {
       // CHECK(i + 1 < size);
       if (i + 1 >= size) break;
       uintptr_t hi = x;
       uintptr_t lo = compressed[i+1];
       // Printf("U co[%ld] hi/lo: %lx %lx\n", i, hi, lo);
       i++;
       pc = (hi << 32) | lo;
       if (!pc) break;
     }
     // Printf("U pc[%ld] %lx\n", stack->size, pc);
     stack->trace[stack->size++] = pc;
     prev_pc = pc;
   }
 #endif  // __WORDSIZE
 }

 }  // namespace __asan
	//===-- asan_stack.cc -------------------------------------------- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This file is a part of AddressSanitizer, an address sanity checker.
	//
	// Code for ASan stack trace.
	//===----------------------------------------------------------------------===//
	#include "asan_interceptors.h"
	#include "asan_lock.h"
	#include "asan_procmaps.h"
	#include "asan_stack.h"
	#include "asan_thread.h"
	#include "asan_thread_registry.h"

	#include <string.h>

	#if ASAN_USE_SYSINFO == 1
	#include "sysinfo/sysinfo.h"
	#endif

	#ifdef ASAN_USE_EXTERNAL_SYMBOLIZER
	extern bool
	ASAN_USE_EXTERNAL_SYMBOLIZER(const void pc, char out, int out_size);
	#endif

	namespace __asan {

	// ----------------------- ProcSelfMaps ----------------------------- {{{1
	#if ASAN_USE_SYSINFO == 1
	class ProcSelfMaps {
	public:
	void Init() {
	ScopedLock lock(&mu_);
	if (map_size_ != 0) return; // already inited
	if (FLAG_v >= 2) {
	Printf("ProcSelfMaps::Init()\n");
	}
	ProcMapsIterator it(0, &proc_self_maps_); // 0 means "current pid"

	uint64 start, end, offset;
	int64 inode;
	char flags, filename;
	CHECK(map_size_ == 0);
	while (it.Next(&start, &end, &flags, &offset, &inode, &filename)) {
	CHECK(map_size_ < kMaxProcSelfMapsSize);
	Mapping &mapping = memory_map[map_size_];
	mapping.beg = start;
	mapping.end = end;
	mapping.offset = offset;
	real_strncpy(mapping.name,
	filename, ASAN_ARRAY_SIZE(mapping.name));
	mapping.name[ASAN_ARRAY_SIZE(mapping.name) - 1] = 0;
	if (FLAG_v >= 2) {
	Printf("[%ld] [%p,%p] off %p %s\n", map_size_,
	mapping.beg, mapping.end, mapping.offset, mapping.name);
	}
	map_size_++;
	}
	}

	void Print() {
	Printf("%s\n", proc_self_maps_);
	}

	void PrintPc(uintptr_t pc, int idx) {
	for (size_t i = 0; i < map_size_; i++) {
	Mapping &m = memory_map[i];
	if (pc >= m.beg && pc < m.end) {
	uintptr_t offset = pc - m.beg;
	if (i == 0) offset = pc;
	Printf(" #%d 0x%lx (%s+0x%lx)\n", idx, pc, m.name, offset);
	return;
	}
	}
	Printf(" #%d 0x%lx\n", idx, pc);
	}

	private:
	void copy_until_new_line(const char str, char dest, size_t max_size) {
	size_t i = 0;
	for (; str[i] && str[i] != '\n' && i < max_size - 1; i++) {
	dest[i] = str[i];
	}
	dest[i] = 0;
	}


	struct Mapping {
	uintptr_t beg, end, offset;
	char name[1000];
	};
	static const size_t kMaxNumMapEntries = 4096;
	static const size_t kMaxProcSelfMapsSize = 1 << 20;
	ProcMapsIterator::Buffer proc_self_maps_;
	size_t map_size_;
	Mapping memory_map[kMaxNumMapEntries];

	static AsanLock mu_;
	};

	static ProcSelfMaps proc_self_maps;
	AsanLock ProcSelfMaps::mu_(LINKER_INITIALIZED);


	void AsanStackTrace::PrintStack(uintptr_t *addr, size_t size) {
	proc_self_maps.Init();
	for (size_t i = 0; i < size && addr[i]; i++) {
	uintptr_t pc = addr[i];
	// int line;
	proc_self_maps.PrintPc(pc, i);
	// Printf(" #%ld 0x%lx %s\n", i, pc, rtn.c_str());
	}
	}
	#elif defined(ASAN_USE_EXTERNAL_SYMBOLIZER)
	void AsanStackTrace::PrintStack(uintptr_t *addr, size_t size) {
	for (size_t i = 0; i < size && addr[i]; i++) {
	uintptr_t pc = addr[i];
	char buff[4096];
	ASAN_USE_EXTERNAL_SYMBOLIZER((void*)pc, buff, sizeof(buff));
	Printf(" #%ld 0x%lx %s\n", i, pc, buff);
	}
	}

	#else // ASAN_USE_SYSINFO
	void AsanStackTrace::PrintStack(uintptr_t *addr, size_t size) {
	AsanProcMaps proc_maps;
	for (size_t i = 0; i < size && addr[i]; i++) {
	proc_maps.Reset();
	uintptr_t pc = addr[i];
	uintptr_t offset;
	char filename[4096];
	if (proc_maps.GetObjectNameAndOffset(pc, &offset,
	filename, sizeof(filename))) {
	Printf(" #%ld 0x%lx (%s+0x%lx)\n", i, pc, filename, offset);
	} else {
	Printf(" #%ld 0x%lx\n", i, pc);
	}
	}
	}
	#endif // ASAN_USE_SYSINFO

	#ifdef __arm__
	#define UNWIND_STOP _URC_END_OF_STACK
	#define UNWIND_CONTINUE _URC_OK
	#else
	#define UNWIND_STOP _URC_NORMAL_STOP
	#define UNWIND_CONTINUE _URC_NO_REASON
	#endif

	// ----------------------- AsanStackTrace ----------------------------- {{{1
	uintptr_t AsanStackTrace::GetCurrentPc() {
	return GET_CALLER_PC();
	}

	void AsanStackTrace::FastUnwindStack(uintptr_t pc, uintptr_t bp) {
	CHECK(size == 0 && trace[0] == pc);
	size = 1;
	if (!asan_inited) return;
	AsanThread *t = asanThreadRegistry().GetCurrent();
	if (!t) return;
	uintptr_t frame = (uintptr_t)bp;
	uintptr_t *prev_frame = frame;
	uintptr_t top = (uintptr_t)t->stack_top();
	uintptr_t bottom = (uintptr_t)t->stack_bottom();
	while (frame >= prev_frame &&
	frame < top &&
	frame > bottom &&
	size < max_size) {
	uintptr_t pc1 = frame[1];
	if (pc1 != pc) {
	trace[size++] = pc1;
	}
	prev_frame = frame;
	frame = (uintptr_t*)frame[0];
	}
	}

	// On 32-bits we don't compress stack traces.
	// On 64-bits we compress stack traces: if a given pc differes slightly from
	// the previous one, we record a 31-bit offset instead of the full pc.
	size_t AsanStackTrace::CompressStack(AsanStackTrace *stack,
	uint32_t *compressed, size_t size) {
	#if __WORDSIZE == 32
	// Don't compress, just copy.
	size_t res = 0;
	for (size_t i = 0; i < stack->size && i < size; i++) {
	compressed[i] = stack->trace[i];
	res++;
	}
	if (stack->size < size)
	compressed[stack->size] = 0;
	#else // 64 bits, compress.
	uintptr_t prev_pc = 0;
	const uintptr_t kMaxOffset = (1ULL << 30) - 1;
	uintptr_t c_index = 0;
	size_t res = 0;
	for (size_t i = 0, n = stack->size; i < n; i++) {
	uintptr_t pc = stack->trace[i];
	if (!pc) break;
	if ((int64_t)pc < 0) break;
	// Printf("C pc[%ld] %lx\n", i, pc);
	if (prev_pc - pc < kMaxOffset \|\| pc - prev_pc < kMaxOffset) {
	uintptr_t offset = (int64_t)(pc - prev_pc);
	offset \|= (1U << 31);
	if (c_index >= size) break;
	// Printf("C co[%ld] offset %lx\n", i, offset);
	compressed[c_index++] = offset;
	} else {
	uintptr_t hi = pc >> 32;
	uintptr_t lo = (pc << 32) >> 32;
	CHECK((hi & (1 << 31)) == 0);
	if (c_index + 1 >= size) break;
	// Printf("C co[%ld] hi/lo: %lx %lx\n", c_index, hi, lo);
	compressed[c_index++] = hi;
	compressed[c_index++] = lo;
	}
	res++;
	prev_pc = pc;
	}
	if (c_index < size)
	compressed[c_index] = 0;
	if (c_index + 1 < size)
	compressed[c_index + 1] = 0;
	#endif // __WORDSIZE

	// debug-only code
	#if 0
	AsanStackTrace check_stack;
	UncompressStack(&check_stack, compressed, size);
	if (res < check_stack.size) {
	Printf("res %ld check_stack.size %ld; c_size %ld\n", res,
	check_stack.size, size);
	}
	// \|res\| may be greater than check_stack.size, because
	// UncompressStack(CompressStack(stack)) eliminates the 0x0 frames.
	CHECK(res >= check_stack.size);
	CHECK(0 == real_memcmp(check_stack.trace, stack->trace,
	check_stack.size * sizeof(uintptr_t)));
	#endif

	return res;
	}

	void AsanStackTrace::UncompressStack(AsanStackTrace *stack,
	uint32_t *compressed, size_t size) {
	#if __WORDSIZE == 32
	// Don't uncompress, just copy.
	stack->size = 0;
	for (size_t i = 0; i < size && i < kStackTraceMax; i++) {
	if (!compressed[i]) break;
	stack->size++;
	stack->trace[i] = compressed[i];
	}
	#else // 64 bits, uncompress
	uintptr_t prev_pc = 0;
	stack->size = 0;
	for (size_t i = 0; i < size && stack->size < kStackTraceMax; i++) {
	uint32_t x = compressed[i];
	uintptr_t pc = 0;
	if (x & (1U << 31)) {
	// Printf("U co[%ld] offset: %x\n", i, x);
	// this is an offset
	int32_t offset = x;
	offset = (offset << 1) >> 1; // remove the 31-byte and sign-extend.
	pc = prev_pc + offset;
	CHECK(pc);
	} else {
	// CHECK(i + 1 < size);
	if (i + 1 >= size) break;
	uintptr_t hi = x;
	uintptr_t lo = compressed[i+1];
	// Printf("U co[%ld] hi/lo: %lx %lx\n", i, hi, lo);
	i++;
	pc = (hi << 32) \| lo;
	if (!pc) break;
	}
	// Printf("U pc[%ld] %lx\n", stack->size, pc);
	stack->trace[stack->size++] = pc;
	prev_pc = pc;
	}
	#endif // __WORDSIZE
	}

	} // namespace __asan