pjsip-pjproject/pjsip-apps/build/get-footprint.py

338 lines
12 KiB
Python

#
# This file is used to generate PJSIP/PJMEDIA footprint report.
# To use this file, just run it in pjsip-apps/build directory, to
# produce footprint.txt and footprint.htm report files.
#
import os
import sys
import string
import time
compile_flags1 = [
# Base
['BASE', 'Empty application size'],
['', 'Subtotal: Empty application size'],
['HAS_PJLIB', 'Minimum PJLIB only'],
# Subtotal
['', 'Subtotal'],
# PJLIB-UTIL
['HAS_PJLIB_STUN', 'STUN client'],
['HAS_PJLIB_GETOPT', 'getopt() functionality'],
# Subtotal
['', 'TOTAL']
]
compile_flags = [
# Base
['BASE', 'Empty application size'],
['', 'Subtotal: empty application size on this platform'],
['HAS_PJLIB', 'PJLIB (pool, data structures, hash tables, ioqueue, socket, timer heap, etc.). ' +
'For targets that statically link application with LIBC, the size includes ' +
'various LIBC functions that are used by PJLIB.'],
['', 'Subtotal: Application linked with PJLIB'],
# PJLIB-UTIL
['HAS_PJLIB_STUN', 'PJLIB-UTIL STUN client'],
['HAS_PJLIB_GETOPT', 'PJLIB-UTIL getopt() functionality'],
['HAS_PJLIB_SCANNER', 'PJLIB-UTIL text scanner (needed by SIP parser)'],
['HAS_PJLIB_XML', 'PJLIB-UTIL tiny XML (parsing and API) (needs text scanner)'],
['HAS_PJLIB_DNS', 'PJLIB-UTIL DNS packet and parsing'],
['HAS_PJLIB_RESOLVER', 'PJLIB-UTIL Asynchronous DNS resolver/caching engine'],
['HAS_PJLIB_CRC32', 'PJLIB-UTIL CRC32 algorithm'],
['HAS_PJLIB_HMAC_MD5', 'PJLIB-UTIL HMAC-MD5 algorithm'],
['HAS_PJLIB_HMAC_SHA1', 'PJLIB-UTIL HMAC-SHA1 algorithm'],
# PJSIP
['HAS_PJSIP_CORE_MSG_ELEM', 'PJSIP Core - Messaging Elements and Parsing (message, headers, SIP URI, TEL URI/RFC 3966, etc.)'],
['HAS_PJSIP_CORE', 'PJSIP Core - Endpoint (transport management, module management, event distribution, etc.)'],
['HAS_PJSIP_CORE_MSG_UTIL', 'PJSIP Core - Stateless operations, SIP SRV, server resolution and fail-over'],
['HAS_PJSIP_UDP_TRANSPORT', 'PJSIP UDP transport'],
['', 'Subtotal: A minimalistic SIP application (parsing, UDP transport+STUN, no transaction)'],
['HAS_PJSIP_TCP_TRANSPORT', 'PJSIP TCP transport'],
['HAS_PJSIP_TLS_TRANSPORT', 'PJSIP TLS transport'],
['HAS_PJSIP_INFO', 'PJSIP INFO support (RFC 2976) (no special treatment, thus the zero size)'],
['HAS_PJSIP_TRANSACTION', 'PJSIP transaction and stateful API'],
['HAS_PJSIP_AUTH_CLIENT', 'PJSIP digest authentication client'],
['HAS_PJSIP_UA_LAYER', 'PJSIP User agent layer and base dialog and usage management (draft-ietf-sipping-dialogusage-01)'],
['HAS_PJMEDIA_SDP', 'PJMEDIA SDP Parsing and API (RFC 2327), needed by SDP negotiator'],
['HAS_PJMEDIA_SDP_NEGOTIATOR','PJMEDIA SDP negotiator (RFC 3264), needed by INVITE session'],
['HAS_PJSIP_INV_SESSION', 'PJSIP INVITE session API'],
['HAS_PJSIP_REGC', 'PJSIP client registration API'],
['', 'Subtotal: Minimal SIP application with registration (including digest authentication)'],
['HAS_PJSIP_EVENT_FRAMEWORK','PJSIP Event/SUBSCRIBE framework, RFC 3265 (needed by call transfer, and presence)'],
['HAS_PJSIP_CALL_TRANSFER', 'PJSIP Call Transfer/REFER support (RFC 3515)'],
['', 'Subtotal: Minimal SIP application with call transfer'],
['HAS_PJSIP_PRESENCE', 'PJSIP Presence subscription, including PIDF/X-PIDF support (RFC 3856, RFC 3863, etc) (needs XML)'],
['HAS_PJSIP_MESSAGE', 'PJSIP Instant Messaging/MESSAGE support (RFC 3428) (no special treatment, thus the zero size)'],
['HAS_PJSIP_IS_COMPOSING', 'PJSIP Message Composition indication (RFC 3994)'],
# Subtotal
['', 'Subtotal: Complete PJSIP package (call, registration, presence, IM) +STUN +GETOPT (+PJLIB), no media'],
# PJNATH
['HAS_PJNATH_STUN', 'PJNATH STUN'],
['HAS_PJNATH_ICE', 'PJNATH ICE'],
# PJMEDIA
['HAS_PJMEDIA_EC', 'PJMEDIA accoustic echo cancellation'],
['HAS_PJMEDIA_SND_DEV', 'PJMEDIA sound device backend (platform specific)'],
['HAS_PJMEDIA_SILENCE_DET', 'PJMEDIA Adaptive silence detector'],
['HAS_PJMEDIA', 'PJMEDIA endpoint'],
['HAS_PJMEDIA_PLC', 'PJMEDIA Packet Lost Concealment implementation (needed by G.711, GSM, and sound device port)'],
['HAS_PJMEDIA_SND_PORT', 'PJMEDIA sound device media port'],
['HAS_PJMEDIA_RESAMPLE', 'PJMEDIA resampling algorithm (large filter disabled)'],
['HAS_PJMEDIA_G711_CODEC', 'PJMEDIA G.711 codec (PCMA/PCMU, including PLC) (may have already been linked by other module)'],
['HAS_PJMEDIA_CONFERENCE', 'PJMEDIA conference bridge (needs resampling and silence detector)'],
['HAS_PJMEDIA_MASTER_PORT', 'PJMEDIA master port'],
['HAS_PJMEDIA_RTP', 'PJMEDIA stand-alone RTP'],
['HAS_PJMEDIA_RTCP', 'PJMEDIA stand-alone RTCP and media quality calculation'],
['HAS_PJMEDIA_JBUF', 'PJMEDIA stand-alone adaptive jitter buffer'],
['HAS_PJMEDIA_STREAM', 'PJMEDIA stream for remote media communication (needs RTP, RTCP, and jitter buffer)'],
['HAS_PJMEDIA_TONEGEN', 'PJMEDIA tone generator'],
['HAS_PJMEDIA_UDP_TRANSPORT','PJMEDIA UDP media transport'],
['HAS_PJMEDIA_FILE_PLAYER', 'PJMEDIA WAV file player'],
['HAS_PJMEDIA_FILE_CAPTURE', 'PJMEDIA WAV file writer'],
['HAS_PJMEDIA_MEM_PLAYER', 'PJMEDIA fixed buffer player'],
['HAS_PJMEDIA_MEM_CAPTURE', 'PJMEDIA fixed buffer writer'],
['HAS_PJMEDIA_ICE', 'PJMEDIA ICE transport'],
# Subtotal
['', 'Subtotal: Complete SIP and all PJMEDIA features (G.711 codec only)'],
# Codecs
['HAS_PJMEDIA_GSM_CODEC', 'PJMEDIA GSM codec (including PLC)'],
['HAS_PJMEDIA_SPEEX_CODEC', 'PJMEDIA Speex codec (narrowband, wideband, ultra-wideband)'],
['HAS_PJMEDIA_ILBC_CODEC', 'PJMEDIA iLBC codec'],
# Total
['', 'TOTAL: complete libraries (+all codecs)'],
]
# Executable size report, tuple of:
# <all flags>, <flags added>, <text size>, <data>, <bss>, <description>
exe_size = []
#
# Write the report to text file
#
def print_text_report(filename):
output = open(filename, 'w')
output.write('PJSIP and PJMEDIA footprint report\n')
output.write('Auto-generated by pjsip-apps/build/get-footprint.py\n')
output.write('\n')
# Write Revision info.
f = os.popen('svn info | grep Revision')
output.write(f.readline())
output.write('Date: ')
output.write(time.asctime())
output.write('\n')
output.write('\n')
# Write individual module size
output.write('Footprint (in bytes):\n')
output.write(' .text .data .bss Module Description\n')
output.write('==========================================================\n')
for i in range(1, len(exe_size)):
e = exe_size[i]
prev = exe_size[i-1]
if e[1]<>'':
output.write(' ')
output.write( string.rjust(`string.atoi(e[2]) - string.atoi(prev[2])`, 8) )
output.write( string.rjust(`string.atoi(e[3]) - string.atoi(prev[3])`, 8) )
output.write( string.rjust(`string.atoi(e[4]) - string.atoi(prev[4])`, 8) )
output.write(' ' + e[5] + '\n')
else:
output.write(' ------------------------\n')
output.write(' ')
output.write( string.rjust(e[2], 8) )
output.write( string.rjust(e[3], 8) )
output.write( string.rjust(e[4], 8) )
output.write(' ' + e[5] + '\n')
output.write('\n')
# Done
output.close()
#
# Write the report to HTML file
#
def print_html_report():
# Get Revision info.
f = os.popen('svn info | grep Revision')
revision = f.readline().split()[1]
# Get Machine, OS, and CC name
f = os.popen('make -f Footprint.mak print_name')
names = f.readline().split()
m = names[0]
o = names[1]
cc = names[2]
cc_ver = names[3]
# Open HTML file
filename = 'footprint-' + m + '-' + o + '.htm'
output = open(filename, 'w')
title = 'PJSIP and PJMEDIA footprint report for ' + m + '-' + o + ' target'
output.write('<HTML><HEAD>\n');
output.write(' <TITLE>' + title + '</TITLE>\n')
output.write(' <LINK href="/style/style.css" type="text/css" rel="stylesheet">\n')
output.write('</HEAD>\n');
output.write('<BODY bgcolor="white">\n');
output.write('<!--#include virtual="/header.html" -->')
output.write(' <H1>' + title + '</H1>\n')
output.write('Auto-generated by pjsip-apps/build/get-footprint.py script\n')
output.write('<p>Date: ' + time.asctime() + '<BR>\n')
output.write('Revision: r' + revision + '</p>\n\n')
output.write('<HR>\n')
output.write('\n')
# Info
output.write('<H2>Build Configuration</H2>\n')
# build.mak
output.write('\n<H3>build.mak</H3>\n')
output.write('<tt>\n')
f = open('../../build.mak', 'r')
s = f.readlines()
for l in s:
output.write(l + '<BR>\n')
output.write('</tt>\n')
output.write('<p>Using ' + cc + ' version ' + cc_ver +'</p>\n')
# user.mak
output.write('\n<H3>user.mak</H3>\n')
output.write('<tt>\n')
f = open('../../user.mak', 'r')
s = f.readlines()
for l in s:
output.write(l + '<BR>\n')
output.write('</tt>\n')
# config_site.h
output.write('\n<H3>&lt;pj/config.site.h&gt;</H3>\n')
output.write('<tt>\n')
f = os.popen('cpp -dM -I../../pjlib/include ../../pjlib/include/pj/config_site.h | grep PJ')
s = f.readlines()
for l in s:
output.write(l + '<BR>\n')
output.write('</tt>\n')
# Write individual module size
output.write('<H2>Footprint Report</H2>\n')
output.write('<p>The table below shows the footprint of individual feature, in bytes.</p>')
output.write('<TABLE border="1" cellpadding="2" cellspacing="0">\n' +
'<TR bgcolor="#e8e8ff">\n' +
' <TD align="center"><strong>.text</strong></TD>\n' +
' <TD align="center"><strong>.data</strong></TD>\n' +
' <TD align="center"><strong>.bss</strong></TD>\n' +
' <TD align="center"><strong>Features/Module Description</strong></TD>\n' +
'</TR>\n')
for i in range(1, len(exe_size)):
e = exe_size[i]
prev = exe_size[i-1]
output.write('<TR>\n')
if e[1]<>'':
output.write( ' <TD align="right">' + `string.atoi(e[2]) - string.atoi(prev[2])` + '</TD>\n')
output.write( ' <TD align="right">' + `string.atoi(e[3]) - string.atoi(prev[3])` + '</TD>\n')
output.write( ' <TD align="right">' + `string.atoi(e[4]) - string.atoi(prev[4])` + '</TD>\n' )
output.write( ' <TD>' + e[5] + '</TD>\n')
else:
empty_size = exe_size[1]
output.write('<TR bgcolor="#e8e8ff">\n')
output.write( ' <TD align="right">&nbsp;</TD>\n')
output.write( ' <TD align="right">&nbsp;</TD>\n')
output.write( ' <TD align="right">&nbsp;</TD>\n')
output.write( ' <TD><strong>' + e[5] + ': .text=' + e[2]+ ', .data=' + e[3] + ', .bss=' + e[4] )
output.write( '\n </strong> <BR>(Size minus empty application size: ' + \
'.text=' + `string.atoi(e[2]) - string.atoi(empty_size[2])` + \
', .data=' + `string.atoi(e[3]) - string.atoi(empty_size[3])` + \
', .data=' + `string.atoi(e[4]) - string.atoi(empty_size[4])` + \
')\n' )
output.write( ' </TD>\n')
output.write('</TR>\n')
output.write('</TABLE>\n')
output.write('<!--#include virtual="/footer.html" -->')
output.write('</BODY>\n')
output.write('</HTML>\n')
# Done
output.close()
#
# Get the size of individual feature
#
def get_size(all_flags, flags, desc):
file = 'footprint.exe'
# Remove file
rc = os.system("make -f Footprint.mak FCFLAGS='" + all_flags + "' clean")
# Make the executable
cmd = "make -f Footprint.mak FCFLAGS='" + all_flags + "' all"
#print cmd
rc = os.system(cmd)
if rc <> 0:
sys.exit(1)
# Run 'size' against the executable
f = os.popen('size ' + file)
# Skip header of the 'size' output
f.readline()
# Get the sizes
size = f.readline()
f.close()
# Split into tokens
tokens = size.split()
# Build the size tuple and add to exe_size
elem = all_flags, flags, tokens[0], tokens[1], tokens[2], desc
exe_size.append(elem)
# Remove file
rc = os.system("make -f Footprint.mak FCFLAGS='" + all_flags + "' clean")
# Main
elem = '', '', '0', '0', '0', ''
exe_size.append(elem)
all_flags = ''
for elem in compile_flags:
if elem[0] <> '':
flags = '-D' + elem[0]
all_flags += flags + ' '
get_size(all_flags, elem[0], elem[1])
else:
e = exe_size[len(exe_size)-1]
n = all_flags, '', e[2], e[3], e[4], elem[1]
exe_size.append(n)
#print_text_report('footprint.txt')
print_html_report()