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/* Copyright (C) 2007-2011 The Android Open Source Project
**
** This software is licensed under the terms of the GNU General Public
** License version 2, as published by the Free Software Foundation, and
** may be copied, distributed, and modified under those terms.
**
** This program is distributed in the hope that it will be useful,
** but WITHOUT ANY WARRANTY; without even the implied warranty of
** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
** GNU General Public License for more details.
*/
/*
* Contains implementation of a class DumpFile of routines that implements
* access to a log file.
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include "regex/regex.h"
#include "elff/elff_api.h"
#include "ndk-stack-parser.h"
/* Enumerates states of the crash parser.
*/
typedef enum NDK_CRASH_PARSER_STATE {
/* Parser expects the beginning of the crash dump. */
EXPECTS_CRASH_DUMP,
/* Parser expects the build fingerprint, or process and thread information. */
EXPECTS_BUILD_FINGREPRINT_OR_PID,
/* Parser expects the process and thread information. */
EXPECTS_PID,
/* Parser expects the signal information, or the first crash frame. */
EXPECTS_SIGNAL_OR_FRAME,
/* Parser expects a crash frame. */
EXPECTS_FRAME,
} NDK_CRASH_PARSER_STATE;
/* Crash parser descriptor.
*/
struct NdkCrashParser {
/* Handle to the stream where to print the output. */
FILE* out_handle;
/* Path to the root folder where symbols are stored. */
char* sym_root;
/* Current state of the parser. */
NDK_CRASH_PARSER_STATE state;
/* Compiled regular expressions */
regex_t re_pid_header;
regex_t re_sig_header;
regex_t re_frame_header;
};
/* Crash dumps begin with a string containing this substring. */
static const char _crash_dump_header[] =
"*** *** *** *** *** *** *** *** *** *** *** *** *** *** *** ***";
/* Build fingerprint contains this substring. */
static const char _build_fingerprint_header[] = "Build fingerprint:";
/* Regular expression for the process ID information line. */
static const char _pid_header[] = "pid: [0-9]+, tid: [0-9]+.*";
/* Regular expression for the signal information line. */
static const char _sig_header[] = "signal*[ \t][0-9]+";
/* Regular expression for the frame information line. */
static const char _frame_header[] = "\\#[0-9]+[ |\t]+[pc|eip]+:*[ |\t]+([0-9a-f]{8})*";
#ifndef min
#define min(a,b) (((a) < (b)) ? a : b)
#endif
/* Parses a line representing a crash frame.
* This routine will try to obtain source file / line information for the
* frame's address, and print that information to the specified output handle.
* Param:
* parser - NdkCrashParser descriptor, created and initialized with a call to
* NdkCrashParser routine.
* frame - Line containing crash frame.
* Return:
* 0 If source file information has been found and printed, or -1 if that
* information was not available.
*/
static int ParseFrame(NdkCrashParser* parser, const char* frame);
/* Matches a string against a regular expression.
* Param:
* line - String to matches against the regular expression.
* regex - Regular expression to match the string against.
* match - Upon successful match contains information about the part of the
* string that matches the regular expression.
* Return:
* Boolean: 1 if a match has been found, or 0 if match has not been found in
* the string.
*/
static int MatchRegex(const char* line, const regex_t* regex, regmatch_t* match);
/* Returns pointer to the next separator (a space, or a tab) in the string. */
static const char* next_separator(const char* str);
/* Returns pointer to the next token (a character other than space, or a tab)
* in the string.
*/
static const char* next_token(const char* str);
/* Gets next token from the string.
* param:
* str - String where to get the next token from. Note that if string begins
* with a separator, this routine will return first token after that
* separator. If string begins with a token, this routine will return next
* token after that.
* token - Upon success contains a copy of the next token in the string.
* size - Size of the 'token' buffer.
* Return:
* Beginning of the returned token in the string.
*/
static const char* get_next_token(const char* str, char* token, size_t size);
NdkCrashParser*
CreateNdkCrashParser(FILE* out_handle, const char* sym_root)
{
NdkCrashParser* parser;
parser = (NdkCrashParser*)calloc(sizeof(*parser), 1);
if (parser == NULL)
return NULL;
parser->out_handle = out_handle;
parser->state = EXPECTS_CRASH_DUMP;
parser->sym_root = strdup(sym_root);
if (!parser->sym_root)
goto BAD_INIT;
if (regcomp(&parser->re_pid_header, _pid_header, REG_EXTENDED | REG_NEWLINE) ||
regcomp(&parser->re_sig_header, _sig_header, REG_EXTENDED | REG_NEWLINE) ||
regcomp(&parser->re_frame_header, _frame_header, REG_EXTENDED | REG_NEWLINE))
goto BAD_INIT;
return parser;
BAD_INIT:
DestroyNdkCrashParser(parser);
return NULL;
}
void
DestroyNdkCrashParser(NdkCrashParser* parser)
{
if (parser != NULL) {
/* Release compiled regular expressions */
regfree(&parser->re_frame_header);
regfree(&parser->re_sig_header);
regfree(&parser->re_pid_header);
/* Release symbol path */
free(parser->sym_root);
/* Release parser itself */
free(parser);
}
}
int
ParseLine(NdkCrashParser* parser, const char* line)
{
regmatch_t match;
if (line == NULL || *line == '\0') {
// Nothing to parse.
return 1;
}
// Lets see if this is the beginning of a crash dump.
if (strstr(line, _crash_dump_header) != NULL) {
if (parser->state != EXPECTS_CRASH_DUMP) {
// Printing another crash dump was in progress. Mark the end of it.
fprintf(parser->out_handle, "Crash dump is completed\n\n");
}
// New crash dump begins.
fprintf(parser->out_handle, "********** Crash dump: **********\n");
parser->state = EXPECTS_BUILD_FINGREPRINT_OR_PID;
return 0;
}
switch (parser->state) {
case EXPECTS_BUILD_FINGREPRINT_OR_PID:
if (strstr(line, _build_fingerprint_header) != NULL) {
fprintf(parser->out_handle, "%s\n",
strstr(line, _build_fingerprint_header));
parser->state = EXPECTS_PID;
}
// Let it fall through to the EXPECTS_PID, in case the dump doesn't
// contain build fingerprint.
case EXPECTS_PID:
if (MatchRegex(line, &parser->re_pid_header, &match)) {
fprintf(parser->out_handle, "%s\n", line + match.rm_so);
parser->state = EXPECTS_SIGNAL_OR_FRAME;
return 0;
} else {
return 1;
}
case EXPECTS_SIGNAL_OR_FRAME:
if (MatchRegex(line, &parser->re_sig_header, &match)) {
fprintf(parser->out_handle, "%s\n", line + match.rm_so);
parser->state = EXPECTS_FRAME;
}
// Let it fall through to the EXPECTS_FRAME, in case the dump doesn't
// contain signal fingerprint.
case EXPECTS_FRAME:
if (MatchRegex(line, &parser->re_frame_header, &match)) {
parser->state = EXPECTS_FRAME;
return ParseFrame(parser, line + match.rm_so);
} else {
return 1;
}
default:
return 1;
}
}
static int
MatchRegex(const char* line, const regex_t* regex, regmatch_t* match)
{
int err = regexec(regex, line, 1, match, 0x00400/*REG_TRACE*/);
#if 0
char rerr[4096];
if (err) {
regerror(err, regex, rerr, sizeof(rerr));
fprintf(stderr, "regexec(%s, %s) has failed: %s\n", line, regex, rerr);
}
#endif
return err == 0;
}
static const char*
next_separator(const char* str)
{
return str + strcspn(str, " \t");
}
static const char*
next_token(const char* str)
{
str = next_separator(str);
return str + strspn(str, " \t");
}
static const char*
get_next_token(const char* str, char* token, size_t size)
{
const char* start = next_token(str);
const char* end = next_separator(start);
if (start != end) {
const size_t to_copy = min((size_t)(end - start), (size - 1));
memcpy(token, start, to_copy);
token[to_copy] = '\0';
return start;
} else {
return NULL;
}
}
int
ParseFrame(NdkCrashParser* parser, const char* frame)
{
uint64_t address;
const char* wrk;
char* eptr;
char pc_address[17];
char module_path[2048];
char* module_name;
char sym_file[2048];
ELFF_HANDLE elff_handle;
Elf_AddressInfo pc_info;
fprintf(parser->out_handle, "Stack frame %s", frame);
// Advance to the instruction pointer token.
wrk = strstr(frame, "pc");
if (wrk == NULL) {
wrk = strstr(frame, "eip");
if (wrk == NULL) {
wrk = strstr(frame, "ip");
if (wrk == NULL) {
fprintf(parser->out_handle,
"Parser is unable to locate instruction pointer token.\n");
return -1;
}
}
}
// Next token after the instruction pointer token is its address.
wrk = get_next_token(wrk, pc_address, sizeof(pc_address));
// PC address is a hex value. Get it.
eptr = pc_address + strlen(pc_address);
address = strtoul(pc_address, &eptr, 16);
// Next token is module path.
get_next_token(wrk, module_path, sizeof(module_path));
// Extract basename of module, we should not care about its path
// on the device.
module_name = strrchr(module_path,'/');
if (module_name == NULL)
module_name = module_path;
else {
module_name += 1;
if (*module_name == '\0') {
/* Trailing slash in the module path, this should not happen */
/* Back-off with the full module-path */
module_name = module_path;
}
}
// Build path to the symbol file.
snprintf(sym_file, sizeof(sym_file), "%s/%s", parser->sym_root, module_name);
// Init ELFF wrapper for the symbol file.
elff_handle = elff_init(sym_file);
if (elff_handle == NULL) {
if (errno == ENOENT) {
fprintf(parser->out_handle, "\n");
} else {
fprintf(parser->out_handle,
": Unable to open symbol file %s. Error (%d): %s\n",
sym_file, errno, strerror(errno));
}
return -1;
}
// Extract address info from the symbol file.
if (!elff_get_pc_address_info(elff_handle, address, &pc_info)) {
if (pc_info.dir_name != NULL) {
fprintf(parser->out_handle, ": Routine %s in %s/%s:%d\n",
pc_info.routine_name, pc_info.dir_name, pc_info.file_name,
pc_info.line_number);
} else {
fprintf(parser->out_handle, ": Routine %s in %s:%d\n",
pc_info.routine_name, pc_info.file_name, pc_info.line_number);
}
elff_free_pc_address_info(elff_handle, &pc_info);
elff_close(elff_handle);
return 0;
} else {
fprintf(parser->out_handle,
": Unable to locate routine information for address %x in module %s\n",
(uint32_t)address, sym_file);
elff_close(elff_handle);
return -1;
}
}