diff options
author | Martin Pool <mbp@samba.org> | 2002-11-22 01:12:23 +0000 |
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committer | Martin Pool <mbp@samba.org> | 2002-11-22 01:12:23 +0000 |
commit | abc32ea8506c4d586ef383c7f562ed12f7932ffd (patch) | |
tree | 8b2db858e7461c689a4419adc2c6dc9fb5697402 /source3 | |
parent | d18bcbb1744a1b8f7d78f0a7df887c939e35dfb4 (diff) | |
download | samba-abc32ea8506c4d586ef383c7f562ed12f7932ffd.tar.gz samba-abc32ea8506c4d586ef383c7f562ed12f7932ffd.tar.bz2 samba-abc32ea8506c4d586ef383c7f562ed12f7932ffd.zip |
Add support for new 'F' format, which is a string in the default
codepage.
(This used to be commit ff1244c457d0525343bcc7e89a899d8c7d14b8b6)
Diffstat (limited to 'source3')
-rw-r--r-- | source3/python/py_tdbpack.c | 98 |
1 files changed, 64 insertions, 34 deletions
diff --git a/source3/python/py_tdbpack.c b/source3/python/py_tdbpack.c index d8c3d46773..7a03f830ee 100644 --- a/source3/python/py_tdbpack.c +++ b/source3/python/py_tdbpack.c @@ -28,7 +28,9 @@ #include "Python.h" static PyObject * pytdbpack_number(char ch, PyObject *val_iter, PyObject *packed_list); -static PyObject * pytdbpack_str_850(PyObject *val_iter, PyObject *packed_list); +static PyObject * pytdbpack_str(char ch, + PyObject *val_iter, PyObject *packed_list, + const char *encoding); static PyObject * pytdbpack_buffer(PyObject *val_iter, PyObject *packed_list); static PyObject *pytdbunpack_item(char, char **pbuf, int *plen, PyObject *); @@ -37,6 +39,9 @@ static PyObject *pytdbpack_data(const char *format_str, PyObject *val_seq, PyObject *val_list); +static PyObject * +pytdbunpack_string(char **pbuf, int *plen, const char *encoding); + static void pack_le_uint32(unsigned long val_long, unsigned char *pbuf); @@ -58,19 +63,17 @@ tdb/tdbutil module, with appropriate adjustments for Python datatypes. Python strings are used to specify the format of data to be packed or unpacked. -Strings are always stored in codepage 850. Unicode objects are translated -to cp850; plain strings are assumed to be in latin-1 and are also -translated. - -This may be a problem in the future if it is different to the Samba codepage. -It might be better to have the caller do the conversion, but that would conflict -with existing CMI code. +String encodings are implied by the database format: they may be either DOS +codepage (currently hardcoded to 850), or Unix codepage (currently hardcoded +to be the same as the default Python encoding). tdbpack format strings: - 'f': NULL-terminated string in codepage 850 + 'f': NUL-terminated string in codepage 850 + + 'P': same as 'f' - 'P': same as 'f' + 'F': NUL-terminated string in iso-8859-1 'd': 4 byte little-endian unsigned number @@ -145,7 +148,11 @@ notes: "; -const char *pytdb_string_encoding = "cp850"; +const char *pytdb_dos_encoding = "cp850"; + +/* NULL, meaning that the Samba default encoding *must* be the same as the + Python default encoding. */ +const char *pytdb_unix_encoding = NULL; /* @@ -228,7 +235,14 @@ pytdbpack_data(const char *format_str, case 'f': case 'P': - if (!(packed_list = pytdbpack_str_850(val_iter, packed_list))) + if (!(packed_list = pytdbpack_str(ch, val_iter, packed_list, pytdb_dos_encoding))) + return NULL; + break; + + case 'F': + /* We specify NULL encoding: Samba databases in this + form are written in the default Python encoding. */ + if (!(packed_list = pytdbpack_str(ch, val_iter, packed_list, pytdb_unix_encoding))) return NULL; break; @@ -287,27 +301,29 @@ pytdbpack_number(char ch, PyObject *val_iter, PyObject *packed_list) /* - * Take one string from the iterator val_iter, convert it to 8-bit CP850, and - * return it. + * Take one string from the iterator val_iter, convert it to 8-bit, and return + * it. * * If the input is neither a string nor Unicode, an exception is raised. * - * If the input is Unicode, then it is converted to CP850. + * If the input is Unicode, then it is converted to the appropriate encoding. * - * If the input is a String, then it is converted to Unicode using the default - * decoding method, and then converted to CP850. This in effect gives - * conversion from latin-1 (currently the PSA's default) to CP850, without - * needing a custom translation table. + * If the input is a String, and encoding is not null, then it is converted to + * Unicode using the default decoding method, and then converted to the + * encoding. If the encoding is NULL, then the string is written out as-is -- + * this is used when the default Python encoding is the same as the Samba + * encoding. * * I hope this approach avoids being too fragile w.r.t. being passed either * Unicode or String objects. */ static PyObject * -pytdbpack_str_850(PyObject *val_iter, PyObject *packed_list) +pytdbpack_str(char ch, + PyObject *val_iter, PyObject *packed_list, const char *encoding) { PyObject *val_obj = NULL; PyObject *unicode_obj = NULL; - PyObject *cp850_str = NULL; + PyObject *coded_str = NULL; PyObject *nul_str = NULL; PyObject *new_list = NULL; @@ -315,31 +331,41 @@ pytdbpack_str_850(PyObject *val_iter, PyObject *packed_list) goto out; if (PyUnicode_Check(val_obj)) { - unicode_obj = val_obj; + if (!(coded_str = PyUnicode_AsEncodedString(val_obj, encoding, NULL))) + goto out; } - else { - /* string */ + else if (PyString_Check(val_obj) && !encoding) { + /* For efficiency, we assume that the Python interpreter has + the same default string encoding as Samba's native string + encoding. On the PSA, both are always 8859-1. */ + coded_str = val_obj; + Py_INCREF(coded_str); + } + else if (PyString_Check(val_obj)) { + /* String, but needs to be converted */ if (!(unicode_obj = PyString_AsDecodedObject(val_obj, NULL, NULL))) goto out; - Py_XDECREF(val_obj); - val_obj = NULL; + if (!(coded_str = PyUnicode_AsEncodedString(unicode_obj, encoding, NULL))) + goto out; } - - if (!(cp850_str = PyUnicode_AsEncodedString(unicode_obj, pytdb_string_encoding, NULL))) + else { + pytdbpack_bad_type(ch, "String or Unicode", val_obj); goto out; + } if (!nul_str) /* this is constant and often-used; hold it forever */ if (!(nul_str = PyString_FromStringAndSize("", 1))) goto out; - if ((PyList_Append(packed_list, cp850_str) != -1) + if ((PyList_Append(packed_list, coded_str) != -1) && (PyList_Append(packed_list, nul_str) != -1)) new_list = packed_list; out: + Py_XDECREF(val_obj); Py_XDECREF(unicode_obj); - Py_XDECREF(cp850_str); + Py_XDECREF(coded_str); return new_list; } @@ -361,7 +387,8 @@ pytdbpack_buffer(PyObject *val_iter, PyObject *packed_list) if (!(packed_list = pytdbpack_number('d', val_iter, packed_list))) return NULL; - /* this assumes that the string is the right length; the old code did the same. */ + /* this assumes that the string is the right length; the old code did + the same. */ if (!(val_obj = PyIter_Next(val_iter))) return NULL; @@ -537,7 +564,7 @@ static PyObject *pytdbunpack_int16(char **pbuf, int *plen) static PyObject * -pytdbunpack_string(char **pbuf, int *plen) +pytdbunpack_string(char **pbuf, int *plen, const char *encoding) { int len; char *nul_ptr, *start; @@ -555,7 +582,7 @@ pytdbunpack_string(char **pbuf, int *plen) *pbuf += len + 1; /* skip \0 */ *plen -= len + 1; - return PyString_Decode(start, len, pytdb_string_encoding, NULL); + return PyString_Decode(start, len, encoding, NULL); } @@ -641,7 +668,10 @@ static PyObject *pytdbunpack_item(char ch, result = pytdbunpack_uint32(pbuf, plen); } else if (ch == 'f' || ch == 'P') { /* nul-term string */ - result = pytdbunpack_string(pbuf, plen); + result = pytdbunpack_string(pbuf, plen, pytdb_dos_encoding); + } + else if (ch == 'F') { /* nul-term string */ + result = pytdbunpack_string(pbuf, plen, pytdb_unix_encoding); } else if (ch == 'B') { /* length, buffer */ return pytdbunpack_buffer(pbuf, plen, val_list); |