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author | Tim Peters <tim.peters@gmail.com> | 2004-01-04 02:27:33 (GMT) |
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committer | Tim Peters <tim.peters@gmail.com> | 2004-01-04 02:27:33 (GMT) |
commit | f32b0271a99e8ad2993ba9c95fe84a0f576b07ff (patch) | |
tree | 9a75eefc7513e9745a7413d562ec4ca4518e5e53 | |
parent | c844a03edf8e4246279b5c07c09aa7f57cf9eafb (diff) | |
download | cpython-f32b0271a99e8ad2993ba9c95fe84a0f576b07ff.zip cpython-f32b0271a99e8ad2993ba9c95fe84a0f576b07ff.tar.gz cpython-f32b0271a99e8ad2993ba9c95fe84a0f576b07ff.tar.bz2 |
The _ssl subproject may <heh> be working w/ VC6 again.
-rw-r--r-- | PC/VC6/_ssl.mak | 21 | ||||
-rw-r--r-- | PC/VC6/build_ssl.py | 163 |
2 files changed, 184 insertions, 0 deletions
diff --git a/PC/VC6/_ssl.mak b/PC/VC6/_ssl.mak new file mode 100644 index 0000000..ce78526 --- /dev/null +++ b/PC/VC6/_ssl.mak @@ -0,0 +1,21 @@ + +!IFDEF DEBUG +MODULE=_ssl_d.pyd +TEMP_DIR=x86-temp-debug/_ssl +CFLAGS=/Od /Zi /MDd /LDd /DDEBUG /D_DEBUG +SSL_LIB_DIR=$(SSL_DIR)/out32.dbg +!ELSE +MODULE=_ssl.pyd +TEMP_DIR=x86-temp-release/_ssl +CFLAGS=/Ox /MD /LD +SSL_LIB_DIR=$(SSL_DIR)/out32 +!ENDIF + +INCLUDES=-I ../../Include -I .. -I $(SSL_DIR)/inc32 +LIBS=gdi32.lib wsock32.lib /libpath:$(SSL_LIB_DIR) libeay32.lib ssleay32.lib + +SOURCE=../../Modules/_ssl.c $(SSL_LIB_DIR)/libeay32.lib $(SSL_LIB_DIR)/ssleay32.lib + +$(MODULE): $(SOURCE) ../*.h ../../Include/*.h + @if not exist "$(TEMP_DIR)/." mkdir "$(TEMP_DIR)" + cl /nologo $(SOURCE) $(CFLAGS) /Fo$(TEMP_DIR)\$*.obj $(INCLUDES) /link /out:$(MODULE) $(LIBS) diff --git a/PC/VC6/build_ssl.py b/PC/VC6/build_ssl.py new file mode 100644 index 0000000..74f0383 --- /dev/null +++ b/PC/VC6/build_ssl.py @@ -0,0 +1,163 @@ +# Script for building the _ssl module for Windows. +# Uses Perl to setup the OpenSSL environment correctly +# and build OpenSSL, then invokes a simple nmake session +# for _ssl.pyd itself. + +# THEORETICALLY, you can: +# * Unpack the latest SSL release one level above your main Python source +# directory. It is likely you will already find the zlib library and +# any other external packages there. +# * Install ActivePerl and ensure it is somewhere on your path. +# * Run this script from the PCBuild directory. +# +# it should configure and build SSL, then build the ssl Python extension +# without intervention. + +import os, sys, re + +# Find all "foo.exe" files on the PATH. +def find_all_on_path(filename, extras = None): + entries = os.environ["PATH"].split(os.pathsep) + ret = [] + for p in entries: + fname = os.path.abspath(os.path.join(p, filename)) + if os.path.isfile(fname) and fname not in ret: + ret.append(fname) + if extras: + for p in extras: + fname = os.path.abspath(os.path.join(p, filename)) + if os.path.isfile(fname) and fname not in ret: + ret.append(fname) + return ret + +# Find a suitable Perl installation for OpenSSL. +# cygwin perl does *not* work. ActivePerl does. +# Being a Perl dummy, the simplest way I can check is if the "Win32" package +# is available. +def find_working_perl(perls): + for perl in perls: + fh = os.popen(perl + ' -e "use Win32;"') + fh.read() + rc = fh.close() + if rc: + continue + return perl + print "Can not find a suitable PERL:" + if perls: + print " the following perl interpreters were found:" + for p in perls: + print " ", p + print " None of these versions appear suitable for building OpenSSL" + else: + print " NO perl interpreters were found on this machine at all!" + print " Please install ActivePerl and ensure it appears on your path" + print "The Python SSL module was not built" + return None + +# Locate the best SSL directory given a few roots to look into. +def find_best_ssl_dir(sources): + candidates = [] + for s in sources: + try: + s = os.path.abspath(s) + fnames = os.listdir(s) + except os.error: + fnames = [] + for fname in fnames: + fqn = os.path.join(s, fname) + if os.path.isdir(fqn) and fname.startswith("openssl-"): + candidates.append(fqn) + # Now we have all the candidates, locate the best. + best_parts = [] + best_name = None + for c in candidates: + parts = re.split("[.-]", os.path.basename(c))[1:] + # eg - openssl-0.9.7-beta1 - ignore all "beta" or any other qualifiers + if len(parts) >= 4: + continue + if parts > best_parts: + best_parts = parts + best_name = c + if best_name is not None: + print "Found an SSL directory at '%s'" % (best_name,) + else: + print "Could not find an SSL directory in '%s'" % (sources,) + return best_name + +def main(): + debug = "-d" in sys.argv + build_all = "-a" in sys.argv + make_flags = "" + if build_all: + make_flags = "-a" + # perl should be on the path, but we also look in "\perl" and "c:\\perl" + # as "well known" locations + perls = find_all_on_path("perl.exe", ["\\perl\\bin", "C:\\perl\\bin"]) + perl = find_working_perl(perls) + if perl is None: + sys.exit(1) + + print "Found a working perl at '%s'" % (perl,) + # Look for SSL 3 levels up from pcbuild - ie, same place zlib etc all live. + ssl_dir = find_best_ssl_dir(("../../..",)) + if ssl_dir is None: + sys.exit(1) + + old_cd = os.getcwd() + try: + os.chdir(ssl_dir) + # If the ssl makefiles do not exist, we invoke Perl to generate them. + if not os.path.isfile(os.path.join(ssl_dir, "32.mak")) or \ + not os.path.isfile(os.path.join(ssl_dir, "d32.mak")): + print "Creating the makefiles..." + # Put our working Perl at the front of our path + os.environ["PATH"] = os.path.split(perl)[0] + \ + os.pathsep + \ + os.environ["PATH"] + # ms\32all.bat will reconfigure OpenSSL and then try to build + # all outputs (debug/nondebug/dll/lib). So we filter the file + # to exclude any "nmake" commands and then execute. + tempname = "ms\\32all_py.bat" + + in_bat = open("ms\\32all.bat") + temp_bat = open(tempname,"w") + while 1: + cmd = in_bat.readline() + print 'cmd', repr(cmd) + if not cmd: break + if cmd.strip()[:5].lower() == "nmake": + continue + temp_bat.write(cmd) + in_bat.close() + temp_bat.close() + os.system(tempname) + try: + os.remove(tempname) + except: + pass + + # Now run make. + print "Executing nmake over the ssl makefiles..." + if debug: + rc = os.system("nmake /nologo -f d32.mak") + if rc: + print "Executing d32.mak failed" + print rc + sys.exit(rc) + else: + rc = os.system("nmake /nologo -f 32.mak") + if rc: + print "Executing 32.mak failed" + print rc + sys.exit(rc) + finally: + os.chdir(old_cd) + # And finally, we can build the _ssl module itself for Python. + defs = "SSL_DIR=%s" % (ssl_dir,) + if debug: + defs = defs + " " + "DEBUG=1" + rc = os.system('nmake /nologo -f _ssl.mak ' + defs + " " + make_flags) + sys.exit(rc) + +if __name__=='__main__': + main() |