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#! /usr/bin/env python
"""Script to synchronize two source trees.
Invoke with two arguments:
python treesync.py slave master
The assumption is that "master" contains CVS administration while
slave doesn't. All files in the slave tree that have a CVS/Entries
entry in the master tree are synchronized. This means:
If the files differ:
if the slave file is newer:
normalize the slave file
if the files still differ:
copy the slave to the master
else (the master is newer):
copy the master to the slave
normalizing the slave means replacing CRLF with LF when the master
doesn't use CRLF
"""
import os, sys, stat, getopt
# Interactivity options
default_answer = "ask"
create_files = "yes"
create_directories = "no"
write_slave = "ask"
write_master = "ask"
def main():
global always_no, always_yes
global create_directories, write_master, write_slave
opts, args = getopt.getopt(sys.argv[1:], "nym:s:d:f:a:")
for o, a in opts:
if o == '-y':
default_answer = "yes"
if o == '-n':
default_answer = "no"
if o == '-s':
write_slave = a
if o == '-m':
write_master = a
if o == '-d':
create_directories = a
if o == '-f':
create_files = a
if o == '-a':
create_files = create_directories = write_slave = write_master = a
try:
[slave, master] = args
except ValueError:
print("usage: python", sys.argv[0] or "treesync.py", end=' ')
print("[-n] [-y] [-m y|n|a] [-s y|n|a] [-d y|n|a] [-f n|y|a]", end=' ')
print("slavedir masterdir")
return
process(slave, master)
def process(slave, master):
cvsdir = os.path.join(master, "CVS")
if not os.path.isdir(cvsdir):
print("skipping master subdirectory", master)
print("-- not under CVS")
return
print("-"*40)
print("slave ", slave)
print("master", master)
if not os.path.isdir(slave):
if not okay("create slave directory %s?" % slave,
answer=create_directories):
print("skipping master subdirectory", master)
print("-- no corresponding slave", slave)
return
print("creating slave directory", slave)
try:
os.mkdir(slave)
except os.error as msg:
print("can't make slave directory", slave, ":", msg)
return
else:
print("made slave directory", slave)
cvsdir = None
subdirs = []
names = os.listdir(master)
for name in names:
mastername = os.path.join(master, name)
slavename = os.path.join(slave, name)
if name == "CVS":
cvsdir = mastername
else:
if os.path.isdir(mastername) and not os.path.islink(mastername):
subdirs.append((slavename, mastername))
if cvsdir:
entries = os.path.join(cvsdir, "Entries")
for e in open(entries).readlines():
words = e.split('/')
if words[0] == '' and words[1:]:
name = words[1]
s = os.path.join(slave, name)
m = os.path.join(master, name)
compare(s, m)
for (s, m) in subdirs:
process(s, m)
def compare(slave, master):
try:
sf = open(slave, 'r')
except IOError:
sf = None
try:
mf = open(master, 'rb')
except IOError:
mf = None
if not sf:
if not mf:
print("Neither master nor slave exists", master)
return
print("Creating missing slave", slave)
copy(master, slave, answer=create_files)
return
if not mf:
print("Not updating missing master", master)
return
if sf and mf:
if identical(sf, mf):
return
sft = mtime(sf)
mft = mtime(mf)
if mft > sft:
# Master is newer -- copy master to slave
sf.close()
mf.close()
print("Master ", master)
print("is newer than slave", slave)
copy(master, slave, answer=write_slave)
return
# Slave is newer -- copy slave to master
print("Slave is", sft-mft, "seconds newer than master")
# But first check what to do about CRLF
mf.seek(0)
fun = funnychars(mf)
mf.close()
sf.close()
if fun:
print("***UPDATING MASTER (BINARY COPY)***")
copy(slave, master, "rb", answer=write_master)
else:
print("***UPDATING MASTER***")
copy(slave, master, "r", answer=write_master)
BUFSIZE = 16*1024
def identical(sf, mf):
while 1:
sd = sf.read(BUFSIZE)
md = mf.read(BUFSIZE)
if sd != md: return 0
if not sd: break
return 1
def mtime(f):
st = os.fstat(f.fileno())
return st[stat.ST_MTIME]
def funnychars(f):
while 1:
buf = f.read(BUFSIZE)
if not buf: break
if '\r' in buf or '\0' in buf: return 1
return 0
def copy(src, dst, rmode="rb", wmode="wb", answer='ask'):
print("copying", src)
print(" to", dst)
if not okay("okay to copy? ", answer):
return
f = open(src, rmode)
g = open(dst, wmode)
while 1:
buf = f.read(BUFSIZE)
if not buf: break
g.write(buf)
f.close()
g.close()
def raw_input(prompt):
sys.stdout.write(prompt)
sys.stdout.flush()
return sys.stdin.readline()
def okay(prompt, answer='ask'):
answer = answer.strip().lower()
if not answer or answer[0] not in 'ny':
answer = raw_input(prompt)
answer = answer.strip().lower()
if not answer:
answer = default_answer
if answer[:1] == 'y':
return 1
if answer[:1] == 'n':
return 0
print("Yes or No please -- try again:")
return okay(prompt)
if __name__ == '__main__':
main()
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