Adding draw_boot to herrewebpy
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herrewebpy/firmware_forensics/memory_drawer.py
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207
herrewebpy/firmware_forensics/memory_drawer.py
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# Using plotly
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import plotly.graph_objects as go
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import random, argparse
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import numpy as np
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import pandas as pd
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def read_data(df):
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data = pd.read_csv('stack_and_functions.csv')
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def convert_to_int(value):
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try:
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if isinstance(value, str) and value.startswith('0x'):
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return int(value, 16)
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else:
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return int(value)
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except ValueError:
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return value
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data['start'] = data['start'].apply(convert_to_int)
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data['end'] = data['end'].apply(convert_to_int)
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data['size'] = data['end'] - data['start']
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data.sort_values(by=['size'], inplace=True, ascending=False)
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data.sort_values(by=['start'], inplace=True)
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# Inverse the order of the data
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data.reset_index(drop=True, inplace=True)
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data['overlap'] = False
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for i, row in data.iterrows():
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for j, row2 in data.iterrows():
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if i == j:
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continue
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if row['start'] <= row2['end'] and row['end'] > row2['start']:
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if row['end'] - row['start'] >= row2['end'] - row2['start']:
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continue
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data.at[i, 'overlap'] = True
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data.at[j, 'overlap'] = True
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data.at[i, 'overlap_with'] = j
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data['overlap_with'] = data['overlap_with'].fillna(data.index.to_series())
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data['overlap_with'] = data['overlap_with'].astype(float)
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# Send warnings if sizes are negative
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if (data['size'] < 0).any():
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print(f'Warning: Negative sizes detected at indices {data[data["size"] < 0].index}')
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def draw_diagram(data):
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tickpointers = []
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vertical_len = len(data['overlap_with'].unique())
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vertical_gap_percentage = 0.08
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horizontal_gap = 0.1
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labels = pd.DataFrame()
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def random_color():
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return f'#{random.randint(0, 0xFFFFFF):06x}'
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fig = go.Figure()
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for i, d in data.iterrows():
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fillcolor = random_color()
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data.at[i, 'fillcolor'] = fillcolor
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x0=1
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x1=4
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if d['overlap'] == False:
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y0=d['overlap_with']
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y1=d['overlap_with']+1
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elif d['overlap'] == True:
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overlaps = data.loc[data['overlap_with'] == d['overlap_with']].shape[0]
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# Calculate relative size of the overlap
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overlap_sizes = data.loc[data['overlap_with'] == d['overlap_with']].iloc[1:]['size'].sum()
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if d['overlap_with'] == i:
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y0=i
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y1=overlaps+i
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if i != data.shape[0]+1:
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if d['end'] > data.iloc[i+1].start and d['end'] < data.iloc[i+1].end:
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y1=overlaps+i-0.5
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x0=x0-horizontal_gap
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x1=x1+horizontal_gap
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else:
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y0=0.02+i
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y1=0.87+i
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else:
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print(f'Something went wrong with {d}. Skipping')
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continue
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fig.add_shape(
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type="rect",
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x0=x0,
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x1=x1,
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y0=y0+vertical_gap_percentage,
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y1=y1-vertical_gap_percentage,
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line=dict(width=2),
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fillcolor=fillcolor,
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opacity=0.5,
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layer="below",
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)
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# Add middle text
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fig.add_trace(go.Scatter
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(
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x=[(x0+x1)/2],
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y=[y0+0.5],
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text=d['name'],
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mode="text",
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textposition="middle center",
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name=d['name'],
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marker=dict(
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color=fillcolor,
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),
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))
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# Add top-left text with d['end']
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fig.add_trace(go.Scatter
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(
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x=[(x0+0.14+horizontal_gap)],
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y=[y1-0.16],
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text=hex(d['end']),
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mode="text",
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textposition="middle center",
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marker=dict(
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color=fillcolor,
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),
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showlegend=False,
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))
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# Add bottom-left text with d['end']
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fig.add_trace(go.Scatter
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(
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x=[(x0+0.14+horizontal_gap)],
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y=[y0+0.14],
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text=hex(d['start']),
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mode="text",
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textposition="middle center",
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marker=dict(
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color=fillcolor,
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),
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showlegend=False,
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))
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fig.update_xaxes(
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range=[0, 5],
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tickvals=[0, 1, 2, 3, 4, 5],
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)
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start_values = data['start'].sort_values()
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end_values = data['end'].sort_values()
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labels = []
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for i, d in data.iterrows():
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if i == 0:
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labels.append(f'{hex(start_values.iloc[i])}')
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elif i == len(data)-1:
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labels.append(f'{hex(end_values.iloc[i])}')
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else:
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labels.append(f'{hex(start_values.iloc[i])}<br>{hex(end_values.iloc[i-1])}')
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tickpointers = [i for i in range(len(data))]
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fig.update_yaxes(
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# tickvals=[i for i in range(len(data)+1)],
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tickvals = tickpointers,
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# ticktext= labels,
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griddash="longdashdot",
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gridwidth=0,
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gridcolor="black",
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showgrid=False,
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showticklabels=True,
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autorange='reversed',
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)
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fig.update_xaxes(
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showgrid=False,
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showticklabels=False,
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)
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fig.update_layout(
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width=1200,
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height=1200,
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autosize=True,
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margin=dict(l=200, r=20, t=20, b=20),
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font=dict(
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size=18,
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),
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# Legend being the name of the function
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legend_title_text="Function/Locations",
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)
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def write_output(fig):
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fig.write_html("../_static/stack_and_functions.html")
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if __name__ == '__main__':
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argparser = argparse.ArgumentParser()
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argparser.add_argument('input', help='Input CSV file path', required=True)
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argparser.add_argument('output', help='Output HTML filename', required=False)
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args = argparser.parse_args()
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data = read_data('stack_and_functions.csv')
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fig = draw_diagram(data)
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write_output(fig)
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