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#    rpmpython.at: test rpm python bindings
#    TODO: conditionalize on python availability

AT_BANNER([Python bindings])

RPMPY_TEST([module import],[
myprint(rpm.__version__)
],
[AT_PACKAGE_VERSION]
)

RPMPY_TEST([macro manipulation],[
def prexp(m):
    myprint(rpm.expandMacro('%%{?%s}' % m))

mname = '__no_such_macro_yet'
prexp(mname)
rpm.addMacro(mname, '/bin/sh')
prexp(mname)
rpm.addMacro(mname, '/bin/false')
prexp(mname)
rpm.delMacro(mname)
prexp(mname)
rpm.delMacro(mname)
prexp(mname)
],
[
/bin/sh
/bin/false
/bin/sh

],
[])

RPMPY_TEST([basic rpmio],[
msg = 'Killroy was here\n'
data = msg * 10
# TODO: test other compression types too if built in
for iot in [ 'fpio', 'fdio', 'ufdio', 'gzdio' ]:
    fn = 'pyio.%s' % iot
    fd = rpm.fd(fn, 'w', iot)
    pos = fd.tell()
    if pos != -2 and pos != 0:
        myprint('bad start pos %d' % fd.tell())
    if fd.write(data) != len(data):
        myprint('%s write fail' % iot)
    if fn != fd.name:
        myprint('bad file name %s' % fd.name)
    fd.flush()
    pos = fd.tell()
    if pos != -2 and pos != len(data):
        myprint('bad end pos %d' % fd.tell())
    fd = rpm.fd(fn, 'r', iot)
    rdata = fd.read()
    if rdata != data:
        myprint('%s read fail (got %d bytes)\n%s' % (iot, len(rdata), rdata))
    # compressed io types can't seek
    if iot == 'ufdio':
        fd.seek(0)
    else:
        fd = rpm.fd(fn, 'r', iot)
    if fn != fd.name:
        myprint('bad file name %s' % fd.name)
    rdata = fd.read(len(msg))
    if rdata != msg:
        myprint('%s sized read fail (got %d bytes)\n%s' % (iot, len(rdata), rdata))
],
[])

RPMPY_TEST([spec parse],[
# TODO: add a better test spec with sub-packages etc
spec = rpm.spec('${RPMDATA}/SPECS/hello.spec')
for (name, num, flags) in spec.sources:
    myprint('src %s %d %d' % (name, num, flags))
for pkg in spec.packages:
    myprint(pkg.header.format('%{nvr}'))
myprint(spec.sourceHeader.format('%{nvr}'))
],
[src hello-1.0-modernize.patch 0 2
src hello-1.0.tar.gz 0 1
hello-1.0-1
hello-1.0-1
])

RPMPY_TEST([basic header manipulation],[
h = rpm.hdr()
h['name'] = 'testpkg'
h['version'] = '1.0'
h['release'] = '1'
h['epoch'] = 5
h['arch'] = 'noarch'
myprint(h['nevra'])
del h['epoch']
myprint(h['nevra'])
for a in ['name', 'bugurl', '__class__', '__foo__', ]:
    try:
        x = getattr(h, a)
        myprint(x)
    except AttributeError, exc:
        myprint(exc)
],
[testpkg-5:1.0-1.noarch
testpkg-1.0-1.noarch
testpkg
None
<type 'rpm.hdr'>
'rpm.hdr' object has no attribute '__foo__']
)

RPMPY_TEST([invalid header data],[
h1 = rpm.hdr()
h1['basenames'] = ['bing', 'bang', 'bong']
h1['dirnames'] = ['/opt/', '/flopt/']
h1['dirindexes'] = [ 1, 0, 3 ]
h2 = rpm.hdr()
h2['basenames'] = ['bing', 'bang', 'bong']
h2['dirnames'] = ['/opt/', '/flopt/']
h2['dirindexes'] = [ 0, 0, 1 ]
for h in [h1, h2]:
    try:
        myprint(','.join(h['filenames']))
    except rpm.error, exc:
        myprint(exc)
],
[invalid header data
/opt/bing,/opt/bang,/flopt/bong]
)

RPMPY_TEST([vfyflags API],[
ts = rpm.ts()
dlv = ts.getVfyFlags()
tlv = dlv | rpm.RPMVSF_NOSHA1HEADER
olv = ts.setVfyFlags(tlv)
nlv = ts.getVfyFlags()
myprint('%s %s %s' % (hex(dlv), hex(olv), hex(nlv)))
],
[0x0 0x0 0x100]
)

RPMPY_TEST([vfylevel API],[
ts = rpm.ts()
dlv = ts.getVfyLevel()
olv = ts.setVfyLevel(rpm.RPMSIG_SIGNATURE_TYPE|rpm.RPMSIG_DIGEST_TYPE)
nlv = ts.getVfyLevel()
myprint('%s %s %s' % (hex(dlv), hex(olv), hex(nlv)))
],
[0x1 0x1 0x3]
)


RPMPY_TEST([reading a package file],[
ts = rpm.ts()
h = ts.hdrFromFdno('${RPMDATA}/RPMS/hello-1.0-1.ppc64.rpm')
myprint(h['arch'])
],
[ppc64]
)

RPMPY_TEST([reading a signed package file 1],[
ts = rpm.ts()
# avoid rpmlog spew with absolute path to package
sink = open('/dev/null', 'w')
rpm.setLogFile(sink)
try:
    h = ts.hdrFromFdno('${RPMDATA}/RPMS/hello-2.0-1.x86_64-signed.rpm')
    myprint(h['arch'])
except rpm.error, e:
    myprint(e)
],
[public key not available
],
)

RPMPY_TEST([reading a signed package file 2],[

keydata = open('${RPMDATA}/keys/rpm.org-rsa-2048-test.pub').read()
pubkey = rpm.pubkey(keydata)
keyring = rpm.keyring()
keyring.addKey(pubkey)

ts = rpm.ts()
ts.setKeyring(keyring)
try:
    h = ts.hdrFromFdno('${RPMDATA}/RPMS/hello-2.0-1.x86_64-signed.rpm')
    myprint(h['arch'])
except rpm.error, e:
    myprint(e)
],
[x86_64]
)

RPMPY_TEST([add package to transaction],[
ts = rpm.ts()
ts.addInstall('${RPMDATA}/RPMS/foo-1.0-1.noarch.rpm', 'u')
for e in ts:
    myprint(e.NEVRA())
ts.clear()
for e in ts:
    myprint(e.NEVRA())
],
[foo-1.0-1.noarch]
)

RPMPY_TEST([add bogus package to transaction 1],[
ts = rpm.ts()
h = rpm.hdr()
h['name'] = "foo"
try:
    ts.addInstall(h, 'foo', 'u')
except rpm.error, err:
    myprint(err)
for e in ts:
    myprint(e.NEVRA())
],
[adding package to transaction failed]
)

RPMPY_TEST([add bogus package to transaction 2],[
ts = rpm.ts()
h = rpm.hdr()
h['name'] = 'foo'
h['version'] = '1.0'
h['release'] = '1'
h['os'] = 'linux'
h['arch'] = 'noarch'
h['basenames'] = ['bing', 'bang', 'bong']
h['dirnames'] = ['/opt' '/flopt']
h['dirindexes'] = [ 1, 2, 3 ]
try:
    ts.addInstall(h, 'foo', 'u')
except rpm.error, err:
    myprint(err)
for e in ts:
    myprint(e.NEVRA())
],
[adding package to transaction failed]
)

AT_SETUP([database iterators])
AT_KEYWORDS([python rpmdb])
AT_CHECK([
RPMDB_CLEAR
RPMDB_INIT
runroot rpm -i \
  --justdb --nodeps --ignorearch --ignoreos \
  /data/RPMS/foo-1.0-1.noarch.rpm \
  /data/RPMS/hello-2.0-1.i686.rpm
],
[0],
[],
[])

RPMPY_CHECK([
ts = rpm.ts()
ix = 0
mi = ts.dbMatch()
mi.pattern('name', rpm.RPMMIRE_STRCMP, 'hello')
for h in mi:
    ix = h['dbinstance']
    break
del mi
for h in ts.dbMatch('packages', ix):
    myprint(h['nevra'])
],
[hello-2.0-1.i686
],
[])

RPMPY_CHECK([
ts = rpm.ts()
mi = ts.dbMatch()
mi.pattern('name', rpm.RPMMIRE_DEFAULT, 'f*')
for h in mi:
    myprint(h['nevra'])
],
[foo-1.0-1.noarch
],
[])

RPMPY_CHECK([
ts = rpm.ts()
for h in ts.dbMatch('name'):
    myprint(h['nevra'])
],
[foo-1.0-1.noarch
hello-2.0-1.i686
],
[])

RPMPY_CHECK([
ts = rpm.ts()
for h in ts.dbMatch('obsoletes'):
    myprint(h['nevra'])
],
[foo-1.0-1.noarch
],
[])

RPMPY_CHECK([
ts = rpm.ts()
for h in ts.dbMatch('provides', 'hi'):
    myprint(h['nevra'])
],
[foo-1.0-1.noarch
],
[])

RPMPY_CHECK([
ts = rpm.ts()
for h in ts.dbMatch('basenames', '/usr/share/doc/hello-2.0/FAQ'):
    myprint(h['nevra'])
],
[hello-2.0-1.i686
],
[])
RPMPY_CHECK([
ts = rpm.ts()
for di in sorted(ts.dbIndex('obsoletes')):
    myprint(di)
],
[howdy
],
[])

RPMPY_CHECK([
ts = rpm.ts()
for di in sorted(ts.dbIndex('provides')):
    myprint(di)
],
[foo
hello
hello(x86-32)
hi
],
[])
AT_CLEANUP

RPMPY_TEST([dependency sets 1],[
ts = rpm.ts()
h = ts.hdrFromFdno('${RPMDATA}/RPMS/hello-1.0-1.ppc64.rpm')
for dep in rpm.ds(h, 'requires'):
    myprint(dep.DNEVR())
],
[R /bin/sh
R /bin/sh
R /bin/sh
R /bin/sh
R libc.so.6
R libc.so.6(GLIBC_2.0)
R rpmlib(CompressedFileNames) <= 3.0.4-1
R rpmlib(PayloadFilesHavePrefix) <= 4.0-1
R rtld(GNU_HASH)]
)

RPMPY_TEST([dependency sets 2],[
ts = rpm.ts()
h = ts.hdrFromFdno('${RPMDATA}/RPMS/hello-2.0-1.i686.rpm')
ds = rpm.ds(h, 'provides')
myprint('%d %d' % (ds.Instance(), ds.Count()))
],
[0 2
],
[])

RPMPY_TEST([file info sets 1],[
ts = rpm.ts()
h = ts.hdrFromFdno('${RPMDATA}/RPMS/hello-2.0-1.i686.rpm')
fi = rpm.fi(h)
myprint(fi.FC())
for f in fi:
   myprint('%x: %s' % (fi.FFlags(), fi.FN()))
],
[5
0: /usr/bin/hello
0: /usr/share/doc/hello-2.0
2: /usr/share/doc/hello-2.0/COPYING
2: /usr/share/doc/hello-2.0/FAQ
2: /usr/share/doc/hello-2.0/README
],
[])

RPMPY_TEST([string pool 1],[
p = rpm.strpool()
for s in ['foo', 'bar', 'foo', 'zoo']:
    p.str2id(s)
myprint('%s' % len(p))
for i in range(1, len(p)+1):
    myprint('%s: %s' % (i, p[i]))
],
[3
1: foo
2: bar
3: zoo
],
[])

RPMPY_TEST([string pool 2],[
p = rpm.strpool()
d1 = rpm.ds(('foo', rpm.RPMSENSE_EQUAL, '2.0'), rpm.RPMTAG_PROVIDES, pool=p)
d2 = rpm.ds(('bar', rpm.RPMSENSE_EQUAL, '2.0'), rpm.RPMTAG_PROVIDES, pool=p)
d3 = rpm.ds(('bar', rpm.RPMSENSE_EQUAL, '2.0'), rpm.RPMTAG_PROVIDES, pool=p)
myprint('%s' % len(p))
del p
myprint(d1.DNEVR())
myprint(d2.DNEVR())
myprint(d3.DNEVR())
],
[3
P foo = 2.0
P bar = 2.0
P bar = 2.0
],
[])

RPMPY_TEST([archive 1],[
import hashlib
ts = rpm.ts()
fd = rpm.fd.open('${RPMDATA}/SRPMS/hello-1.0-1.src.rpm')
h = ts.hdrFromFdno(fd)
payload = rpm.fd.open(fd, flags=h['payloadcompressor'])
files = rpm.files(h)
archive = files.archive(payload)
for f in archive:
    if not f.fflags & rpm.RPMFILE_SPECFILE:
        continue
    spec = archive.read()
    hash = hashlib.md5(spec)
    if f.digest != hash.hexdigest():
        myprint('%s should be %s' % (hash.hexdigest(), f.digest))
    break
],
[],
[])

RPMPY_TEST([header unload],[
ts = rpm.ts()
h = ts.hdrFromFdno('${RPMDATA}/RPMS/hello-2.0-1.i686.rpm')
# Add some garbage to header to make it non-sorted
h['installtime'] = 0
# RhBug:1061730 causes export of non-sorted header to be larger than it should
len1 = len(h.unload())
# Accessing the header before export forces sorting to take place even on
# buggy versions
t = h['installtime']
len2 = len(h.unload())
myprint(len1 == len2)
],
[True
],
[])