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britney2-ubuntu/lib/britney-py.c

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#include <python2.6/Python.h>
#include "dpkg.h"
#define MAKE_PY_LIST(L,S,E,I,V) \
do { \
L = PyList_New(0); \
if (!L) break; \
for (S; E; I) { \
PyObject *EL; \
EL = Py_BuildValue V; \
if (!EL) { \
Py_DECREF(L); \
L = NULL; \
break; \
} \
PyList_Append(L, EL); \
Py_DECREF(EL); \
} \
if (L) PyList_Sort(L); \
} while(0)
/**************************************************************************
* britney.Packages -- dpkg_packages wrapper
*******************************************/
typedef enum { DONTFREE, FREE } dpkgpackages_freeme;
typedef struct {
PyObject_HEAD
dpkg_packages *pkgs;
PyObject *ref; /* object packages are "in" */
dpkgpackages_freeme freeme; /* free pkgs when deallocing? */
} dpkgpackages;
staticforward PyTypeObject Packages_Type;
static void dpkgpackages_dealloc(dpkgpackages *self) {
if (self->freeme == FREE) free_packages(self->pkgs);
Py_XDECREF(self->ref);
self->pkgs = NULL;
self->ref = NULL;
PyObject_DEL(self);
}
static PyObject *dpkgpackages_isinstallable(dpkgpackages *self, PyObject *args)
{
char *pkgname;
if (!PyArg_ParseTuple(args, "s", &pkgname)) return NULL;
if (checkinstallable2(self->pkgs, pkgname)) {
return Py_BuildValue("i", 1);
} else {
return Py_BuildValue("");
}
}
static PyObject *dpkgpackages_remove_binary(dpkgpackages *self, PyObject *args) {
char *pkg_name;
(void)self; /* unused */
if (!PyArg_ParseTuple(args, "s", &pkg_name))
return NULL;
dpkg_collected_package *cpkg = lookup_packagetbl(self->pkgs->packages, pkg_name);
if (cpkg == NULL) return Py_BuildValue("i", 0);
remove_package(self->pkgs, cpkg);
return Py_BuildValue("i", 1);
}
static PyObject *dpkgpackages_add_binary(dpkgpackages *self, PyObject *args) {
char *pkg_name;
PyObject *value, *pyString;
(void)self; /* unused */
if (!PyArg_ParseTuple(args, "sO", &pkg_name, &value) ||
!PyList_Check(value)) return NULL;
/* initialize the new package */
dpkg_package *pkg;
pkg = block_malloc(sizeof(dpkg_package));
pkg->package = strdup(pkg_name);
pkg->priority = 0;
pkg->details = NULL;
pkg->depends[2] = NULL;
pkg->depends[3] = NULL;
pyString = PyList_GetItem(value, 0);
if (pyString == NULL) return NULL;
pkg->version = PyString_AsString(pyString);
pyString = PyList_GetItem(value, 2);
if (pyString == NULL) return NULL;
pkg->source = PyString_AsString(pyString);
pyString = PyList_GetItem(value, 3);
if (pyString == NULL) return NULL;
pkg->source_ver = PyString_AsString(pyString);
pyString = PyList_GetItem(value, 4);
if (pyString == NULL) return NULL;
pkg->arch_all = (pyString == Py_None || strcmp(PyString_AsString(pyString), "all") ? 0 : 1);
pyString = PyList_GetItem(value, 5);
if (pyString == NULL) return NULL;
if (pyString != Py_None) {
pkg->depends[0] = read_dep_andor(PyString_AsString(pyString));
} else pkg->depends[0] = NULL;
pyString = PyList_GetItem(value, 6);
if (pyString == NULL) return NULL;
if (pyString != Py_None) {
pkg->depends[1] = read_dep_andor(PyString_AsString(pyString));
} else pkg->depends[1] = NULL;
pyString = PyList_GetItem(value, 7);
if (pyString == NULL) return NULL;
if (pyString != Py_None) {
pkg->conflicts = read_dep_and(PyString_AsString(pyString));
} else pkg->conflicts = NULL;
pyString = PyList_GetItem(value, 8);
if (pyString == NULL) return NULL;
if (pyString != Py_None) {
pkg->provides = read_packagenames(PyString_AsString(pyString));
} else pkg->provides = NULL;
add_package(self->pkgs, pkg);
return Py_BuildValue("i", 1);
}
static PyObject *dpkgpackages_getattr(dpkgpackages *self, char *name) {
static struct PyMethodDef dpkgsources_methods[] = {
{ "is_installable", (binaryfunc) dpkgpackages_isinstallable,
METH_VARARGS, NULL },
{ "remove_binary", (binaryfunc) dpkgpackages_remove_binary,
METH_VARARGS, NULL },
{ "add_binary", (binaryfunc) dpkgpackages_add_binary,
METH_VARARGS, NULL },
{ NULL, NULL, 0, NULL }
};
if (strcmp(name, "packages") == 0) {
PyObject *packages;
packagetbl_iter it;
MAKE_PY_LIST(packages,
it = first_packagetbl(self->pkgs->packages),
!done_packagetbl(it), it = next_packagetbl(it),
("s", it.k)
);
return packages;
}
return Py_FindMethod(dpkgsources_methods, (PyObject *)self, name);
}
static PyTypeObject Packages_Type = {
PyObject_HEAD_INIT(&PyType_Type)
0, /* ob_size (0) */
"Packages", /* type name */
sizeof(dpkgpackages), /* basicsize */
0, /* itemsize (0) */
(destructor) dpkgpackages_dealloc,
(printfunc) 0,
(getattrfunc) dpkgpackages_getattr,
(setattrfunc) 0,
(cmpfunc) 0,
(reprfunc) 0,
0, /* number methods */
0, /* sequence methods */
0, /* mapping methods */
(hashfunc) 0, /* dict[x] ?? */
(ternaryfunc) 0, /* x() */
(reprfunc) 0 /* str(x) */
};
/**************************************************************************
* britney.buildSystem() -- build a fake package system, with the only purpose of
* calling the is_installable method on the packages.
******************************************************/
static PyObject *build_system(PyObject *self, PyObject *args) {
Py_ssize_t pos = 0;
char *arch;
PyObject *pkgs, *key, *value, *pyString;
(void)self; /* unused */
if (!PyArg_ParseTuple(args, "sO", &arch, &pkgs) ||
!PyDict_Check(pkgs)) return NULL;
/* Fields and positions for the binary package:
# VERSION = 0
# SECTION = 1
# SOURCE = 2
# SOURCEVER = 3
# ARCHITECTURE = 4
# PREDEPENDS = 5
# DEPENDS = 6
# CONFLICTS = 7
# PROVIDES = 8
# RDEPENDS = 9
# RCONFLICTS = 10
*/
dpkg_packages *dpkg_pkgs = new_packages(arch);
/* loop on the dictionary keys to build the packages */
while (PyDict_Next(pkgs, &pos, &key, &value)) {
/* initialize the new package */
dpkg_package *pkg;
pkg = block_malloc(sizeof(dpkg_package));
pkg->package = strdup(PyString_AsString(key));
pkg->priority = 0;
pkg->details = NULL;
pkg->depends[2] = NULL;
pkg->depends[3] = NULL;
pyString = PyList_GetItem(value, 0);
if (pyString == NULL) continue;
pkg->version = PyString_AsString(pyString);
pyString = PyList_GetItem(value, 2);
if (pyString == NULL) continue;
pkg->source = PyString_AsString(pyString);
pyString = PyList_GetItem(value, 3);
if (pyString == NULL) continue;
pkg->source_ver = PyString_AsString(pyString);
pyString = PyList_GetItem(value, 4);
if (pyString == NULL) continue;
pkg->arch_all = (pyString == Py_None || strcmp(PyString_AsString(pyString), "all") ? 0 : 1);
pyString = PyList_GetItem(value, 5);
if (pyString == NULL) continue;
if (pyString != Py_None) {
pkg->depends[0] = read_dep_andor(PyString_AsString(pyString));
} else pkg->depends[0] = NULL;
pyString = PyList_GetItem(value, 6);
if (pyString == NULL) continue;
if (pyString != Py_None) {
pkg->depends[1] = read_dep_andor(PyString_AsString(pyString));
} else pkg->depends[1] = NULL;
pyString = PyList_GetItem(value, 7);
if (pyString == NULL) continue;
if (pyString != Py_None) {
pkg->conflicts = read_dep_and(PyString_AsString(pyString));
} else pkg->conflicts = NULL;
pyString = PyList_GetItem(value, 8);
if (pyString == NULL) continue;
if (pyString != Py_None) {
pkg->provides = read_packagenames(PyString_AsString(pyString));
} else pkg->provides = NULL;
add_package(dpkg_pkgs, pkg);
}
dpkgpackages *res;
res = PyObject_NEW(dpkgpackages, &Packages_Type);
if (res == NULL) return NULL;
res->pkgs = dpkg_pkgs;
res->freeme = FREE;
res->ref = NULL;
return (PyObject *)res;
}
/**************************************************************************
* module initialisation
***********************/
static PyMethodDef britneymethods[] = {
{ "buildSystem", build_system, METH_VARARGS, NULL },
{ NULL, NULL, 0, NULL }
};
void initbritney(void) {
Py_InitModule("britney", britneymethods);
}
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