diff options
Diffstat (limited to 'plugins')
-rw-r--r-- | plugins/pychrysalide/analysis/Makefile.am | 1 | ||||
-rw-r--r-- | plugins/pychrysalide/analysis/constants.c | 72 | ||||
-rw-r--r-- | plugins/pychrysalide/analysis/constants.h | 38 | ||||
-rw-r--r-- | plugins/pychrysalide/analysis/content.c | 255 |
4 files changed, 254 insertions, 112 deletions
diff --git a/plugins/pychrysalide/analysis/Makefile.am b/plugins/pychrysalide/analysis/Makefile.am index 65f2150..bb7bec6 100644 --- a/plugins/pychrysalide/analysis/Makefile.am +++ b/plugins/pychrysalide/analysis/Makefile.am @@ -5,6 +5,7 @@ libpychrysaanalysis_la_SOURCES = \ binary.h binary.c \ block.h block.c \ cattribs.h cattribs.c \ + constants.h constants.c \ content.h content.c \ loaded.h loaded.c \ loading.h loading.c \ diff --git a/plugins/pychrysalide/analysis/constants.c b/plugins/pychrysalide/analysis/constants.c new file mode 100644 index 0000000..de7e522 --- /dev/null +++ b/plugins/pychrysalide/analysis/constants.c @@ -0,0 +1,72 @@ + +/* Chrysalide - Outil d'analyse de fichiers binaires + * constants.c - ajout des constantes liées aux analyses + * + * Copyright (C) 2018 Cyrille Bagard + * + * This file is part of Chrysalide. + * + * Chrysalide is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 3 of the License, or + * (at your option) any later version. + * + * Chrysalide is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + */ + + +#include "constants.h" + + +#include <common/endianness.h> + + +#include "../helpers.h" + + + +/****************************************************************************** +* * +* Paramètres : type = type dont le dictionnaire est à compléter. * +* * +* Description : Définit les constantes relatives au contenus binaires. * +* * +* Retour : true en cas de succès de l'opération, false sinon. * +* * +* Remarques : - * +* * +******************************************************************************/ + +bool define_analysis_content_constants(PyTypeObject *type) +{ + bool result; /* Bilan à retourner */ + PyObject *values; /* Groupe de valeurs à établir */ + + values = PyDict_New(); + + result = add_const_to_group(values, "LITTLE", SRE_LITTLE); + if (result) result = add_const_to_group(values, "LITTLE_WORD", SRE_LITTLE_WORD); + if (result) result = add_const_to_group(values, "BIG_WORD", SRE_BIG_WORD); + if (result) result = add_const_to_group(values, "BIG", SRE_BIG); + + if (!result) + { + Py_DECREF(values); + goto exit; + } + + result = attach_constants_group(type, false, "SourceEndian", values, + "Endianness of handled data."); + + exit: + + return result; + +} diff --git a/plugins/pychrysalide/analysis/constants.h b/plugins/pychrysalide/analysis/constants.h new file mode 100644 index 0000000..c4da054 --- /dev/null +++ b/plugins/pychrysalide/analysis/constants.h @@ -0,0 +1,38 @@ + +/* Chrysalide - Outil d'analyse de fichiers binaires + * constants.h - prototypes pour l'ajout des constantes liées aux analyses + * + * Copyright (C) 2019 Cyrille Bagard + * + * This file is part of Chrysalide. + * + * Chrysalide is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation; either version 3 of the License, or + * (at your option) any later version. + * + * Chrysalide is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + */ + + +#ifndef _PLUGINS_PYCHRYSALIDE_ANALYSIS_CONSTANTS_H +#define _PLUGINS_PYCHRYSALIDE_ANALYSIS_CONSTANTS_H + + +#include <Python.h> +#include <stdbool.h> + + +/* Définit les constantes relatives aux contenus binaires. */ +bool define_analysis_content_constants(PyTypeObject *); + + + +#endif /* _PLUGINS_PYCHRYSALIDE_ANALYSIS_CONSTANTS_H */ diff --git a/plugins/pychrysalide/analysis/content.c b/plugins/pychrysalide/analysis/content.c index 5f8694a..93292fb 100644 --- a/plugins/pychrysalide/analysis/content.c +++ b/plugins/pychrysalide/analysis/content.c @@ -37,12 +37,23 @@ #include "cattribs.h" +#include "constants.h" #include "../access.h" #include "../helpers.h" #include "../arch/vmpa.h" +#define BINARY_CONTENT_DOC \ + "The BinContent is an interface which handles access to a given" \ + " binary content." \ + "\n" \ + "All of its implementations are located in the" \ + " pychrysalide.analysis.contents module. The main implemantation" \ + " is the pychrysalide.analysis.contents.FileContent class." + + + /* Fournit le nom associé au contenu binaire. */ static PyObject *py_binary_content_describe(PyObject *, PyObject *); @@ -71,16 +82,16 @@ static PyObject *py_binary_content_get_attributes(PyObject *, void *); static PyObject *py_binary_content_get_checksum(PyObject *, void *); /* Détermine le nombre d'octets lisibles. */ -static PyObject *py_binary_content_compute_size(PyObject *, void *); +static PyObject *py_binary_content_get_size(PyObject *, void *); /* Détermine la position initiale d'un contenu. */ -static PyObject *py_binary_content_compute_start_pos(PyObject *, void *); +static PyObject *py_binary_content_get_start_pos(PyObject *, void *); /* Détermine la position finale d'un contenu. */ -static PyObject *py_binary_content_compute_end_pos(PyObject *, void *); +static PyObject *py_binary_content_get_end_pos(PyObject *, void *); /* Renvoie tout le contenu binaire d'un coup. */ -static PyObject *py_binary_content_get_all_bytes(PyObject *, void *); +static PyObject *py_binary_content_get_data(PyObject *, void *); @@ -100,17 +111,25 @@ static PyObject *py_binary_content_get_all_bytes(PyObject *, void *); static PyObject *py_binary_content_describe(PyObject *self, PyObject *args) { PyObject *result; /* Instance à retourner */ - GBinContent *content; /* Version GLib du format */ int full; /* Description complète ? */ int ret; /* Bilan de lecture des args. */ + GBinContent *content; /* Version GLib du format */ const char *desc; /* Description obtenue */ - content = G_BIN_CONTENT(pygobject_get(self)); - assert(content != NULL); +#define BINARY_CONTENT_DESCRIBE_METHOD PYTHON_METHOD_DEF \ +( \ + describe, "$self, /, full=False", \ + METH_VARARGS, py_binary_content, \ + "Get a (full ?) description of the binary content." \ +) - ret = PyArg_ParseTuple(args, "p", &full); + full = 0; + + ret = PyArg_ParseTuple(args, "|p", &full); if (!ret) return NULL; + content = G_BIN_CONTENT(pygobject_get(self)); + desc = g_binary_content_describe(content, full); result = PyUnicode_FromString(desc); @@ -136,23 +155,25 @@ static PyObject *py_binary_content_describe(PyObject *self, PyObject *args) static PyObject *py_binary_content_read_raw(PyObject *self, PyObject *args) { PyObject *result; /* Instance à retourner */ - GBinContent *content; /* Version GLib du format */ - PyObject *addr_obj; /* Objet pour une position */ - vmpa2t *addr; /* Position interne associée */ + vmpa2t addr; /* Position interne associée */ unsigned long long length; /* Quantité de données à lire */ int ret; /* Bilan de lecture des args. */ + GBinContent *content; /* Version GLib du format */ const bin_t *val; /* Valeur lue à faire suivre */ - content = G_BIN_CONTENT(pygobject_get(self)); - assert(content != NULL); +#define BINARY_CONTENT_READ_RAW_METHOD PYTHON_METHOD_DEF \ +( \ + read_raw, "$self, addr, length, /", \ + METH_VARARGS, py_binary_content, \ + "Read bytes from a given position." \ +) - ret = PyArg_ParseTuple(args, "OK", &addr_obj, &length); + ret = PyArg_ParseTuple(args, "O&K", convert_any_to_vmpa, &addr, &length); if (!ret) return NULL; - addr = get_internal_vmpa(addr_obj); - assert(addr != NULL); + content = G_BIN_CONTENT(pygobject_get(self)); - val = g_binary_content_get_raw_access(content, addr, length); + val = g_binary_content_get_raw_access(content, &addr, length); if (val == NULL) { PyErr_SetString(PyExc_Exception, _("Invalid read access.")); @@ -182,23 +203,25 @@ static PyObject *py_binary_content_read_raw(PyObject *self, PyObject *args) static PyObject *py_binary_content_read_u8(PyObject *self, PyObject *args) { PyObject *result; /* Instance à retourner */ - GBinContent *content; /* Version GLib du format */ + vmpa2t addr; /* Position interne associée */ int ret; /* Bilan de lecture des args. */ - PyObject *addr_obj; /* Objet pour une position */ - vmpa2t *addr; /* Position interne associée */ + GBinContent *content; /* Version GLib du format */ uint8_t val; /* Valeur lue à faire suivre */ bool status; /* Bilan de l'opération */ - content = G_BIN_CONTENT(pygobject_get(self)); - assert(content != NULL); +#define BINARY_CONTENT_READ_U8_METHOD PYTHON_METHOD_DEF \ +( \ + read_u8, "$self, addr, /", \ + METH_VARARGS, py_binary_content, \ + "Read an unsigned byte from a given position." \ +) - ret = PyArg_ParseTuple(args, "O", &addr_obj); + ret = PyArg_ParseTuple(args, "O&", convert_any_to_vmpa, &addr); if (!ret) return NULL; - addr = get_internal_vmpa(addr_obj); - assert(addr != NULL); + content = G_BIN_CONTENT(pygobject_get(self)); - status = g_binary_content_read_u8(content, addr, &val); + status = g_binary_content_read_u8(content, &addr, &val); if (!status) { PyErr_SetString(PyExc_Exception, _("Invalid read access.")); @@ -228,24 +251,29 @@ static PyObject *py_binary_content_read_u8(PyObject *self, PyObject *args) static PyObject *py_binary_content_read_u16(PyObject *self, PyObject *args) { PyObject *result; /* Instance à retourner */ - GBinContent *content; /* Version GLib du format */ - int ret; /* Bilan de lecture des args. */ - PyObject *addr_obj; /* Objet pour une position */ + vmpa2t addr; /* Position interne associée */ unsigned long endianness; /* Boutisme de la lecture */ - vmpa2t *addr; /* Position interne associée */ + int ret; /* Bilan de lecture des args. */ + GBinContent *content; /* Version GLib du format */ uint16_t val; /* Valeur lue à faire suivre */ bool status; /* Bilan de l'opération */ - content = G_BIN_CONTENT(pygobject_get(self)); - assert(content != NULL); +#define BINARY_CONTENT_READ_U16_METHOD PYTHON_METHOD_DEF \ +( \ + read_u16, "$self, addr, endian, /", \ + METH_VARARGS, py_binary_content, \ + "Read two unsigned bytes from a given position." \ + "\n" \ + "The endianness of the data can be provided using" \ + " pychrysalide.analysis.BinContent.SourceEndian values." \ +) - ret = PyArg_ParseTuple(args, "Ok", &addr_obj, &endianness); + ret = PyArg_ParseTuple(args, "O&k", convert_any_to_vmpa, &addr, &endianness); if (!ret) return NULL; - addr = get_internal_vmpa(addr_obj); - assert(addr != NULL); + content = G_BIN_CONTENT(pygobject_get(self)); - status = g_binary_content_read_u16(content, addr, endianness, &val); + status = g_binary_content_read_u16(content, &addr, endianness, &val); if (!status) { PyErr_SetString(PyExc_Exception, _("Invalid read access.")); @@ -275,24 +303,29 @@ static PyObject *py_binary_content_read_u16(PyObject *self, PyObject *args) static PyObject *py_binary_content_read_u32(PyObject *self, PyObject *args) { PyObject *result; /* Instance à retourner */ - GBinContent *content; /* Version GLib du format */ - int ret; /* Bilan de lecture des args. */ - PyObject *addr_obj; /* Objet pour une position */ + vmpa2t addr; /* Position interne associée */ unsigned long endianness; /* Boutisme de la lecture */ - vmpa2t *addr; /* Position interne associée */ + int ret; /* Bilan de lecture des args. */ + GBinContent *content; /* Version GLib du format */ uint32_t val; /* Valeur lue à faire suivre */ bool status; /* Bilan de l'opération */ - content = G_BIN_CONTENT(pygobject_get(self)); - assert(content != NULL); +#define BINARY_CONTENT_READ_U32_METHOD PYTHON_METHOD_DEF \ +( \ + read_u32, "$self, addr, endian, /", \ + METH_VARARGS, py_binary_content, \ + "Read four unsigned bytes from a given position." \ + "\n" \ + "The endianness of the data can be provided using" \ + " pychrysalide.analysis.BinContent.SourceEndian values." \ +) - ret = PyArg_ParseTuple(args, "Ok", &addr_obj, &endianness); + ret = PyArg_ParseTuple(args, "O&k", convert_any_to_vmpa, &addr, &endianness); if (!ret) return NULL; - addr = get_internal_vmpa(addr_obj); - assert(addr != NULL); + content = G_BIN_CONTENT(pygobject_get(self)); - status = g_binary_content_read_u32(content, addr, endianness, &val); + status = g_binary_content_read_u32(content, &addr, endianness, &val); if (!status) { PyErr_SetString(PyExc_Exception, _("Invalid read access.")); @@ -321,24 +354,29 @@ static PyObject *py_binary_content_read_u32(PyObject *self, PyObject *args) static PyObject *py_binary_content_read_u64(PyObject *self, PyObject *args) { PyObject *result; /* Instance à retourner */ - GBinContent *content; /* Version GLib du format */ - int ret; /* Bilan de lecture des args. */ - PyObject *addr_obj; /* Objet pour une position */ + vmpa2t addr; /* Position interne associée */ unsigned long endianness; /* Boutisme de la lecture */ - vmpa2t *addr; /* Position interne associée */ + int ret; /* Bilan de lecture des args. */ + GBinContent *content; /* Version GLib du format */ uint64_t val; /* Valeur lue à faire suivre */ bool status; /* Bilan de l'opération */ - content = G_BIN_CONTENT(pygobject_get(self)); - assert(content != NULL); +#define BINARY_CONTENT_READ_U64_METHOD PYTHON_METHOD_DEF \ +( \ + read_u64, "$self, addr, endian, /", \ + METH_VARARGS, py_binary_content, \ + "Read eight unsigned bytes from a given position." \ + "\n" \ + "The endianness of the data can be provided using" \ + " pychrysalide.analysis.BinContent.SourceEndian values." \ +) - ret = PyArg_ParseTuple(args, "Ok", &addr_obj, &endianness); + ret = PyArg_ParseTuple(args, "O&k", convert_any_to_vmpa, &addr, &endianness); if (!ret) return NULL; - addr = get_internal_vmpa(addr_obj); - assert(addr != NULL); + content = G_BIN_CONTENT(pygobject_get(self)); - status = g_binary_content_read_u64(content, addr, endianness, &val); + status = g_binary_content_read_u64(content, &addr, endianness, &val); if (!status) { PyErr_SetString(PyExc_Exception, _("Invalid read access.")); @@ -445,6 +483,12 @@ static PyObject *py_binary_content_get_checksum(PyObject *self, void *closure) GBinContent *content; /* Version GLib du format */ const gchar *checksum; /* Empreinte fournie */ +#define BINARY_CONTENT_CHECKSUM_ATTRIB PYTHON_GET_DEF_FULL \ +( \ + checksum, py_binary_content, \ + "Compute a SHA256 hash as chechsum of handled data." \ +) + content = G_BIN_CONTENT(pygobject_get(self)); checksum = g_binary_content_get_checksum(content); @@ -469,12 +513,18 @@ static PyObject *py_binary_content_get_checksum(PyObject *self, void *closure) * * ******************************************************************************/ -static PyObject *py_binary_content_compute_size(PyObject *self, void *closure) +static PyObject *py_binary_content_get_size(PyObject *self, void *closure) { PyObject *result; /* Instance à retourner */ GBinContent *content; /* Version GLib du format */ phys_t size; /* Quantité d'octets dispos. */ +#define BINARY_CONTENT_SIZE_ATTRIB PYTHON_GET_DEF_FULL \ +( \ + size, py_binary_content, \ + "Compute the quantity of readable bytes." \ +) + content = G_BIN_CONTENT(pygobject_get(self)); size = g_binary_content_compute_size(content); @@ -499,12 +549,18 @@ static PyObject *py_binary_content_compute_size(PyObject *self, void *closure) * * ******************************************************************************/ -static PyObject *py_binary_content_compute_start_pos(PyObject *self, void *closure) +static PyObject *py_binary_content_get_start_pos(PyObject *self, void *closure) { PyObject *result; /* Instance à retourner */ GBinContent *content; /* Version GLib du format */ vmpa2t pos; /* Position à transmettre */ +#define BINARY_CONTENT_START_POS_ATTRIB PYTHON_GET_DEF_FULL \ +( \ + start_pos, py_binary_content, \ + "Provide the starting position of the binary content." \ +) + content = G_BIN_CONTENT(pygobject_get(self)); g_binary_content_compute_start_pos(content, &pos); @@ -529,12 +585,18 @@ static PyObject *py_binary_content_compute_start_pos(PyObject *self, void *closu * * ******************************************************************************/ -static PyObject *py_binary_content_compute_end_pos(PyObject *self, void *closure) +static PyObject *py_binary_content_get_end_pos(PyObject *self, void *closure) { PyObject *result; /* Instance à retourner */ GBinContent *content; /* Version GLib du format */ vmpa2t pos; /* Position à transmettre */ +#define BINARY_CONTENT_END_POS_ATTRIB PYTHON_GET_DEF_FULL \ +( \ + end_pos, py_binary_content, \ + "Provide the ending position of the binary content." \ +) + content = G_BIN_CONTENT(pygobject_get(self)); g_binary_content_compute_end_pos(content, &pos); @@ -559,7 +621,7 @@ static PyObject *py_binary_content_compute_end_pos(PyObject *self, void *closure * * ******************************************************************************/ -static PyObject *py_binary_content_get_all_bytes(PyObject *self, void *closure) +static PyObject *py_binary_content_get_data(PyObject *self, void *closure) { PyObject *result; /* Contenu à retourner */ GBinContent *content; /* Version GLib du format */ @@ -567,8 +629,13 @@ static PyObject *py_binary_content_get_all_bytes(PyObject *self, void *closure) phys_t length; /* Nombre d'octets disponibles */ const bin_t *val; /* Valeur lue à faire suivre */ +#define BINARY_CONTENT_DATA_ATTRIB PYTHON_GET_DEF_FULL \ +( \ + data, py_binary_content, \ + "Provide all the content bytes at once." \ +) + content = G_BIN_CONTENT(pygobject_get(self)); - assert(content != NULL); init_vmpa(&start, 0, VMPA_NO_VIRTUAL); @@ -599,61 +666,22 @@ static PyObject *py_binary_content_get_all_bytes(PyObject *self, void *closure) PyTypeObject *get_python_binary_content_type(void) { static PyMethodDef py_binary_content_methods[] = { - { - "describe", py_binary_content_describe, - METH_VARARGS, - "describe($self, full, /)\n--\n\nGet a (full ?) description of the binary content." - }, - { - "read_raw", py_binary_content_read_raw, - METH_VARARGS, - "read_raw($self, addr, length, /)\n--\n\nRead bytes from a given position." - }, - { - "read_u8", py_binary_content_read_u8, - METH_VARARGS, - "read_u8($self, addr, /)\n--\n\nRead an unsigned byte from a given position." - }, - { - "read_u16", py_binary_content_read_u16, - METH_VARARGS, - "read_u16($self, addr, endianness, /)\n--\n\nRead two unsigned bytes from a given position." - }, - { - "read_u32", py_binary_content_read_u32, - METH_VARARGS, - "read_u32($self, addr, endianness, /)\n--\n\nRead four unsigned bytes from a given position." - }, - { - "read_u64", py_binary_content_read_u64, - METH_VARARGS, - "read_u64($self, addr, endianness, /)\n--\n\nRead eight unsigned bytes from a given position." - }, + BINARY_CONTENT_DESCRIBE_METHOD, + BINARY_CONTENT_READ_RAW_METHOD, + BINARY_CONTENT_READ_U8_METHOD, + BINARY_CONTENT_READ_U16_METHOD, + BINARY_CONTENT_READ_U32_METHOD, + BINARY_CONTENT_READ_U64_METHOD, { NULL } }; static PyGetSetDef py_binary_content_getseters[] = { BINARY_CONTENT_ATTRIBUTES_ATTRIB, - { - "checksum", py_binary_content_get_checksum, NULL, - "Compute a SHA256 hash as chechsum of handled data.", NULL - }, - { - "size", py_binary_content_compute_size, NULL, - "Compute the quantity of readable bytes.", NULL - }, - { - "start_pos", py_binary_content_compute_start_pos, NULL, - "Provide the starting position of the binary content.", NULL - }, - { - "end_pos", py_binary_content_compute_end_pos, NULL, - "Provide the ending position of the binary content.", NULL - }, - { - "data", py_binary_content_get_all_bytes, NULL, - "Provide all the content bytes at once.", NULL - }, + BINARY_CONTENT_CHECKSUM_ATTRIB, + BINARY_CONTENT_SIZE_ATTRIB, + BINARY_CONTENT_START_POS_ATTRIB, + BINARY_CONTENT_END_POS_ATTRIB, + BINARY_CONTENT_DATA_ATTRIB, { NULL } }; @@ -666,7 +694,7 @@ PyTypeObject *get_python_binary_content_type(void) .tp_flags = Py_TPFLAGS_DEFAULT | Py_TPFLAGS_BASETYPE, - .tp_doc = "PyChrysalide binary content", + .tp_doc = BINARY_CONTENT_DOC, .tp_methods = py_binary_content_methods, .tp_getset = py_binary_content_getseters @@ -707,6 +735,9 @@ bool ensure_python_binary_content_is_registered(void) if (!register_interface_for_pygobject(dict, G_TYPE_BIN_CONTENT, type)) return false; + if (!define_analysis_content_constants(type)) + return false; + } return true; |