mirror of
https://git.kernel.org/pub/scm/linux/kernel/git/kdave/btrfs-progs.git
synced 2024-12-05 10:04:17 +08:00
de34a33a82
There is already a replacement in the face of btrfs inspect-internal dump-tree. And this command is just a simple wrapper around it. Just remove it and adjust the show-blocks script to call the main btrfs binary to achieve the same effect. Informally deprecated since 4.4. Issue: #97 Signed-off-by: Nikolay Borisov <nborisov@suse.com> Signed-off-by: David Sterba <dsterba@suse.com>
326 lines
9.0 KiB
Python
Executable File
326 lines
9.0 KiB
Python
Executable File
#!/usr/bin/env python
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#
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# Copyright (C) 2007 Oracle. All rights reserved.
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#
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# This program is free software; you can redistribute it and/or
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# modify it under the terms of the GNU General Public
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# License v2 as published by the Free Software Foundation.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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# General Public License for more details.
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#
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# You should have received a copy of the GNU General Public
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# License along with this program; if not, write to the
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# Free Software Foundation, Inc., 59 Temple Place - Suite 330,
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# Boston, MA 021110-1307, USA.
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#
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import sys, os, signal, time, commands, tempfile, random
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# numpy seems to override random() with something else. Instantiate our
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# own here
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randgen = random.Random()
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randgen.seed(50)
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from optparse import OptionParser
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from matplotlib import rcParams
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from matplotlib.font_manager import fontManager, FontProperties
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import numpy
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rcParams['numerix'] = 'numpy'
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rcParams['backend'] = 'Agg'
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rcParams['interactive'] = 'False'
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from pylab import *
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class AnnoteFinder:
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"""
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callback for matplotlib to display an annotation when points are clicked on. The
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point which is closest to the click and within xtol and ytol is identified.
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Register this function like this:
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scatter(xdata, ydata)
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af = AnnoteFinder(xdata, ydata, annotes)
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connect('button_press_event', af)
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"""
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def __init__(self, axis=None):
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if axis is None:
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self.axis = gca()
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else:
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self.axis= axis
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self.drawnAnnotations = {}
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self.links = []
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def clear(self):
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for k in self.drawnAnnotations.keys():
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self.drawnAnnotations[k].set_visible(False)
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def __call__(self, event):
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if event.inaxes:
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if event.button != 1:
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self.clear()
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draw()
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return
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clickX = event.xdata
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clickY = event.ydata
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if (self.axis is None) or (self.axis==event.inaxes):
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self.drawAnnote(event.inaxes, clickX, clickY)
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def drawAnnote(self, axis, x, y):
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"""
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Draw the annotation on the plot
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"""
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if self.drawnAnnotations.has_key((x,y)):
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markers = self.drawnAnnotations[(x,y)]
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markers.set_visible(not markers.get_visible())
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draw()
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else:
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t = axis.text(x,y, "(%3.2f, %3.2f)"%(x,y), bbox=dict(facecolor='red',
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alpha=0.8))
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self.drawnAnnotations[(x,y)] = t
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draw()
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def loaddata(fh,delimiter=None, converters=None):
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#14413824 8192 extent back ref root 5 gen 10 owner 282 num_refs 1
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def iter(fh, delimiter, converters):
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global total_data
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global total_metadata
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for i,line in enumerate(fh):
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line = line.split(' ')
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start = float(line[0])
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len = float(line[1])
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owner = float(line[10])
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root = float(line[6])
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if owner <= 255:
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total_metadata += int(len)
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else:
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total_data += int(len)
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if start < zoommin or (zoommax != 0 and start > zoommax):
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continue
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yield start
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yield len
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yield owner
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yield root
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X = numpy.fromiter(iter(fh, delimiter, converters), dtype=float)
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return X
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def run_debug_tree(device):
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p = os.popen('btrfs inspect-internal dump-tree -e ' + device)
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data = loaddata(p)
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return data
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def shapeit(X):
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lines = len(X) / 4
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X.shape = (lines, 4)
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def line_picker(line, mouseevent):
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if mouseevent.xdata is None: return False, dict()
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print "%d %d\n", mouseevent.xdata, mouseevent.ydata
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return False, dict()
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def xycalc(byte):
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byte = byte / bytes_per_cell
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yval = floor(byte / num_cells)
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xval = byte % num_cells
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return (xval, yval + 1)
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# record the color used for each root the first time we find it
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root_colors = {}
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# there are lots of good colormaps to choose from
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# http://www.scipy.org/Cookbook/Matplotlib/Show_colormaps
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#
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meta_cmap = get_cmap("gist_ncar")
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data_done = False
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def plotone(a, xvals, yvals, owner, root, lines, labels):
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global data_done
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add_label = False
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if owner:
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if options.meta_only:
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return
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color = "blue"
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label = "Data"
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if not data_done:
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add_label = True
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data_done = True
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else:
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if options.data_only:
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return
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if root not in root_colors:
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color = meta_cmap(randgen.random())
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label = "Meta %d" % int(root)
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root_colors[root] = (color, label)
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add_label = True
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else:
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color, label = root_colors[root]
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plotlines = a.plot(xvals, yvals, 's', color=color, mfc=color, mec=color,
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markersize=.23, label=label)
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if add_label:
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lines += plotlines
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labels.append(label)
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print "add label %s" % label
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def parse_zoom():
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def parse_num(s):
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mult = 1
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c = s.lower()[-1]
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if c == 't':
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mult = 1024 * 1024 * 1024 * 1024
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elif c == 'g':
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mult = 1024 * 1024 * 1024
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elif c == 'm':
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mult = 1024 * 1024
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elif c == 'k':
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mult = 1024
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else:
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c = None
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if c:
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num = int(s[:-1]) * mult
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else:
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num = int(s)
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return num
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if not options.zoom:
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return (0, 0)
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vals = options.zoom.split(':')
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if len(vals) != 2:
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sys.stderr.write("warning: unable to parse zoom %s\n" % options.zoom)
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return (0, 0)
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zoommin = parse_num(vals[0])
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zoommax = parse_num(vals[1])
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return (zoommin, zoommax)
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usage = "usage: %prog [options]"
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parser = OptionParser(usage=usage)
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parser.add_option("-d", "--device", help="Btrfs device", default="")
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parser.add_option("-i", "--input-file", help="debug-tree data", default="")
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parser.add_option("-o", "--output", help="Output file", default="blocks.png")
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parser.add_option("-z", "--zoom", help="Zoom", default=None)
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parser.add_option("", "--data-only", help="Only print data blocks",
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default=False, action="store_true")
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parser.add_option("", "--meta-only", help="Only print metadata blocks",
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default=False, action="store_true")
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(options,args) = parser.parse_args()
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if not options.device and not options.input_file:
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parser.print_help()
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sys.exit(1)
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zoommin, zoommax = parse_zoom()
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total_data = 0
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total_metadata = 0
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if options.device:
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data = run_debug_tree(options.device)
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elif options.input_file:
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data = loaddata(file(options.input_file))
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shapeit(data)
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# try to drop out the least common data points by creating
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# a histogram of the sectors seen.
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sectors = data[:,0]
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sizes = data[:,1]
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datalen = len(data)
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sectormax = numpy.max(sectors)
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sectormin = 0
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num_cells = 800
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total_cells = num_cells * num_cells
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byte_range = sectormax - sectormin
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bytes_per_cell = byte_range / total_cells
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f = figure(figsize=(8,6))
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# Throughput goes at the bottom
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a = subplot(1, 1, 1)
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subplots_adjust(right=0.7)
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datai = 0
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xvals = []
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yvals = []
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last_owner = 0
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last_root = 0
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lines = []
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labels = []
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while datai < datalen:
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row = data[datai]
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datai += 1
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byte = row[0]
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size = row[1]
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owner = row[2]
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root = row[3]
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if owner <= 255:
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owner = 0
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else:
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owner = 1
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if len(xvals) and (owner != last_owner or last_root != root):
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plotone(a, xvals, yvals, last_owner, last_root, lines, labels)
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xvals = []
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yvals = []
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cell = 0
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while cell < size:
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xy = xycalc(byte)
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byte += bytes_per_cell
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cell += bytes_per_cell
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if xy:
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xvals.append(xy[0])
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yvals.append(xy[1])
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last_owner = owner
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last_root = root
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if xvals:
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plotone(a, xvals, yvals, last_owner, last_root, lines, labels)
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# make sure the final second goes on the x axes
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ticks = []
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a.set_xticks(ticks)
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ticks = a.get_yticks()
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first_tick = ticks[1] * bytes_per_cell * num_cells
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if first_tick > 1024 * 1024 * 1024 * 1024:
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scale = 1024 * 1024 * 1024 * 1024;
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scalestr = "TB"
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elif first_tick > 1024 * 1024 * 1024:
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scale = 1024 * 1024 * 1024;
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scalestr = "GB"
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elif first_tick > 1024 * 1024:
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scale = 1024 * 1024;
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scalestr = "MB"
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elif first_tick > 1024:
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scale = 1024;
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scalestr = "KB"
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else:
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scalestr = "Bytes"
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scale = 1
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ylabels = [ str(int((x * bytes_per_cell * num_cells) / scale)) for x in ticks ]
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a.set_yticklabels(ylabels)
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a.set_ylabel('Disk offset (%s)' % scalestr)
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a.set_xlim(0, num_cells)
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a.set_title('Blocks')
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a.legend(lines, labels, loc=(1.05, 0.8), shadow=True, pad=0.1, numpoints=1,
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handletextsep = 0.005,
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labelsep = 0.01,
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markerscale=10,
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prop=FontProperties(size='x-small') )
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if total_data == 0:
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percent_meta = 100
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else:
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percent_meta = (float(total_metadata) / float(total_data)) * 100
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print "Total metadata bytes %d data %d ratio %.3f" % (total_metadata,
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total_data, percent_meta)
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print "saving graph to %s" % options.output
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savefig(options.output, orientation='landscape')
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show()
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