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289 lines
10 KiB
Python
Executable File
289 lines
10 KiB
Python
Executable File
#!/usr/bin/env python
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# Copyright 2018 The Chromium Authors. All rights reserved.
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# Use of this source code is governed by a BSD-style license that can be
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# found in the LICENSE file.
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"""Extracts the unwind tables in from breakpad symbol files
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Runs dump_syms on the given binary file and extracts the CFI data into the
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given output file.
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The output file is a binary file containing CFI rows ordered based on function
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address. The output file only contains rows that match the most popular rule
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type in CFI table, to reduce the output size and specify data in compact format.
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See doc https://github.com/google/breakpad/blob/master/docs/symbol_files.md.
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1. The CFA rules should be of postfix form "SP <val> +".
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2. The RA rules should be of postfix form "CFA <val> + ^".
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Note: breakpad represents dereferencing address with '^' operator.
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The output file has 2 tables UNW_INDEX and UNW_DATA, inspired from ARM EHABI
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format. The first table contains function addresses and an index into the
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UNW_DATA table. The second table contains one or more rows for the function
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unwind information.
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The output file starts with 4 bytes counting the size of UNW_INDEX in bytes.
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Then UNW_INDEX table and UNW_DATA table.
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UNW_INDEX contains two columns of N rows each, where N is the number of
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functions.
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1. First column 4 byte rows of all the function start address as offset from
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start of the binary, in sorted order.
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2. For each function addr, the second column contains 2 byte indices in order.
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The indices are offsets (in count of 2 bytes) of the CFI data from start of
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UNW_DATA.
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The last entry in the table always contains CANT_UNWIND index to specify the
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end address of the last function.
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UNW_DATA contains data of all the functions. Each function data contains N rows.
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The data found at the address pointed from UNW_INDEX will be:
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2 bytes: N - number of rows that belong to current function.
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N * 4 bytes: N rows of data. 16 bits : Address offset from function start.
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14 bits : CFA offset / 4.
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2 bits : RA offset / 4.
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The function is not added to the unwind table in following conditions:
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C1. If length of the function code (number of instructions) is greater than
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0xFFFF (2 byte address span). This is because we use 16 bits to refer to
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offset of instruction from start of the address.
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C2. If the function moves the SP by more than 0xFFFF bytes. This is because we
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use 14 bits to denote CFA offset (last 2 bits are 0).
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C3. If the Return Address is stored at an offset >= 16 from the CFA. Some
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functions which have variable arguments can have offset upto 16.
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TODO(ssid): We can actually store offset 16 by subtracting 1 from RA/4 since
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we never have 0.
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C4: Some functions do not have unwind information defined in dwarf info. These
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functions have index value CANT_UNWIND(0xFFFF) in UNW_INDEX table.
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Usage:
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extract_unwind_tables.py --input_path [root path to unstripped chrome.so]
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--output_path [output path] --dump_syms_path [path to dump_syms binary]
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"""
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import argparse
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import re
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import struct
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import subprocess
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import sys
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import tempfile
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_CFA_REG = '.cfa'
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_RA_REG = '.ra'
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_ADDR_ENTRY = 0
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_LENGTH_ENTRY = 1
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_CANT_UNWIND = 0xFFFF
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def _Write4Bytes(output_file, val):
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"""Writes a 32 bit unsigned integer to the given output file."""
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output_file.write(struct.pack('<L', val));
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def _Write2Bytes(output_file, val):
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"""Writes a 16 bit unsigned integer to the given output file."""
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output_file.write(struct.pack('<H', val));
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def _FindRuleForRegister(cfi_row, reg):
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"""Returns the postfix expression as string for a given register.
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Breakpad CFI row format specifies rules for unwinding each register in postfix
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expression form separated by space. Each rule starts with register name and a
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colon. Eg: "CFI R1: <rule> R2: <rule>".
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"""
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out = []
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found_register = False
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for part in cfi_row:
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if found_register:
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if part[-1] == ':':
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break
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out.append(part)
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elif part == reg + ':':
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found_register = True
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return ' '.join(out)
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def _GetCfaAndRaOffset(cfi_row):
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"""Returns a tuple with 2 numbers (cfa_offset, ra_offset).
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Returns right values if rule matches the predefined criteria. Returns (0, 0)
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otherwise. The criteria for CFA rule is postfix form "SP <val> +" and RA rule
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is postfix form "CFA -<val> + ^".
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"""
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cfa_offset = 0
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ra_offset = 0
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cfa_rule = _FindRuleForRegister(cfi_row, _CFA_REG)
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ra_rule = _FindRuleForRegister(cfi_row, _RA_REG)
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if cfa_rule and re.match(r'sp [0-9]+ \+', cfa_rule):
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cfa_offset = int(cfa_rule.split()[1], 10)
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if ra_rule:
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if not re.match(r'.cfa -[0-9]+ \+ \^', ra_rule):
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return (0, 0)
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ra_offset = -1 * int(ra_rule.split()[1], 10)
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return (cfa_offset, ra_offset)
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def _GetAllCfiRows(symbol_file):
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"""Returns parsed CFI data from given symbol_file.
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Each entry in the cfi data dictionary returned is a map from function start
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address to array of function rows, starting with FUNCTION type, followed by
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one or more CFI rows.
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"""
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cfi_data = {}
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current_func = []
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for line in symbol_file:
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if 'STACK CFI' not in line:
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continue
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parts = line.split()
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data = {}
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if parts[2] == 'INIT':
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# Add the previous function to the output
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if len(current_func) > 1:
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cfi_data[current_func[0][_ADDR_ENTRY]] = current_func
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current_func = []
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# The function line is of format "STACK CFI INIT <addr> <length> ..."
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data[_ADDR_ENTRY] = int(parts[3], 16)
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data[_LENGTH_ENTRY] = int(parts[4], 16)
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# Condition C1: Skip if length is large.
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if data[_LENGTH_ENTRY] == 0 or data[_LENGTH_ENTRY] > 0xffff:
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continue # Skip the current function.
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else:
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# The current function is skipped.
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if len(current_func) == 0:
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continue
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# The CFI row is of format "STACK CFI <addr> .cfa: <expr> .ra: <expr> ..."
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data[_ADDR_ENTRY] = int(parts[2], 16)
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(data[_CFA_REG], data[_RA_REG]) = _GetCfaAndRaOffset(parts)
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# Condition C2 and C3: Skip based on limits on offsets.
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if data[_CFA_REG] == 0 or data[_RA_REG] >= 16 or data[_CFA_REG] > 0xffff:
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current_func = []
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continue
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assert data[_CFA_REG] % 4 == 0
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# Since we skipped functions with code size larger than 0xffff, we should
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# have no function offset larger than the same value.
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assert data[_ADDR_ENTRY] - current_func[0][_ADDR_ENTRY] < 0xffff
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if data[_ADDR_ENTRY] == 0:
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# Skip current function, delete all previous entries.
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current_func = []
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continue
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assert data[_ADDR_ENTRY] % 2 == 0
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current_func.append(data)
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# Condition C4: Skip function without CFI rows.
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if len(current_func) > 1:
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cfi_data[current_func[0][_ADDR_ENTRY]] = current_func
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return cfi_data
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def _WriteCfiData(cfi_data, out_file):
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"""Writes the CFI data in defined format to out_file."""
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# Stores the final data that will be written to UNW_DATA table, in order
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# with 2 byte items.
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unw_data = []
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# Represent all the CFI data of functions as set of numbers and map them to an
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# index in the |unw_data|. This index is later written to the UNW_INDEX table
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# for each function. This map is used to find index of the data for functions.
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data_to_index = {}
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# Store mapping between the functions to the index.
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func_addr_to_index = {}
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previous_func_end = 0
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for addr, function in sorted(cfi_data.iteritems()):
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# Add an empty function entry when functions CFIs are missing between 2
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# functions.
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if previous_func_end != 0 and addr - previous_func_end > 4:
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func_addr_to_index[previous_func_end + 2] = _CANT_UNWIND
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previous_func_end = addr + cfi_data[addr][0][_LENGTH_ENTRY]
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assert len(function) > 1
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func_data_arr = []
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func_data = 0
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# The first row contains the function address and length. The rest of the
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# rows have CFI data. Create function data array as given in the format.
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for row in function[1:]:
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addr_offset = row[_ADDR_ENTRY] - addr
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cfa_offset = (row[_CFA_REG]) | (row[_RA_REG] / 4)
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func_data_arr.append(addr_offset)
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func_data_arr.append(cfa_offset)
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# Consider all the rows in the data as one large integer and add it as a key
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# to the |data_to_index|.
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for data in func_data_arr:
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func_data = (func_data << 16) | data
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row_count = len(func_data_arr) / 2
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if func_data not in data_to_index:
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# When data is not found, create a new index = len(unw_data), and write
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# the data to |unw_data|.
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index = len(unw_data)
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data_to_index[func_data] = index
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unw_data.append(row_count)
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for row in func_data_arr:
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unw_data.append(row)
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else:
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# If the data was found, then use the same index for the function.
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index = data_to_index[func_data]
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assert row_count == unw_data[index]
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func_addr_to_index[addr] = data_to_index[func_data]
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# Mark the end end of last function entry.
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func_addr_to_index[previous_func_end + 2] = _CANT_UNWIND
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# Write the size of UNW_INDEX file in bytes.
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_Write4Bytes(out_file, len(func_addr_to_index) * 6)
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# Write the UNW_INDEX table. First list of addresses and then indices.
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sorted_unw_index = sorted(func_addr_to_index.iteritems())
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for addr, index in sorted_unw_index:
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_Write4Bytes(out_file, addr)
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for addr, index in sorted_unw_index:
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_Write2Bytes(out_file, index)
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# Write the UNW_DATA table.
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for data in unw_data:
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_Write2Bytes(out_file, data)
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def _ParseCfiData(sym_file, output_path):
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with open(sym_file, 'r') as f:
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cfi_data = _GetAllCfiRows(f)
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with open(output_path, 'wb') as out_file:
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_WriteCfiData(cfi_data, out_file)
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def main():
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parser = argparse.ArgumentParser()
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parser.add_argument(
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'--input_path', required=True,
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help='The input path of the unstripped binary')
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parser.add_argument(
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'--output_path', required=True,
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help='The path of the output file')
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parser.add_argument(
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'--dump_syms_path', required=True,
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help='The path of the dump_syms binary')
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args = parser.parse_args()
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with tempfile.NamedTemporaryFile() as sym_file:
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out = subprocess.call(
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['./' +args.dump_syms_path, args.input_path], stdout=sym_file)
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assert not out
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sym_file.flush()
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_ParseCfiData(sym_file.name, args.output_path)
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return 0
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if __name__ == '__main__':
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sys.exit(main())
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