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appveyor-script.py
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appveyor-script.py
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#!/usr/bin/env python
"""A Python replacement for the appveyor-script.bat.
"""
from __future__ import print_function
import sys, os, time
#
# The install packages and their sizes for various compilers.
# These can be rather slow:
#
URLs = { 'djgpp': [ 'http://www.watt-32.net/CI/dj-win.zip', 42100 ],
'watcom': [ 'http://www.watt-32.net/CI/watcom20.zip', 18982 ],
'borland': [ 'http://www.watt-32.net/CI/borland.zip', 37142 ],
'clang': [ 'http://www.watt-32.net/CI/llvm-installer.exe',198478 ]
} # kBytes ^
builders = [ 'visualc', 'clang', 'mingw32', 'mingw64', 'borland', 'djgpp', 'watcom' ]
use_colorama = 0
use_curl = int (os.getenv('USE_CURL','0'))
#
# When testing locally, there should be no '%APPVEYOR_PROJECT_NAME%'
#
if os.getenv('APPVEYOR_PROJECT_NAME'):
local_test = 0
echo = 'c:\\msys64\\usr\\bin\\echo.exe -en'
else:
local_test = 1
echo = os.getenv('MSYS2_ROOT') + '\\usr\\bin\\echo.exe -en'
try:
from colorama2 import init, Fore, Style # Fails on AppVeyour
init()
colour_yellow = Fore.YELLOW + Style.BRIGHT
colour_off = Style.RESET_ALL
use_colorama = 1
except ImportError:
colour_yellow = r'\e[1;33m'
colour_off = r'\e[0m'
#
# Why so hard to get colours on AppVeyor?
#
def cprint (s, end='\n'):
global use_colorama
if use_colorama:
s = '%s%s%s' % (colour_yellow, s, colour_off)
print (s, end=end)
else:
s = '%s%s%s%s' % (colour_yellow, s.replace('\\','/'), colour_off, end)
cmd = '%s "%s"' % (echo, s)
# print ('cmd: %s' % cmd)
os.system (cmd)
def Fatal (s):
cprint (s)
sys.exit (1)
#
# Check all needed local env-vars
#
def check_local_env (global_e):
if not local_test:
return
envs = ['WK_ROOT', 'WK_VER', 'VCToolsInstallDir', 'CLANG_32', 'CLANG_64', 'USE_CURL']
for e in envs:
if not os.getenv(e):
cprint ("Missing env-var '%s'." % e)
#
# Create a .bat file in '%TEMP' and run it via 'cmd.exe /c file.bat'
#
def write_and_run_bat (fname, content, args=""):
bat = os.getenv('TEMP') + '\\' + fname
f = open (bat, 'wt+')
f.write (':: Generated by %s at %s\n' % (__file__, time.ctime()))
for l in content:
f.write (l + '\n')
f.close()
return os.system ('cmd.exe /C %s %s' % (bat, args))
#
# Return VisualC binary and library directories
#
def get_visualc_dirs (cpu):
vc_bin_dir = os.getenv('VCToolsInstallDir') + r'\bin\Hostx64\%s' % cpu
vc_lib_dir = os.getenv('VCToolsInstallDir') + r'\lib\%s' % cpu
if not os.path.isdir(vc_bin_dir):
Fatal ("vc_bin_dir '%s' does not exists!\n" % vc_bin_dir)
if not os.path.isdir(vc_lib_dir):
Fatal ("vc_lib_dir '%s' does not exists!\n" % vc_lib_dir)
return vc_bin_dir, vc_lib_dir
#
# local_test: Return Windows-Kits's 'ucrt' and 'um' (user-mode) library directories
#
def get_winkit_lib_dirs (cpu):
lib_dir = os.getenv('WK_ROOT') + r'\Lib\\' + os.getenv('WK_VER')
um_dir = r'%s\um\%s' % (lib_dir, cpu)
ucrt_dir = r'%s\ucrt\%s' % (lib_dir, cpu)
if not os.path.isdir(um_dir):
Fatal ("WinKit's um_dir '%s' does not exists!\n" % um_dir)
if not os.path.isdir(ucrt_dir):
Fatal ("WinKit's ucrt_dir '%s' does not exists!\n" % ucrt_dir)
return um_dir, ucrt_dir
#
# local_test: Return LLVM root for 'cpu = [x86 | x64]'
#
def get_LLVM_root (cpu):
if cpu == 'x86':
root = os.getenv('CLANG_32')
elif cpu == 'x64':
root = os.getenv('CLANG_64')
else:
root = '??'
if not os.path.isdir(root):
Fatal ("LLVM's root dir '%s' for 'CPU=%s' does not exists!\n" % (root, cpu))
return root
#
# Env-vars common to 'build_src', 'build_bin' and 'build_tests' stages.
#
def get_env_vars_common():
env_var = {}
global local_test
if local_test:
watt_root = os.getenv('WATT_ROOT')
if not watt_root:
Fatal ('WATT_ROOT not set!')
else:
watt_root = 'c:\projects\watt-32' # == %APPVEYOR_BUILD_FOLDER
cpu = os.getenv('CPU', 'x86')
builder = os.getenv('BUILDER')
if not builder:
Fatal ('BUILDER not set!')
if not builder in builders:
Fatal ("Illegal BUILDER: '%s'." % builder)
if cpu != 'x86' and builder in ['watcom', 'djgpp', 'borland']:
Fatal ("BUILDER '%s' must have 'CPU=x86'." % builder)
env_var['WATT_ROOT'] = watt_root
env_var['BUILDER'] = builder
env_var['CPU'] = cpu
env_var['CL'] = ''
env_var['MODEL'] = os.getenv('MODEL', 'none')
env_var['PATH'] = os.getenv('PATH')
env_var['BITS'] = ['32','64'][cpu == 'x64']
env_var['CI_ROOT'] = env_var['WATT_ROOT'] + r'\CI-temp' # Download and install packages here
#
# Set needed env-vars unless this is AppVeyor.
# The 'vcvarsall.bat %CPU%' kludge fails to work here.
#
if local_test:
if builder in ['visualc', 'clang']:
vc_bin_dir, vc_lib_dir = get_visualc_dirs (cpu)
um_dir, ucrt_dir = get_winkit_lib_dirs (cpu)
env_var['PATH'] = vc_bin_dir + ';' + env_var['PATH']
env_var['LIB'] = vc_lib_dir + ';' + um_dir + ';' + ucrt_dir + ';' + os.getenv('LIB')
if builder == 'clang':
env_var['PATH'] = get_LLVM_root(cpu) + r'\bin;' + env_var['PATH']
else:
if builder == 'clang' and cpu == 'x86':
env_var['PATH'] = r'c:\Program Files\LLVM\bin;' + env_var['PATH']
if builder in ['mingw32', 'mingw64']:
env_var['MINGW32'] = watt_root.replace ('\\','/')
env_var['MINGW64'] = watt_root.replace ('\\','/')
#
# Set the dir for djgpp cross-environment.
# Use forward slashes for this. Otherwise 'sh' + 'make' will get confused.
# 7z can create only 1 level of missing directories. So a '%CI_ROOT%\djgpp' will not work
#
if builder == 'djgpp':
env_var['DJGPP'] = env_var['CI_ROOT'].replace ('\\','/')
env_var['DJGPP_PREFIX'] = env_var['DJGPP'] + '/bin/i586-pc-msdosdjgpp'
if builder == 'watcom':
env_var['WATCOM'] = env_var['CI_ROOT']
env_var['NT_INCLUDE'] = env_var['WATCOM'] + r'\h;' + env_var['WATCOM'] + r'\h\nt'
env_var['DOS_INCLUDE'] = env_var['WATCOM'] + r'\h'
env_var['PATH'] = env_var['WATCOM'] + r'\binnt;' + env_var['PATH']
if builder == 'borland':
env_var['BCCDIR'] = env_var['CI_ROOT']
env_var['INCLUDE'] = env_var['BCCDIR'] + r'\include\windows;' + env_var['BCCDIR'] + r'\include\windows\sdk'
env_var['CBUILDER_IS_LLVM_BASED'] = '1'
env_var['PATH'] = env_var['BCCDIR'] + r'\bin;' + env_var['PATH']
# Needed in 'src/tests/makefile.all'
#
env_var['USE_WSOCK_TRACE'] = '0'
# Set by 'src\configur.bat' called from '%TEMP%\build_src_1.bat'.
# But also needed in '%TEMP%\build_src_2.bat' since the envirment set
# is gone when '%TEMP%\build_src_2.bat' is run.
#
bin2c = watt_root + r'\util\win32\bin2c.exe'
nasm = watt_root + r'\util\win32\nasm.exe'
env_var['W32_BIN2C'] = bin2c
env_var['W32_BIN2C_'] = bin2c.replace ('\\','/')
env_var['W32_NASM'] = nasm
env_var['W32_NASM_'] = nasm.replace ('\\','/')
return env_var
#
# Env-vars for 'build_bin':
#
def get_env_vars_bin():
bin_vars = {}
bin_vars['PROGS_DJ'] = 'bping.exe ping.exe finger.exe ident.exe htget.exe tcpinfo.exe tracert.exe country.exe'
bin_vars['PROGS_VC'] = 'ping.exe finger.exe tcpinfo.exe host.exe htget.exe tracert.exe con-test.exe gui-test.exe lpq.exe lpr.exe ntime.exe whois.exe ident.exe country.exe'
bin_vars['PROGS_MW'] = bin_vars['PROGS_VC'] # MinGW-w64
bin_vars['PROGS_CL'] = bin_vars['PROGS_VC'] # clang-cl Win32
bin_vars['PROGS_BC'] = bin_vars['PROGS_VC'] # Borland/CBuilder Win32
bin_vars['PROGS_WC_WIN'] = 'ping.exe htget.exe finger.exe tcpinfo.exe con-test.exe gui-test.exe htget.exe tracert.exe whois.exe'
bin_vars['PROGS_WC_LARGE'] = 'ping.exe htget.exe finger.exe tcpinfo.exe htget.exe whois.exe'
bin_vars['PROGS_WC_FLAT'] = bin_vars['PROGS_WC_LARGE']
bin_vars['PROGS_WC_SMALL32'] = bin_vars['PROGS_WC_LARGE']
return bin_vars
#
# The progress callback for 'urllib.urlretrieve()'.
#
def url_progress (blocks, block_size, total_size):
if blocks:
kBbyte_so_far = (blocks * block_size) / 1024
cprint ("Got %d kBytes\r" % kBbyte_so_far, end='')
#
# Check if a local 'fname' exist. Otherwise download it from 'url'
# and unzip it using '7z'. Unless 'is_clang_x86' which needs a special install command.
#
def download_and_install (fname, url, fsize, is_clang_x86=False):
if os.path.exists(fname):
cprint ("A local %s already exist." % fname)
return 0
global use_curl
if use_curl:
if 1:
cprint ("curl version:")
os.system ("curl -V")
cprint ('--------------------------------------------------------------------------------------------------')
cprint ("curl: %s -> %s -- %d kByte." % (url, fname, fsize))
r = os.system ("curl -# -o %s %s" % (fname, url))
if r != 0:
Fatal ("curl failed: %d." % r)
else:
try:
from urllib import urlretrieve as url_get
except ImportError:
from urllib.request import urlretrieve as url_get
cprint ('url_get: %s -> %s %d -- kByte.' % (url, fname, fsize))
url_get (url, filename = fname, reporthook = url_progress)
print ("")
directory = os.path.dirname (fname)
if is_clang_x86:
llvm_inst = 'cd %s & cmd.exe /C start /wait llvm-installer.exe /S' % directory
global local_test
if local_test:
cprint ("Not installing 32-bit LLVM using '%s'" % llvm_inst)
else:
cprint ('Installing 32-bit LLVM...')
os.system (llvm_inst)
os.system (r'c:\Program Files\LLVM\bin\clang-cl -v')
else:
cprint ('Unzipping %s to %s.' % (fname, directory))
r = os.system ('7z x -y -o%s %s > NUL' % (directory, fname))
if r != 0:
Fatal ('7z failed: %d.' % r)
#
# Generate a 'src/oui-generated.c' file for including in 'src/winadinf.c'
#
def generate_oui():
cprint ("Generating 'oui-generated.c'.")
r = os.system ('python.exe make-oui.py > oui-generated.c')
cprint ('--------------------------------------------------------------------------------------------------')
return r
#
# Print some usage.
#
def show_help():
print ('%sUsage: %s build_src build_bin build_tests ...' % (__doc__, __file__))
sys.exit (0)
#
# Get a sorted string with all 'set x=y\n' too be written to a .bat-file.
#
def get_env_strings (env):
ret = ''
for v in sorted(env):
ret += 'set %s=%s\n' % (v, env[v])
return ret
#
# if 'cpu == x64', this '%VCToolsInstallDir%\bin\Hostx64\x64\nmake' could fail to use
# '%WinDir\sysnative\cmd.exe' for some strange reason. Anyway, it doesn't matter if
# 'nmake' is x86 or not.
#
def get_nmake():
if local_test:
return os.getenv('VCToolsInstallDir') + r'\bin\Hostx86\x86\nmake -nologo'
return 'nmake -nologo' # Assumed to already be on PATH
#
# Print a colourised message and return the makefile command for 'build_src':
#
def get_src_make_command (builder, cpu, model=""):
bits = '32'
if cpu == 'x64':
bits = '64'
if builder == 'visualc':
cprint ("[%s]: Building release:" % cpu)
return '%s -f visualc-release_%s.mak' % (get_nmake(), bits)
if builder == 'clang':
cprint ("[%s]: Building release:" % cpu)
return 'make -f clang-release_%s.mak' % bits
if builder == 'mingw32':
cprint ("[%s]: Building:" % cpu)
return 'make -f MinGW32.mak'
if builder == 'mingw64':
cprint ("[%s]: Building:" % cpu)
return 'make -f MinGW64_%s.mak' % bits
if builder == 'djgpp':
cprint ("[%s]: Building:" % cpu)
return 'make -f djgpp.mak'
if builder == 'borland':
cprint ("[%s]: Building:" % cpu)
return '%s\\bin\\make -f bcc_w.mak' % env_vars['BCCDIR']
if builder == 'watcom':
if model == 'win32':
cprint ("[%s]: Building for Watcom/Win32:" % cpu)
return 'wmake -h -f watcom_w.mak'
if model == 'flat':
cprint ("[%s]: Building for Watcom/flat:" % cpu)
return 'wmake -h -f watcom_f.mak'
if model == 'large':
cprint ("[%s]: Building for Watcom/large:" % cpu)
return 'wmake -h -f watcom_l.mak'
Fatal ("[%s]: BUILDER Watcom needs a MODEL!" % cpu)
Fatal ("[%s]: I did not expect this!" % cpu)
#
# Print a colourised message and return the makefile command for 'build_bin'.
# Return the 'PROGS_x' and makefile name.
#
def get_bin_make_command (env_vars):
builder = env_vars['BUILDER']
cpu = env_vars['CPU']
if builder == 'djgpp':
cprint ('[%s]: Building PROGS_DJ=%s:' % (cpu, env_vars['PROGS_DJ']))
return 'make -f djgpp_win.mak DPMI_STUB=0', env_vars['PROGS_DJ']
if builder == 'visualc':
cprint ('[%s]: Building PROGS_VC=%s:' % (cpu, env_vars['PROGS_VC']))
return '%s -f visualc.mak' % get_nmake(), env_vars['PROGS_VC']
if builder == 'mingw64':
cprint ('[%s]: Building PROGS_MW=%s:' % (cpu, env_vars['PROGS_MW']))
return 'make -f mingw64.mak CPU=%s ' % cpu, env_vars['PROGS_MW']
if builder == 'clang':
cprint ('[%s]: Building PROGS_CL=%s:' % (cpu, env_vars['PROGS_CL']))
return 'make -f clang.mak CPU=%s check_CPU ' % cpu, env_vars['PROGS_CL']
if builder == 'borland':
cprint ('[%s]: Building PROGS_BC=%s:' % (cpu, env_vars['PROGS_BC']))
return '%s\\bin\\make -f bcc_win.mak' % env_vars['BCCDIR'], env_vars['PROGS_BC']
if builder == 'watcom':
model = env_vars['MODEL']
if model == 'win32':
cprint ('[%s]: watcom/Win32: Building PROGS_WC_WIN=%s:' % (cpu, env_vars['PROGS_WC_WIN']))
return 'wmake -h -f wc_win.mak', env_vars['PROGS_WC_WIN']
if model == 'flat':
cprint ('[%s]: watcom/flat: Building PROGS_WC_FLAT=%s:' % (cpu, env_vars['PROGS_WC_FLAT']))
return 'wmake -h -f causeway.mak', env_vars['PROGS_WC_FLAT']
if model == 'large':
cprint ('[%s]: watcom/large: Building PROGS_WC_LARGE=%s:' % (cpu, env_vars['PROGS_WC_LARGE']))
return 'wmake -h -f watcom.mak', env_vars['PROGS_WC_LARGE']
Fatal ("[%s]: BUILDER Watcom needs a MODEL!" % cpu)
cprint ("[%s]: No 'build_bin' for 'BUILDER=%s' yet." % (cpu, builder))
return '', ''
#
# Concatinate 2 dictionaries:
# https://stackoverflow.com/questions/38987/how-do-i-merge-two-dictionaries-in-a-single-expression/26853961#26853961
#
def merge_dicts (a, b):
r = a.copy() # start with a's keys and values
r.update (b) # modifies r with b's keys and values and returns None
return r
#
# Check if 'prog' exist and run it. Optionally with 'args'.
#
def run_test (prog, args=[]):
if not os.path.exists(prog):
cprint ("Test program '%s' failed to link! -----------------------------------------------" % prog)
return 1
cmd = prog + ' ' + ' '.join(args)
cprint ("Running test '%s' ---------------------------------------------------------------" % cmd)
return os.system (cmd)
#
# The 'main_loop()' that handles all args.
#
def main_loop (cmd):
env_vars = get_env_vars_common()
base = os.path.basename(__file__)
file = env_vars['WATT_ROOT'] + '\\' + base
if not os.path.exists(base):
Fatal ("Run %s from it's directory." % file)
check_local_env (env_vars)
os.system ('md %s 2> NUL' % env_vars['CI_ROOT'])
builder = env_vars['BUILDER']
cpu = env_vars['CPU']
model = env_vars['MODEL']
# Since only 'watcom' has a '%MODEL%' set in 'appveoyr.yml'
#
if builder == 'watcom':
cprint ("Doing '%s' for 'BUILDER=%s', 'MODEL=%s'" % (cmd, builder, model))
else:
cprint ("Doing '%s' for 'BUILDER=%s'" % (cmd, builder))
if cmd == 'build_src':
try:
installer = env_vars['CI_ROOT'] + '\\' + os.path.basename (URLs[builder][0])
if builder == 'clang' and cpu == 'x86':
download_and_install (installer, URLs[builder][0], URLs[builder][1], True)
else:
download_and_install (installer, URLs[builder][0], URLs[builder][1])
except KeyError:
pass
os.chdir ('src')
if generate_oui() == 0:
env_vars['CL'] = '-DHAVE_OUI_GENERATATED_C'
write_and_run_bat ("build_src_1.bat",
[ '@echo off',
'setlocal',
'prompt $P$G',
get_env_strings (env_vars),
'call configur.bat %s' % builder
] )
r = write_and_run_bat ("build_src_2.bat",
[ '@echo off',
'setlocal',
'prompt $P$G',
get_env_strings (env_vars),
get_src_make_command (builder, env_vars['CPU'], env_vars['MODEL'])
] )
os.chdir ('..')
elif cmd == 'build_bin':
os.chdir ('bin')
bin_vars = get_env_vars_bin()
bin_make, bin_progs = get_bin_make_command (merge_dicts(env_vars, bin_vars))
if bin_progs == '':
return 0
r = write_and_run_bat ("build_bin.bat",
[ '@echo off',
'setlocal',
'prompt $P$G',
'rm -f %s' % bin_progs,
get_env_strings (env_vars),
get_env_strings (bin_vars),
'%s %s' % (bin_make, bin_progs)
] )
os.chdir ('..')
elif cmd == 'build_tests':
if builder == 'watcom' and model not in ['large', 'flat', 'win32']:
Fatal ("[%s]: BUILDER Watcom needs a MODEL!" % cpu)
os.chdir ('src\\tests')
r = write_and_run_bat ("build_tests.bat",
[ '@echo off',
'setlocal',
'prompt $P$G',
get_env_strings (env_vars),
r'call configur.bat %BUILDER%',
r'if %BUILDER%. == visualc. make -f visualc_%BITS%.mak clean all',
r'if %BUILDER%. == clang. make -f clang_%BITS%.mak clean all',
r'if %BUILDER%. == mingw64. make -f MinGW64_%BITS%.mak clean all',
r'if %BUILDER%. == borland. make -f bcc_w.mak clean all',
r'if %BUILDER%. == djgpp. make -f djgpp.mak clean all',
r'if %BUILDER%. == watcom. (',
r' if %MODEL%. == large. make -f watcom_l.mak clean all',
r' if %MODEL%. == flat. make -f watcom_f.mak clean all',
r' if %MODEL%. == win32. make -f watcom_w.mak clean all',
')',
] )
can_run_on_windows = (builder in ['visualc', 'clang', 'mingw32', 'mingw64', 'borland', 'watcom'])
if builder == 'watcom' and model != 'win32':
can_run_on_windows = False
if can_run_on_windows:
run_test ('cpu.exe')
run_test ('cpuspeed.exe', ['1', '1'])
run_test ('swap.exe')
run_test ('chksum.exe', ['-s'])
else:
cprint ("Cannot run '%s' tests on Windows." % builder)
os.chdir ('..\..')
return r
if __name__ == '__main__':
if len(sys.argv) < 2:
show_help()
while len(sys.argv) >= 2:
if sys.argv[1] not in ["build_src", "build_bin", "build_tests"]:
show_help()
r = main_loop (sys.argv[1])
del sys.argv[1]
if r:
cprint ("r: %d" % r)