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29 
30 // linux_dumper.h: Define the google_breakpad::LinuxDumper class, which
31 // is a base class for extracting information of a crashed process. It
32 // was originally a complete implementation using the ptrace API, but
33 // has been refactored to allow derived implementations supporting both
34 // ptrace and core dump. A portion of the original implementation is now
35 // in google_breakpad::LinuxPtraceDumper (see linux_ptrace_dumper.h for
36 // details).
37 
38 #ifndef CLIENT_LINUX_MINIDUMP_WRITER_LINUX_DUMPER_H_
39 #define CLIENT_LINUX_MINIDUMP_WRITER_LINUX_DUMPER_H_
40 
41 #include <assert.h>
42 #include <elf.h>
43 #if defined(__ANDROID__)
44 #include <link.h>
45 #endif
46 #include <linux/limits.h>
47 #include <stdint.h>
48 #include <sys/types.h>
49 #include <sys/user.h>
50 
51 #include <vector>
52 
53 #include "client/linux/dump_writer_common/mapping_info.h"
54 #include "client/linux/dump_writer_common/thread_info.h"
55 #include "common/linux/file_id.h"
56 #include "common/memory_allocator.h"
57 #include "google_breakpad/common/minidump_format.h"
58 
59 namespace google_breakpad {
60 
61 // Typedef for our parsing of the auxv variables in /proc/pid/auxv.
62 #if defined(__i386) || defined(__ARM_EABI__) || \
63  (defined(__mips__) && _MIPS_SIM == _ABIO32)
64 typedef Elf32_auxv_t elf_aux_entry;
65 #elif defined(__x86_64) || defined(__aarch64__) || \
66      (defined(__mips__) && _MIPS_SIM != _ABIO32)
67 typedef Elf64_auxv_t elf_aux_entry;
68 #endif
69 
70 typedef __typeof__(((elf_aux_entry*) 0)->a_un.a_val) elf_aux_val_t;
71 
72 // When we find the VDSO mapping in the process's address space, this
73 // is the name we use for it when writing it to the minidump.
74 // This should always be less than NAME_MAX!
75 const char kLinuxGateLibraryName[] = "linux-gate.so";
76 
77 class LinuxDumper {
78  public:
79   // The |root_prefix| is prepended to mapping paths before opening them, which
80   // is useful if the crash originates from a chroot.
81   explicit LinuxDumper(pid_t pid, const char* root_prefix = "");
82 
83   virtual ~LinuxDumper();
84 
85   // Parse the data for |threads| and |mappings|.
86   virtual bool Init();
87 
88   // Take any actions that could not be taken in Init(). LateInit() is
89   // called after all other caller's initialization is complete, and in
90   // particular after it has called ThreadsSuspend(), so that ptrace is
91   // available.
92   virtual bool LateInit();
93 
94   // Return true if the dumper performs a post-mortem dump.
95   virtual bool IsPostMortem() const = 0;
96 
97   // Suspend/resume all threads in the given process.
98   virtual bool ThreadsSuspend() = 0;
99   virtual bool ThreadsResume() = 0;
100 
101   // Read information about the |index|-th thread of |threads_|.
102   // Returns true on success. One must have called |ThreadsSuspend| first.
103   virtual bool GetThreadInfoByIndex(size_t index, ThreadInfo* info) = 0;
104 
GetMainThreadIndex()105   size_t GetMainThreadIndex() const {
106     for (size_t i = 0; i < threads_.size(); ++i) {
107       if (threads_[i] == pid_) return i;
108     }
109     return -1u;
110   }
111 
112   // These are only valid after a call to |Init|.
threads()113   const wasteful_vector<pid_t> &threads() { return threads_; }
mappings()114   const wasteful_vector<MappingInfo*> &mappings() { return mappings_; }
115   const MappingInfo* FindMapping(const void* address) const;
116   // Find the mapping which the given memory address falls in. Unlike
117   // FindMapping, this method uses the unadjusted mapping address
118   // ranges from the kernel, rather than the ranges that have had the
119   // load bias applied.
120   const MappingInfo* FindMappingNoBias(uintptr_t address) const;
auxv()121   const wasteful_vector<elf_aux_val_t>& auxv() { return auxv_; }
122 
123   // Find a block of memory to take as the stack given the top of stack pointer.
124   //   stack: (output) the lowest address in the memory area
125   //   stack_len: (output) the length of the memory area
126   //   stack_top: the current top of the stack
127   bool GetStackInfo(const void** stack, size_t* stack_len, uintptr_t stack_top);
128 
129   // Sanitize a copy of the stack by overwriting words that are not
130   // pointers with a sentinel (0x0defaced).
131   //   stack_copy: a copy of the stack to sanitize. |stack_copy| might
132   //               not be word aligned, but it represents word aligned
133   //               data copied from another location.
134   //   stack_len: the length of the allocation pointed to by |stack_copy|.
135   //   stack_pointer: the address of the stack pointer (used to locate
136   //                  the stack mapping, as an optimization).
137   //   sp_offset: the offset relative to stack_copy that reflects the
138   //              current value of the stack pointer.
139   void SanitizeStackCopy(uint8_t* stack_copy, size_t stack_len,
140                          uintptr_t stack_pointer, uintptr_t sp_offset);
141 
142   // Test whether |stack_copy| contains a pointer-aligned word that
143   // could be an address within a given mapping.
144   //   stack_copy: a copy of the stack to check. |stack_copy| might
145   //               not be word aligned, but it represents word aligned
146   //               data copied from another location.
147   //   stack_len: the length of the allocation pointed to by |stack_copy|.
148   //   sp_offset: the offset relative to stack_copy that reflects the
149   //              current value of the stack pointer.
150   //   mapping: the mapping against which to test stack words.
151   bool StackHasPointerToMapping(const uint8_t* stack_copy, size_t stack_len,
152                                 uintptr_t sp_offset,
153                                 const MappingInfo& mapping);
154 
allocator()155   PageAllocator* allocator() { return &allocator_; }
156 
157   // Copy content of |length| bytes from a given process |child|,
158   // starting from |src|, into |dest|. Returns true on success.
159   virtual bool CopyFromProcess(void* dest, pid_t child, const void* src,
160                                size_t length) = 0;
161 
162   // Builds a proc path for a certain pid for a node (/proc/<pid>/<node>).
163   // |path| is a character array of at least NAME_MAX bytes to return the
164   // result.|node| is the final node without any slashes. Returns true on
165   // success.
166   virtual bool BuildProcPath(char* path, pid_t pid, const char* node) const = 0;
167 
168   // Generate a File ID from the .text section of a mapped entry.
169   // If not a member, mapping_id is ignored. This method can also manipulate the
170   // |mapping|.name to truncate "(deleted)" from the file name if necessary.
171   bool ElfFileIdentifierForMapping(const MappingInfo& mapping,
172                                    bool member,
173                                    unsigned int mapping_id,
174                                    wasteful_vector<uint8_t>& identifier);
175 
176   void SetCrashInfoFromSigInfo(const siginfo_t& siginfo);
177 
crash_address()178   uintptr_t crash_address() const { return crash_address_; }
set_crash_address(uintptr_t crash_address)179   void set_crash_address(uintptr_t crash_address) {
180     crash_address_ = crash_address;
181   }
182 
crash_signal()183   int crash_signal() const { return crash_signal_; }
set_crash_signal(int crash_signal)184   void set_crash_signal(int crash_signal) { crash_signal_ = crash_signal; }
185   const char* GetCrashSignalString() const;
186 
set_crash_signal_code(int code)187   void set_crash_signal_code(int code) { crash_signal_code_ = code; }
crash_signal_code()188   int crash_signal_code() const { return crash_signal_code_; }
189 
set_crash_exception_info(const std::vector<uint64_t> & exception_info)190   void set_crash_exception_info(const std::vector<uint64_t>& exception_info) {
191     assert(exception_info.size() <= MD_EXCEPTION_MAXIMUM_PARAMETERS);
192     crash_exception_info_ = exception_info;
193   }
crash_exception_info()194   const std::vector<uint64_t>& crash_exception_info() const {
195     return crash_exception_info_;
196   }
197 
crash_thread()198   pid_t crash_thread() const { return crash_thread_; }
set_crash_thread(pid_t crash_thread)199   void set_crash_thread(pid_t crash_thread) { crash_thread_ = crash_thread; }
200 
201   // Concatenates the |root_prefix_| and |mapping| path. Writes into |path| and
202   // returns true unless the string is too long.
203   bool GetMappingAbsolutePath(const MappingInfo& mapping,
204                               char path[PATH_MAX]) const;
205 
206   // Extracts the effective path and file name of from |mapping|. In most cases
207   // the effective name/path are just the mapping's path and basename. In some
208   // other cases, however, a library can be mapped from an archive (e.g., when
209   // loading .so libs from an apk on Android) and this method is able to
210   // reconstruct the original file name.
211   void GetMappingEffectiveNameAndPath(const MappingInfo& mapping,
212                                       char* file_path,
213                                       size_t file_path_size,
214                                       char* file_name,
215                                       size_t file_name_size);
216 
217  protected:
218   bool ReadAuxv();
219 
220   virtual bool EnumerateMappings();
221 
222   virtual bool EnumerateThreads() = 0;
223 
224   // For the case where a running program has been deleted, it'll show up in
225   // /proc/pid/maps as "/path/to/program (deleted)". If this is the case, then
226   // see if '/path/to/program (deleted)' matches /proc/pid/exe and return
227   // /proc/pid/exe in |path| so ELF identifier generation works correctly. This
228   // also checks to see if '/path/to/program (deleted)' exists, so it does not
229   // get fooled by a poorly named binary.
230   // For programs that don't end with ' (deleted)', this is a no-op.
231   // This assumes |path| is a buffer with length NAME_MAX.
232   // Returns true if |path| is modified.
233   bool HandleDeletedFileInMapping(char* path) const;
234 
235    // ID of the crashed process.
236   const pid_t pid_;
237 
238   // Path of the root directory to which mapping paths are relative.
239   const char* const root_prefix_;
240 
241   // Virtual address at which the process crashed.
242   uintptr_t crash_address_;
243 
244   // Signal that terminated the crashed process.
245   int crash_signal_;
246 
247   // The code associated with |crash_signal_|.
248   int crash_signal_code_;
249 
250   // The additional fields associated with |crash_signal_|.
251   std::vector<uint64_t> crash_exception_info_;
252 
253   // ID of the crashed thread.
254   pid_t crash_thread_;
255 
256   mutable PageAllocator allocator_;
257 
258   // IDs of all the threads.
259   wasteful_vector<pid_t> threads_;
260 
261   // Info from /proc/<pid>/maps.
262   wasteful_vector<MappingInfo*> mappings_;
263 
264   // Info from /proc/<pid>/auxv
265   wasteful_vector<elf_aux_val_t> auxv_;
266 
267 #if defined(__ANDROID__)
268  private:
269   // Android M and later support packed ELF relocations in shared libraries.
270   // Packing relocations changes the vaddr of the LOAD segments, such that
271   // the effective load bias is no longer the same as the start address of
272   // the memory mapping containing the executable parts of the library. The
273   // packing is applied to the stripped library run on the target, but not to
274   // any other library, and in particular not to the library used to generate
275   // breakpad symbols. As a result, we need to adjust the |start_addr| for
276   // any mapping that results from a shared library that contains Android
277   // packed relocations, so that it properly represents the effective library
278   // load bias. The following functions support this adjustment.
279 
280   // Check that a given mapping at |start_addr| is for an ELF shared library.
281   // If it is, place the ELF header in |ehdr| and return true.
282   // The first LOAD segment in an ELF shared library has offset zero, so the
283   // ELF file header is at the start of this map entry, and in already mapped
284   // memory.
285   bool GetLoadedElfHeader(uintptr_t start_addr, ElfW(Ehdr)* ehdr);
286 
287   // For the ELF file mapped at |start_addr|, iterate ELF program headers to
288   // find the min vaddr of all program header LOAD segments, the vaddr for
289   // the DYNAMIC segment, and a count of DYNAMIC entries. Return values in
290   // |min_vaddr_ptr|, |dyn_vaddr_ptr|, and |dyn_count_ptr|.
291   // The program header table is also in already mapped memory.
292   void ParseLoadedElfProgramHeaders(ElfW(Ehdr)* ehdr,
293                                     uintptr_t start_addr,
294                                     uintptr_t* min_vaddr_ptr,
295                                     uintptr_t* dyn_vaddr_ptr,
296                                     size_t* dyn_count_ptr);
297 
298   // Search the DYNAMIC tags for the ELF file with the given |load_bias|, and
299   // return true if the tags indicate that the file contains Android packed
300   // relocations. Dynamic tags are found at |dyn_vaddr| past the |load_bias|.
301   bool HasAndroidPackedRelocations(uintptr_t load_bias,
302                                    uintptr_t dyn_vaddr,
303                                    size_t dyn_count);
304 
305   // If the ELF file mapped at |start_addr| contained Android packed
306   // relocations, return the load bias that the system linker (or Chromium
307   // crazy linker) will have used. If the file did not contain Android
308   // packed relocations, returns |start_addr|, indicating that no adjustment
309   // is necessary.
310   // The effective load bias is |start_addr| adjusted downwards by the
311   // min vaddr in the library LOAD segments.
312   uintptr_t GetEffectiveLoadBias(ElfW(Ehdr)* ehdr, uintptr_t start_addr);
313 
314   // Called from LateInit(). Iterates |mappings_| and rewrites the |start_addr|
315   // field of any that represent ELF shared libraries with Android packed
316   // relocations, so that |start_addr| is the load bias that the system linker
317   // (or Chromium crazy linker) used. This value matches the addresses produced
318   // when the non-relocation-packed library is used for breakpad symbol
319   // generation.
320   void LatePostprocessMappings();
321 #endif  // __ANDROID__
322 };
323 
324 }  // namespace google_breakpad
325 
326 #endif  // CLIENT_LINUX_HANDLER_LINUX_DUMPER_H_
327