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pEpPythonAdapter
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formatting fornatting - breakfast and lunch - dinner and brunch :)

REWORK
heck 5 years ago
parent
63e830040c
commit
0e893624c9
14 changed files with 1726 additions and 1874 deletions
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  1. 133
      src/pEp/_pEp/basic_api.cc
  2. 26
      src/pEp/_pEp/basic_api.hh
  3. 174
      src/pEp/_pEp/identity.cc
  4. 26
      src/pEp/_pEp/identity.hh
  5. 226
      src/pEp/_pEp/message.cc
  6. 23
      src/pEp/_pEp/message.hh
  7. 82
      src/pEp/_pEp/message_api.cc
  8. 19
      src/pEp/_pEp/message_api.hh
  9. 563
      src/pEp/_pEp/pEpmodule.cc
  10. 20
      src/pEp/_pEp/pEpmodule.hh
  11. 91
      src/pEp/_pEp/str_attr.cc
  12. 6
      src/pEp/_pEp/str_attr.hh
  13. 81
      src/pEp/_pEp/user_interface.cc
  14. 26
      src/pEp/_pEp/user_interface.hh

133
src/pEp/_pEp/basic_api.cc
View File

@ -13,98 +13,103 @@
#include "basic_api.hh"
namespace pEp {
namespace PythonAdapter {
using namespace std;
namespace PythonAdapter {
using namespace std;
void update_identity(Identity &ident) {
if (ident.address() == "")
void update_identity(Identity &ident) {
if (ident.address() == "") {
throw invalid_argument("address needed");
if (ident.user_id() == PEP_OWN_USERID)
}
if (ident.user_id() == PEP_OWN_USERID) {
throw runtime_error("update_identity: '"
PEP_OWN_USERID
"' may only be used for own identities");
}
::PEP_STATUS status = ::update_identity(Adapter::session(), ident);
_throw_status(status);
}
}
void myself(Identity &ident) {
if (ident.address() == "")
void myself(Identity &ident) {
if (ident.address() == "") {
throw invalid_argument("address needed");
if (ident.username() == "")
}
if (ident.username() == "") {
throw invalid_argument("username needed");
if (ident.user_id() == "")
}
if (ident.user_id() == "") {
ident.user_id(ident.address());
}
::PEP_STATUS status = ::myself(Adapter::session(), ident);
_throw_status(status);
}
}
string _trustwords(Identity me, Identity partner, string lang, bool full) {
if (me.fpr() == "" || partner.fpr() == "")
string _trustwords(Identity me, Identity partner, string lang, bool full) {
if (me.fpr() == "" || partner.fpr() == "") {
throw invalid_argument("fingerprint needed in Identities");
if (lang == "" && me.lang() == partner.lang())
}
if (lang == "" && me.lang() == partner.lang()) {
lang = me.lang();
}
char *words = NULL;
size_t size = 0;
::PEP_STATUS status = ::get_trustwords(Adapter::session(), me, partner,
lang.c_str(), &words, &size, full);
::PEP_STATUS status = ::get_trustwords(Adapter::session(), me, partner, lang.c_str(), &words, &size, full);
_throw_status(status);
return words;
}
}
void trust_personal_key(Identity ident) {
if (ident.fpr() == "")
void trust_personal_key(Identity ident) {
if (ident.fpr() == "") {
throw invalid_argument("fingerprint needed in Identities");
if (ident.user_id() == "")
}
if (ident.user_id() == "") {
throw invalid_argument("user_id must be provided");
}
::PEP_STATUS status = ::trust_personal_key(Adapter::session(), ident);
_throw_status(status);
}
}
void set_identity_flags(Identity ident, ::identity_flags_t flags) {
if (ident.address() == "")
void set_identity_flags(Identity ident, ::identity_flags_t flags) {
if (ident.address() == "") {
throw invalid_argument("address needed");
if (ident.user_id() == "")
}
if (ident.user_id() == "") {
throw invalid_argument("user_id needed");
}
::PEP_STATUS status = ::set_identity_flags(Adapter::session(), ident, flags);
_throw_status(status);
}
}
void unset_identity_flags(Identity ident, ::identity_flags_t flags) {
if (ident.address() == "")
void unset_identity_flags(Identity ident, ::identity_flags_t flags) {
if (ident.address() == "") {
throw invalid_argument("address needed");
if (ident.user_id() == "")
}
if (ident.user_id() == "") {
throw invalid_argument("user_id needed");
}
::PEP_STATUS status = ::unset_identity_flags(Adapter::session(), ident, flags);
_throw_status(status);
}
}
void key_reset_trust(Identity ident) {
if (ident.fpr() == "")
void key_reset_trust(Identity ident) {
if (ident.fpr() == "") {
throw invalid_argument("fpr needed");
if (ident.address() == "")
}
if (ident.address() == "") {
throw invalid_argument("address needed");
if (ident.user_id() == "")
}
if (ident.user_id() == "") {
throw invalid_argument("user_id needed");
}
::PEP_STATUS status = ::key_reset_trust(Adapter::session(), ident);
_throw_status(status);
}
}
boost::python::list import_key(string key_data) {
boost::python::list import_key(string key_data) {
::identity_list *private_keys = NULL;
::PEP_STATUS status = ::import_key(Adapter::session(), key_data.c_str(), key_data.size(), &private_keys);
if (status && status != ::PEP_KEY_IMPORTED)
if (status && status != ::PEP_KEY_IMPORTED) {
_throw_status(status);
}
auto result = boost::python::list();
for (::identity_list *il = private_keys; il && il->ident; il = il->next) {
::pEp_identity *ident = ::identity_dup(il->ident);
@ -114,48 +119,46 @@ namespace pEp {
}
result.append(Identity(ident));
}
::free_identity_list(private_keys);
return result;
}
}
string export_key(Identity ident) {
string export_key(Identity ident) {
::PEP_STATUS status = ::PEP_STATUS_OK;
char *key_data = NULL;
size_t size;
status = ::export_key(Adapter::session(), ident.fpr().c_str(), &key_data, &size);
_throw_status(status);
return key_data;
}
}
string export_secret_key(Identity ident) {
string export_secret_key(Identity ident) {
::PEP_STATUS status = ::PEP_STATUS_OK;
char *key_data = NULL;
size_t size;
status = ::export_secret_key(Adapter::session(), ident.fpr().c_str(), &key_data, &size);
_throw_status(status);
return key_data;
}
}
void set_own_key(Identity &ident, string fpr) {
if (ident.address() == "")
void set_own_key(Identity &ident, string fpr) {
if (ident.address() == "") {
throw invalid_argument("address needed");
if (ident.username() == "")
}
if (ident.username() == "") {
throw invalid_argument("username needed");
if (ident.user_id() == "")
}
if (ident.user_id() == "") {
throw invalid_argument("user_id needed");
if (fpr == "")
}
if (fpr == "") {
throw invalid_argument("fpr needed");
}
const char *fpr_c = fpr.c_str();
::PEP_STATUS status = ::set_own_key(Adapter::session(), ident, fpr_c);
_throw_status(status);
}
} // namespace PythonAdapter
}
} // namespace PythonAdapter
} // namespace pEp

26
src/pEp/_pEp/basic_api.hh
View File

@ -8,31 +8,31 @@
#include "identity.hh"
namespace pEp {
namespace PythonAdapter {
namespace PythonAdapter {
void update_identity(Identity &ident);
void update_identity(Identity &ident);
void myself(Identity &ident);
void myself(Identity &ident);
string _trustwords(Identity me, Identity partner, string lang, bool full);
string _trustwords(Identity me, Identity partner, string lang, bool full);
void trust_personal_key(Identity ident);
void trust_personal_key(Identity ident);
void set_identity_flags(Identity ident, ::identity_flags_t flags);
void set_identity_flags(Identity ident, ::identity_flags_t flags);
void unset_identity_flags(Identity ident, ::identity_flags_t flags);
void unset_identity_flags(Identity ident, ::identity_flags_t flags);
void key_reset_trust(Identity ident);
void key_reset_trust(Identity ident);
boost::python::list import_key(string key_data);
boost::python::list import_key(string key_data);
string export_key(Identity ident);
string export_key(Identity ident);
string export_secret_key(Identity ident);
string export_secret_key(Identity ident);
void set_own_key(Identity &ident, string fpr);
void set_own_key(Identity &ident, string fpr);
} /* namespace PythonAdapter */
} /* namespace PythonAdapter */
} /* namespace pEp */
#endif /* BASIC_API_HH */

174
src/pEp/_pEp/identity.cc
View File

@ -17,153 +17,162 @@
#include "message_api.hh"
namespace pEp {
namespace PythonAdapter {
using namespace std;
using namespace boost::python;
Identity::Identity(string address, string username, string user_id,
string fpr, int comm_type, string lang, ::identity_flags_t flags)
: _ident(::new_identity(address.c_str(), fpr.c_str(), user_id.c_str(),
username.c_str()), &::free_identity) {
if (!_ident)
namespace PythonAdapter {
using namespace std;
using namespace boost::python;
Identity::Identity(string address, string username, string user_id, string fpr, int comm_type, string lang, ::identity_flags_t flags)
: _ident(::new_identity(address.c_str(), fpr.c_str(), user_id.c_str(), username.c_str()), &::free_identity) {
if (!_ident) {
throw bad_alloc();
_ident->comm_type = (::PEP_comm_type) comm_type;
_ident->flags = (::identity_flags_t) flags;
this->lang(lang);
}
_ident->comm_type = (::PEP_comm_type)comm_type;
_ident->flags = (::identity_flags_t)flags;
this->lang(lang);
}
Identity::Identity(const Identity &second)
Identity::Identity(const Identity &second)
: _ident(second._ident) {
}
}
Identity::Identity(::pEp_identity *ident)
Identity::Identity(::pEp_identity *ident)
: _ident(ident, &::free_identity) {
}
}
Identity::~Identity() {
Identity::~Identity() {
}
}
Identity::operator ::pEp_identity *() {
Identity::operator ::pEp_identity *() {
return _ident.get();
}
}
Identity::operator const ::pEp_identity *() const {
Identity::operator const ::pEp_identity *() const {
return _ident.get();
}
}
string Identity::_repr() {
string Identity::_repr() {
stringstream build;
build << "Identity(";
string address;
if (_ident->address)
if (_ident->address) {
address = string(_ident->address);
}
build << repr(address) << ", ";
string username;
if (_ident->username)
if (_ident->username) {
username = string(_ident->username);
}
build << repr(username) << ", ";
string user_id;
if (_ident->user_id)
if (_ident->user_id) {
user_id = string(_ident->user_id);
}
build << repr(user_id) << ", ";
string fpr;
if (_ident->fpr)
if (_ident->fpr) {
fpr = string(_ident->fpr);
}
build << repr(fpr) << ", ";
build << (int) _ident->comm_type << ", ";
build << (int)_ident->comm_type << ", ";
string lang = _ident->lang;
build << repr(lang) << ")";
return build.str();
}
}
string Identity::_str() {
if (!(_ident->address && _ident->address[0]))
string Identity::_str() {
if (!(_ident->address && _ident->address[0])) {
return "";
if (!(_ident->username && _ident->username[0]))
}
if (!(_ident->username && _ident->username[0])) {
return _ident->address;
return string(_ident->username) + " <" + _ident->address + ">";
}
return string(_ident->username) + " <" + _ident->address + ">";
}
void Identity::username(string value) {
if (value.length() && value.length() < 5)
void Identity::username(string value) {
if (value.length() && value.length() < 5) {
throw length_error("username must be at least 5 characters");
}
str_attr(_ident->username, value);
}
}
void Identity::lang(string value) {
if (value == "")
void Identity::lang(string value) {
if (value == "") {
memset(_ident->lang, 0, 3);
else if (value.length() != 2)
} else if (value.length() != 2) {
throw length_error("length of lang must be 2");
else
} else {
memcpy(_ident->lang, value.c_str(), 3);
}
}
string Identity::lang() {
string Identity::lang() {
return _ident->lang;
}
}
int Identity::rating() {
if (!(_ident->address))
int Identity::rating() {
if (!(_ident->address)) {
throw invalid_argument("address must be given");
}
::PEP_rating rating = ::PEP_rating_undefined;
::PEP_STATUS status = ::identity_rating(Adapter::session(), _ident.get(), &rating);
_throw_status(status);
return (int) rating;
}
return (int)rating;
}
::PEP_color Identity::color() {
::PEP_color Identity::color() {
return _color(rating());
}
}
Identity Identity::copy() {
Identity Identity::copy() {
::pEp_identity *dup = ::identity_dup(*this);
if (!dup)
if (!dup) {
throw bad_alloc();
}
return Identity(dup);
}
}
Identity Identity::deepcopy(dict &) {
Identity Identity::deepcopy(dict &) {
return copy();
}
}
void Identity::update() {
void Identity::update() {
update_identity(*this);
}
}
void Identity::key_reset(string fpr) {
void Identity::key_reset(string fpr) {
::PEP_STATUS status = ::key_reset_identity(Adapter::session(), *this, fpr != "" ? fpr.c_str() : nullptr);
_throw_status(status);
}
}
void Identity::key_mistrusted() {
void Identity::key_mistrusted() {
::PEP_STATUS status = ::key_mistrusted(Adapter::session(), *this);
_throw_status(status);
}
}
bool Identity::is_pEp_user() {
bool Identity::is_pEp_user() {
bool result;
::PEP_STATUS status = ::is_pEp_user(Adapter::session(), *this, &result);
_throw_status(status);
return result;
}
}
void Identity::enable_for_sync() {
void Identity::enable_for_sync() {
::PEP_STATUS status = ::enable_identity_for_sync(Adapter::session(), *this);
_throw_status(status);
}
}
void Identity::disable_for_sync() {
void Identity::disable_for_sync() {
::PEP_STATUS status = ::disable_identity_for_sync(Adapter::session(), *this);
_throw_status(status);
}
}
// Myself::Myself(string address, string username, string user_id, string lang)
// : Identity(address, username, user_id, "", 0, lang) {
@ -182,50 +191,55 @@ namespace pEp {
// pEp::PythonAdapter::myself(*this);
// }
Identity identity_attr(::pEp_identity *&ident) {
if (!ident)
Identity identity_attr(::pEp_identity *&ident) {
if (!ident) {
throw out_of_range("no identity assigned");
}
::pEp_identity *_dup = ::identity_dup(ident);
if (!_dup)
if (!_dup) {
throw bad_alloc();
}
Identity _ident(_dup);
return _ident;
}
}
void identity_attr(::pEp_identity *&ident, object value) {
void identity_attr(::pEp_identity *&ident, object value) {
Identity &_ident = extract<Identity &>(value);
::pEp_identity *_dup = ::identity_dup(_ident);
if (!_dup)
if (!_dup) {
throw bad_alloc();
}
::PEP_STATUS status = ::update_identity(Adapter::session(), _dup);
_throw_status(status);
::free_identity(ident);
ident = _dup;
}
}
boost::python::list identitylist_attr(::identity_list *&il) {
boost::python::list identitylist_attr(::identity_list *&il) {
boost::python::list result;
for (::identity_list *_il = il; _il && _il->ident; _il = _il->next) {
::pEp_identity *ident = ::identity_dup(_il->ident);
if (!ident)
if (!ident) {
throw bad_alloc();
}
result.append(object(Identity(ident)));
}
return result;
}
}
void identitylist_attr(::identity_list *&il, boost::python::list value) {
void identitylist_attr(::identity_list *&il, boost::python::list value) {
::identity_list *_il = ::new_identity_list(NULL);
if (!_il)
if (!_il) {
throw bad_alloc();
}
::identity_list *_i = _il;
for (int i = 0; i < len(value); i++) {
extract < Identity & > extract_identity(value[i]);
extract<Identity &> extract_identity(value[i]);
if (!extract_identity.check()) {
::free_identity_list(_il);
}
@ -249,8 +263,8 @@ namespace pEp {
::free_identity_list(il);
il = _il;
}
}
} // namespace PythonAdapter
} // namespace PythonAdapter
} // namespace pEp

26
src/pEp/_pEp/identity.hh
View File

@ -21,21 +21,19 @@
#include "str_attr.hh"
namespace pEp {
namespace PythonAdapter {
namespace PythonAdapter {
using std::string;
using std::shared_ptr;
using std::string;
using std::shared_ptr;
// Identity is owning a pEp_identity
class Identity {
class Identity {
protected:
shared_ptr <::pEp_identity> _ident;
shared_ptr<::pEp_identity> _ident;
public:
Identity(string address = "", string username = "",
string user_id = "", string fpr = "", int comm_type = 0,
string lang = "", ::identity_flags_t flags = 0);
Identity(string address = "", string username = "", string user_id = "", string fpr = "", int comm_type = 0, string lang = "", ::identity_flags_t flags = 0);
Identity(const Identity &second);
@ -98,7 +96,7 @@ namespace pEp {
void enable_for_sync();
void disable_for_sync();
};
};
// class Myself : public Identity {
// public:
@ -107,15 +105,15 @@ namespace pEp {
// virtual void update();
// };
Identity identity_attr(::pEp_identity *&ident);
Identity identity_attr(::pEp_identity *&ident);
void identity_attr(::pEp_identity *&ident, object value);
void identity_attr(::pEp_identity *&ident, object value);
boost::python::list identitylist_attr(::identity_list *&il);
boost::python::list identitylist_attr(::identity_list *&il);
void identitylist_attr(::identity_list *&il, boost::python::list value);
void identitylist_attr(::identity_list *&il, boost::python::list value);
} // namespace PythonAdapter
} // namespace PythonAdapter
} // namespace pEp
#endif /* IDENTITY_HH */

226
src/pEp/_pEp/message.cc
View File

@ -19,27 +19,32 @@
#include "message_api.hh"
namespace pEp {
namespace PythonAdapter {
using namespace std;
using namespace boost::python;
namespace PythonAdapter {
using namespace std;
using namespace boost::python;
Message::Blob::Blob(::bloblist_t *bl, bool chained) :
_bl(bl), part_of_chain(chained) {
if (!_bl)
Message::Blob::Blob(::bloblist_t *bl, bool chained)
: _bl(bl),
part_of_chain(chained) {
if (!_bl) {
throw bad_alloc();
}
}
Message::Blob::Blob(object data, string mime_type, string filename) :
_bl(::new_bloblist(NULL, 0, NULL, NULL)), part_of_chain(false) {
if (!_bl)
Message::Blob::Blob(object data, string mime_type, string filename)
: _bl(::new_bloblist(NULL, 0, NULL, NULL)),
part_of_chain(false) {
if (!_bl) {
throw bad_alloc();
}
Py_buffer src;
int result = PyObject_GetBuffer(data.ptr(), &src, PyBUF_CONTIG_RO);
if (result)
if (result) {
throw invalid_argument("need a contiguous buffer to read");
}
char *mem = (char *) malloc(src.len);
char *mem = (char *)malloc(src.len);
if (!mem) {
PyBuffer_Release(&src);
throw bad_alloc();
@ -54,21 +59,21 @@ namespace pEp {
this->mime_type(mime_type);
this->filename(filename);
}
Message::Blob::Blob(const Message::Blob &second) :
_bl(second._bl), part_of_chain(true) {
}
}
Message::Blob::Blob(const Message::Blob &second)
: _bl(second._bl),
part_of_chain(true) {
}
Message::Blob::~Blob() {
Message::Blob::~Blob() {
if (!part_of_chain) {
free(_bl->value);
free(_bl);
}
}
}
string Message::Blob::_repr() {
string Message::Blob::_repr() {
stringstream build;
build << "Blob(";
if (!_bl) {
@ -76,26 +81,27 @@ namespace pEp {
} else {
build << "bytes(" << _bl->size << "), ";
string mime_type;
if (_bl->mime_type)
if (_bl->mime_type) {
mime_type = string(_bl->mime_type);
}
string filename;
if (_bl->filename)
if (_bl->filename) {
filename = string(_bl->filename);
}
build << repr(mime_type) << ", ";
build << repr(filename);
}
build << ")";
return build.str();
}
}
int Message::Blob::getbuffer(PyObject *self, Py_buffer *view, int flags) {
int Message::Blob::getbuffer(PyObject *self, Py_buffer *view, int flags) {
::bloblist_t *bl = NULL;
try {
Message::Blob &blob = extract<Message::Blob &>(self);
bl = blob._bl;
}
catch (exception &e) {
} catch (exception &e) {
PyErr_SetString(PyExc_RuntimeError, "extract not possible");
view->obj = NULL;
return -1;
@ -108,54 +114,59 @@ namespace pEp {
}
return PyBuffer_FillInfo(view, self, bl->value, bl->size, 0, flags);
}
}
string Message::Blob::decode(string encoding) {
string Message::Blob::decode(string encoding) {
if (encoding == "") {
string _mime_type = _bl->mime_type ? _bl->mime_type : "";
encoding = "ascii";
if (_mime_type == "application/pEp.sync")
if (_mime_type == "application/pEp.sync") {
encoding = "pep.sync";
}
if (_mime_type == "application/pEp.keyreset")
if (_mime_type == "application/pEp.keyreset") {
encoding = "pep.distribution";
}
}
object codecs = import("codecs");
object _decode = codecs.attr("decode");
return call<string>(_decode.ptr(), this, encoding);
}
}
PyBufferProcs Message::Blob::bp = {getbuffer, NULL};
PyBufferProcs Message::Blob::bp = {getbuffer, NULL};
Message::Message(int dir, Identity *from)
: _msg(new_message((::PEP_msg_direction) dir), &::free_message) {
if (!_msg)
Message::Message(int dir, Identity *from)
: _msg(new_message((::PEP_msg_direction)dir), &::free_message) {
if (!_msg) {
throw bad_alloc();
}
if (from) {
_msg->from = ::identity_dup(*from);
if (!_msg->from)
if (!_msg->from) {
throw bad_alloc();
_msg->dir = (::PEP_msg_direction) dir;
}
_msg->dir = (::PEP_msg_direction)dir;
}
}
Message::Message(string mimetext)
Message::Message(string mimetext)
: _msg(NULL, &::free_message) {
message *_cpy;
::PEP_STATUS status = ::mime_decode_message(mimetext.c_str(),
mimetext.size(), &_cpy, NULL);
::PEP_STATUS status = ::mime_decode_message(mimetext.c_str(), mimetext.size(), &_cpy, NULL);
switch (status) {
case ::PEP_STATUS_OK:
if (_cpy)
if (_cpy) {
_cpy->dir = ::PEP_dir_outgoing;
else
} else {
_cpy = new_message(::PEP_dir_outgoing);
}
if (!_cpy)
if (!_cpy) {
throw bad_alloc();
}
_msg = shared_ptr<::message>(_cpy);
break;
@ -171,37 +182,35 @@ namespace pEp {
default:
stringstream build;
build << "mime_decode_message: unknown error (" << (int) status << ")";
build << "mime_decode_message: unknown error (" << (int)status << ")";
throw runtime_error(build.str());
}
}
}
Message::Message(const Message &second)
Message::Message(const Message &second)
: _msg(second._msg) {
if (!_msg.get())
if (!_msg.get()) {
throw bad_alloc();
}
}
Message::Message(::message *msg)
: _msg(::message_dup(msg), &::free_message) {
}
Message::~Message() {
Message::Message(::message *msg)
: _msg(::message_dup(msg), &::free_message) {}
}
Message::~Message() {}
Message::operator ::message *() {
Message::operator ::message *() {
return _msg.get();
}
}
Message::operator const ::message *() const {
Message::operator const ::message *() const {
return _msg.get();
}
}
string Message::_str() {
if (!(_msg->from && _msg->from->address && _msg->from->address[0]))
string Message::_str() {
if (!(_msg->from && _msg->from->address && _msg->from->address[0])) {
throw out_of_range(".from_.address missing");
}
char *mimetext;
string result;
@ -224,40 +233,39 @@ namespace pEp {
default:
stringstream build;
build << "mime_encode_message: unknown error (" << (int) status << ")";
build << "mime_encode_message: unknown error (" << (int)status << ")";
throw runtime_error(build.str());
}
return result;
}
}
string Message::_repr() {
string Message::_repr() {
stringstream build;
build << "Message(" << repr(_str()) << ")";
return build.str();
}
}
boost::python::tuple Message::attachments() {
boost::python::tuple Message::attachments() {
boost::python::list l;
for (::bloblist_t *bl = _msg->attachments; bl && bl->value; bl =
bl->next) {
for (::bloblist_t *bl = _msg->attachments; bl && bl->value; bl = bl->next) {
l.append(Blob(bl, true));
}
return boost::python::tuple(l);
}
}
void Message::attachments(boost::python::list value) {
void Message::attachments(boost::python::list value) {
::bloblist_t *bl = ::new_bloblist(NULL, 0, NULL, NULL);
if (!bl)
if (!bl) {
throw bad_alloc();
}
::bloblist_t *_l = bl;
for (int i = 0; i < len(value); i++) {
Message::Blob &blob = extract<Message::Blob &>(value[i]);
_l = bloblist_add(_l, blob._bl->value, blob._bl->size,
blob._bl->mime_type, blob._bl->filename);
_l = bloblist_add(_l, blob._bl->value, blob._bl->size, blob._bl->mime_type, blob._bl->filename);
if (!_l) {
for (_l = bl; _l && _l->value;) {
free(_l->mime_type);
@ -282,34 +290,39 @@ namespace pEp {
free_bloblist(_msg->attachments);
_msg->attachments = bl;
}
}
Message Message::encrypt() {
Message Message::encrypt() {
boost::python::list extra;
return encrypt_message(*this, extra, ::PEP_enc_PGP_MIME, 0);
}
}
Message Message::_encrypt(boost::python::list extra, int enc_format, int flags) {
if (!enc_format)
Message Message::_encrypt(boost::python::list extra, int enc_format, int flags) {
if (!enc_format) {
enc_format = ::PEP_enc_PGP_MIME;
return encrypt_message(*this, extra, enc_format, flags);
}
return encrypt_message(*this, extra, enc_format, flags);
}
boost::python::tuple Message::decrypt(int flags) {
boost::python::tuple Message::decrypt(int flags) {
return pEp::PythonAdapter::decrypt_message(*this, flags);
}
}
::PEP_rating Message::outgoing_rating() {
if (_msg->dir != ::PEP_dir_outgoing)
::PEP_rating Message::outgoing_rating() {
if (_msg->dir != ::PEP_dir_outgoing) {
throw invalid_argument("Message.dir must be outgoing");
}
if (from().address() == "")
if (from().address() == "") {
throw invalid_argument("from.address needed");
if (from().username() == "")
}
if (from().username() == "") {
throw invalid_argument("from.username needed");
}
if (len(to()) + len(cc()) == 0)
if (len(to()) + len(cc()) == 0) {
throw invalid_argument("either to or cc needed");
}
::PEP_STATUS status = myself(Adapter::session(), _msg->from);
_throw_status(status);
@ -319,67 +332,70 @@ namespace pEp {
_throw_status(status);
return rating;
}
}
::PEP_color Message::outgoing_color() {
::PEP_color Message::outgoing_color() {
return _color(outgoing_rating());
}
}
Message Message::copy() {
Message Message::copy() {
::message *dup = ::message_dup(*this);
if (!dup)
if (!dup) {
throw bad_alloc();
return Message(dup);
}
return Message(dup);
}
Message Message::deepcopy(dict &) {
Message Message::deepcopy(dict &) {
return copy();
}
}
Message outgoing_message(Identity me) {
if (me.address().empty() || me.user_id().empty())
Message outgoing_message(Identity me) {
if (me.address().empty() || me.user_id().empty()) {
throw runtime_error("at least address and user_id of own user needed");
}
::myself(Adapter::session(), me);
auto m = Message(::PEP_dir_outgoing, &me);
return m;
}
}
static object update(Identity ident) {
if (ident.address().empty())
static object update(Identity ident) {
if (ident.address().empty()) {
throw runtime_error("at least address needed");
}
::update_identity(Adapter::session(), ident);
return object(ident);
}
}
static boost::python::list update(boost::python::list il) {
static boost::python::list update(boost::python::list il) {
for (int i = 0; i < len(il); i++) {
update(extract<Identity>(il[i]));
}
return il;
}
}
Message incoming_message(string mime_text) {
Message incoming_message(string mime_text) {
auto m = Message(mime_text);
m.dir(::PEP_dir_incoming);
try {
m.from(update(m.from()));
} catch (out_of_range &) {
}
catch (out_of_range &) {}
try {
m.recv_by(update(m.recv_by()));
} catch (out_of_range &) {
}
catch (out_of_range &) {}
m.to(update(m.to()));
m.cc(update(m.cc()));
m.reply_to(update(m.reply_to()));
return m;
}
}
} // namespace PythonAdapter
} // namespace PythonAdapter
} // namespace pEp

23
src/pEp/_pEp/message.hh
View File

@ -18,15 +18,15 @@
#include "identity.hh"
namespace pEp {
namespace PythonAdapter {
using std::string;
using std::runtime_error;
using std::invalid_argument;
using boost::lexical_cast;
namespace PythonAdapter {
using std::string;
using std::runtime_error;
using std::invalid_argument;
using boost::lexical_cast;
// Message is owning a message struct
class Message {
class Message {
shared_ptr<::message> _msg;
public:
@ -38,8 +38,7 @@ namespace pEp {
bool part_of_chain;
public:
Blob(::bloblist_t *bl = ::new_bloblist(NULL, 0, NULL, NULL),
bool chained = false);
Blob(::bloblist_t *bl = ::new_bloblist(NULL, 0, NULL, NULL), bool chained = false);
Blob(object data, string mime_type = "", string filename = "");
@ -182,13 +181,13 @@ namespace pEp {
Message deepcopy(dict &memo);
Message copy();
};
};
Message outgoing_message(Identity me);
Message outgoing_message(Identity me);
Message incoming_message(string mime_text);
Message incoming_message(string mime_text);
} /* namespace PythonAdapter */
} /* namespace PythonAdapter */
} /* namespace pEp */
#endif /* MESSAGE_HH */

82
src/pEp/_pEp/message_api.cc
View File

@ -13,23 +13,27 @@
#include "basic_api.hh"
namespace pEp {
namespace PythonAdapter {
using namespace std;
using namespace boost::python;
namespace PythonAdapter {
using namespace std;
using namespace boost::python;
// namespace bp = boost::python;
Message encrypt_message(Message src, boost::python::list extra, int enc_format, int flags) {
Message encrypt_message(Message src, boost::python::list extra, int enc_format, int flags) {
Identity _from = src.from();
if (_from.address() == "")
if (_from.address() == "") {
throw invalid_argument("encrypt_message: src.from_.address empty");
if (_from.username() == "")
}
if (_from.username() == "") {
throw invalid_argument("encrypt_message: src.from_.username empty");
}
if (_from.user_id() == "")
if (_from.user_id() == "") {
src.from().user_id(_from.address());
}
::stringlist_t *_extra = to_stringlist(extra);
::PEP_enc_format _enc_format = (::PEP_enc_format) enc_format;
::PEP_encrypt_flags_t _flags = (::PEP_encrypt_flags_t) flags;
::PEP_enc_format _enc_format = (::PEP_enc_format)enc_format;
::PEP_encrypt_flags_t _flags = (::PEP_encrypt_flags_t)flags;
::message *_dst = NULL;
::message *_src = src;
@ -42,17 +46,16 @@ namespace pEp {
}
return Message(_dst);
}
}
boost::python::tuple decrypt_message(Message src, int flags) {
boost::python::tuple decrypt_message(Message src, int flags) {
::message *_dst = NULL;
::stringlist_t *_keylist = NULL;
::PEP_rating _rating = ::PEP_rating_undefined;
::PEP_decrypt_flags_t _flags = (::PEP_decrypt_flags_t) flags;
::PEP_decrypt_flags_t _flags = (::PEP_decrypt_flags_t)flags;
::message *_src = src;
::PEP_STATUS status = ::decrypt_message(Adapter::session(), _src, &_dst, &_keylist,
&_rating, &_flags);
::PEP_STATUS status = ::decrypt_message(Adapter::session(), _src, &_dst, &_keylist, &_rating, &_flags);
_throw_status(status);
boost::python::list keylist;
@ -63,13 +66,13 @@ namespace pEp {
Message dst = _dst ? Message(_dst) : Message(src);
return boost::python::make_tuple(dst, keylist, _rating, _flags);
}
}
::PEP_color _color(int rating) {
return ::color_from_rating((::PEP_rating) rating);
}
::PEP_color _color(int rating) {
return ::color_from_rating((::PEP_rating)rating);
}
boost::python::tuple sync_decode(object buffer) {
boost::python::tuple sync_decode(object buffer) {
Py_buffer src;
int result = PyObject_GetBuffer(buffer.ptr(), &src, PyBUF_CONTIG_RO);
if (result) {
@ -77,60 +80,63 @@ namespace pEp {
}
char *dst = NULL;
::PEP_STATUS status = ::PER_to_XER_Sync_msg((char *) src.buf, src.len, &dst);
::PEP_STATUS status = ::PER_to_XER_Sync_msg((char *)src.buf, src.len, &dst);
PyBuffer_Release(&src);
_throw_status(status);
string _dst(dst);
free(dst);
return boost::python::make_tuple(_dst, 0);
}
}
static boost::python::tuple sync_encode(string text) {
static boost::python::tuple sync_encode(string text) {
char *data = NULL;
size_t size = 0;
::PEP_STATUS status = ::XER_to_PER_Sync_msg(text.c_str(), &data, &size);
_throw_status(status);
PyObject *ba = PyBytes_FromStringAndSize(data, size);
PyObject * ba = PyBytes_FromStringAndSize(data, size);
free(data);
if (!ba)
if (!ba) {
throw bad_alloc();
}
return boost::python::make_tuple(object(handle<>(ba)), 0);
}
}
boost::python::tuple Distribution_decode(object buffer) {
boost::python::tuple Distribution_decode(object buffer) {
Py_buffer src;
int result = PyObject_GetBuffer(buffer.ptr(), &src, PyBUF_CONTIG_RO);
if (result)
if (result) {
throw invalid_argument("need a contiguous buffer to read");
}
char *dst = NULL;
::PEP_STATUS status = ::PER_to_XER_Distribution_msg((char *) src.buf, src.len, &dst);
::PEP_STATUS status = ::PER_to_XER_Distribution_msg((char *)src.buf, src.len, &dst);
PyBuffer_Release(&src);
_throw_status(status);
string _dst(dst);
free(dst);
return boost::python::make_tuple(_dst, 0);
}
}
static boost::python::tuple Distribution_encode(string text) {
static boost::python::tuple Distribution_encode(string text) {
char *data = NULL;
size_t size = 0;
::PEP_STATUS status = ::XER_to_PER_Distribution_msg(text.c_str(), &data, &size);
_throw_status(status);
PyObject *ba = PyBytes_FromStringAndSize(data, size);
PyObject * ba = PyBytes_FromStringAndSize(data, size);
free(data);
if (!ba)
if (!ba) {
throw bad_alloc();
}
return boost::python::make_tuple(object(handle<>(ba)), 0);
}
}
object sync_search(string name) {
object sync_search(string name) {
if (name != "pep.sync") {
return object();
} else {
@ -142,9 +148,9 @@ namespace pEp {
return call<object>(CodecInfo.ptr(), _sync_encode, _sync_decode);
}
}
}
object distribution_search(string name) {
object distribution_search(string name) {
if (name != "pep.distribution") {
return object();
} else {
@ -156,7 +162,7 @@ namespace pEp {
return call<object>(CodecInfo.ptr(), _distribution_encode, _distribution_decode);
}
}
}
} // namespace PythonAdapter
} // namespace PythonAdapter
} // namespace pEp {

19
src/pEp/_pEp/message_api.hh
View File

@ -7,24 +7,19 @@
#include "pEpmodule.hh"
namespace pEp {
namespace PythonAdapter {
namespace PythonAdapter {
Message encrypt_message(
Message src,
boost::python::list extra = boost::python::list(),
int enc_format = 4,
int flags = 0
);
Message encrypt_message(Message src, boost::python::list extra = boost::python::list(), int enc_format = 4, int flags = 0);
boost::python::tuple decrypt_message(Message src, int flags = 0);
boost::python::tuple decrypt_message(Message src, int flags = 0);
::PEP_color _color(int rating);
::PEP_color _color(int rating);
object sync_search(string name);
object sync_search(string name);
object distribution_search(string name);
object distribution_search(string name);
} /* namespace PythonAdapter */
} /* namespace PythonAdapter */
} /* namespace pEp */
#endif /* MESSAGE_API_HH */

563
src/pEp/_pEp/pEpmodule.cc
View File

@ -27,64 +27,67 @@
//#include "user_interface.hh"
namespace pEp {
namespace PythonAdapter {
using namespace std;
using namespace boost::python;
namespace PythonAdapter {
using namespace std;
using namespace boost::python;
static const char *version_string = "p≡p Python adapter version 0.3";
static const char *version_string = "p≡p Python adapter version 0.3";
void init_before_main_module() {
void init_before_main_module() {
pEpLog("called");
}
}
// hidden init function, wrapped by hello_world.init()
void _init_after_main_module() {
// hidden init function, wrapped by hello_world.init()
void _init_after_main_module() {
pEpLog("called");
callback_dispatcher.add(_messageToSend, notifyHandshake, nullptr, nullptr);
Adapter::_messageToSend = CallbackDispatcher::messageToSend;
}
}
void config_passive_mode(bool enable) {
void config_passive_mode(bool enable) {
::config_passive_mode(Adapter::session(), enable);
}
}
void config_unencrypted_subject(bool enable) {
void config_unencrypted_subject(bool enable) {
::config_unencrypted_subject(Adapter::session(), enable);
}
}
void key_reset_user(string user_id, string fpr) {
if (user_id == "")
void key_reset_user(string user_id, string fpr) {
if (user_id == "") {
throw invalid_argument("user_id required");
}
::PEP_STATUS status = ::key_reset_user(Adapter::session(), user_id.c_str(), fpr != "" ? fpr.c_str() : nullptr);
_throw_status(status);
}
}
void key_reset_user2(string user_id) {
void key_reset_user2(string user_id) {
key_reset_user(user_id, "");
}
}
void key_reset_all_own_keys() {
void key_reset_all_own_keys() {
::PEP_STATUS status = ::key_reset_all_own_keys(Adapter::session());
_throw_status(status);
}
}
static string about() {
string version = string(version_string) + "\np≡p version "
+ PEP_VERSION + "\n";
static string about() {
string version = string(version_string) + "\np≡p version " + PEP_VERSION + "\n";
return version;
}
}
void _throw_status(::PEP_STATUS status) {
if (status == ::PEP_STATUS_OK)
void _throw_status(::PEP_STATUS status) {
if (status == ::PEP_STATUS_OK) {
return;
if (status >= 0x400 && status <= 0x4ff)
}
if (status >= 0x400 && status <= 0x4ff) {
return;
if (status == ::PEP_OUT_OF_MEMORY)
}
if (status == ::PEP_OUT_OF_MEMORY) {
throw bad_alloc();
if (status == ::PEP_ILLEGAL_VALUE)
}
if (status == ::PEP_ILLEGAL_VALUE) {
throw invalid_argument("illegal value");
}
if (string(pEp_status_to_string(status)) == "unknown status code") {
stringstream build;
@ -93,9 +96,9 @@ namespace pEp {
} else {
throw runtime_error(pEp_status_to_string(status));
}
}
}
::PEP_STATUS _messageToSend(::message *msg) {
::PEP_STATUS _messageToSend(::message *msg) {
pEpLog("called");
try {
PyGILState_STATE gil = PyGILState_Ensure();
@ -105,12 +108,13 @@ namespace pEp {
call<void>(funcref.ptr(), Message());
PyGILState_Release(gil);
pEpLog("GIL released");
} catch (exception &e) {}
} catch (exception &e) {
}
return ::PEP_STATUS_OK;
}
}
::PEP_STATUS notifyHandshake(::pEp_identity *me, ::pEp_identity *partner, ::sync_handshake_signal signal) {
::PEP_STATUS notifyHandshake(::pEp_identity *me, ::pEp_identity *partner, ::sync_handshake_signal signal) {
pEpLog("called");
try {
PyGILState_STATE gil = PyGILState_Ensure();
@ -120,64 +124,65 @@ namespace pEp {
call<void>(funcref.ptr(), me, partner, signal);
PyGILState_Release(gil);
pEpLog("GIL released");
} catch (exception &e) {}
return ::PEP_STATUS_OK;
} catch (exception &e) {
}
return ::PEP_STATUS_OK;
}
void start_sync() {
void start_sync() {
CallbackDispatcher::start_sync();
}
}
void shutdown_sync() {
void shutdown_sync() {
CallbackDispatcher::stop_sync();
}
}
void debug_color(int ansi_color) {
void debug_color(int ansi_color) {
::set_debug_color(Adapter::session(), ansi_color);
}
}
void leave_device_group() {
void leave_device_group() {
::leave_device_group(Adapter::session());
}
}
bool is_sync_active() {
bool is_sync_active() {
return Adapter::is_sync_running();
}
}
void testfunc() {
void testfunc() {
_messageToSend(NULL);
}
}
void deliverHandshakeResult(int result, object identities) {
void deliverHandshakeResult(int result, object identities) {
identity_list *shared_identities = nullptr;
if (identities != boost::python::api::object() && boost::python::len(identities)) {
shared_identities = ::new_identity_list(nullptr);
if (!shared_identities)
if (!shared_identities) {
throw bad_alloc();
}
try {
::identity_list *si = shared_identities;
for (int i = 0; i < boost::python::len(identities); ++i) {
Identity ident = extract<Identity>(identities[i]);
si = ::identity_list_add(si, ident);
if (!si)
if (!si) {
throw bad_alloc();
}
}
catch (exception &ex) {
} catch (exception &ex) {
::free_identity_list(shared_identities);
throw ex;
}
}
::PEP_STATUS status = ::deliverHandshakeResult(Adapter::session(), (::sync_handshake_result) result, shared_identities);
::PEP_STATUS status = ::deliverHandshakeResult(Adapter::session(), (::sync_handshake_result)result, shared_identities);
free_identity_list(shared_identities);
_throw_status(status);
}
}
BOOST_PYTHON_MODULE(_pEp) {
BOOST_PYTHON_MODULE (_pEp) {
init_before_main_module();
// Module init function called by pEp.init()
@ -188,38 +193,31 @@ namespace pEp {
boost::locale::generator gen;
std::locale::global(gen(""));
scope().attr("about") = about();
scope().attr("per_user_directory") = ::per_user_directory();
scope().attr("per_machine_directory") = ::per_machine_directory();
scope().attr("engine_version") = ::get_engine_version();
scope().attr("protocol_version") = ::get_protocol_version();
def("passive_mode", config_passive_mode,
"do not attach pub keys to all messages");
def("passive_mode", config_passive_mode, "do not attach pub keys to all messages");
def("unencrypted_subject", config_unencrypted_subject,
"do not encrypt the subject of messages");
def("unencrypted_subject", config_unencrypted_subject, "do not encrypt the subject of messages");
def("key_reset", key_reset_user,
"reset the default database status for the user / keypair provided\n"
def("key_reset", key_reset_user, "reset the default database status for the user / keypair provided\n"
"This will effectively perform key_reset on each identity\n"
"associated with the key and user_id, if a key is provided, and for\n"
"each key (and all of their identities) if an fpr is not.");
def("key_reset", key_reset_user2,
"reset the default database status for the user / keypair provided\n"
def("key_reset", key_reset_user2, "reset the default database status for the user / keypair provided\n"
"This will effectively perform key_reset on each identity\n"
"associated with the key and user_id, if a key is provided, and for\n"
"each key (and all of their identities) if an fpr is not.");
def("key_reset_all_own_keys", key_reset_all_own_keys,
"revoke and mistrust all own keys, generate new keys for all\n"
def("key_reset_all_own_keys", key_reset_all_own_keys, "revoke and mistrust all own keys, generate new keys for all\n"
"own identities, and opportunistically communicate key reset\n"
"information to people we have recently contacted.");
auto identity_class = class_<Identity>("Identity",
"Identity(address, username, user_id='', fpr='', comm_type=0, lang='en')\n"
auto identity_class = class_<Identity>("Identity", "Identity(address, username, user_id='', fpr='', comm_type=0, lang='en')\n"
"\n"
"represents a p≡p identity\n"
"\n"
@ -233,30 +231,16 @@ namespace pEp {
" hex encoded\n"
" comm_type first rating level of this communication channel\n"
" lang ISO 639-1 language code for language being preferred\n"
" on this communication channel\n"
)
.def(boost::python::init<string>())
.def(boost::python::init<string, string>())
.def(boost::python::init<string, string, string>())
.def(boost::python::init<string, string, string, string>())
.def(boost::python::init<string, string, string, string, int>())
.def(boost::python::init<string, string, string, string, int, string>())
.def("__repr__", &Identity::_repr)
.def("__str__", &Identity::_str,
"string representation of this identity\n"
"following the pattern 'username < address >'\n"
)
.def("key_reset", &Identity::key_reset,
boost::python::arg("fpr")=object(""),
"reset the default database status for the identity / keypair provided. If this\n"
" on this communication channel\n").def(boost::python::init<string>()).def(boost::python::init<string, string>()).def(boost::python::init<string, string, string>()).def(boost::python::init<string, string, string, string>())
.def(boost::python::init<string, string, string, string, int>()).def(boost::python::init<string, string, string, string, int, string>()).def("__repr__", &Identity::_repr).def("__str__", &Identity::_str, "string representation of this identity\n"
"following the pattern 'username < address >'\n")
.def("key_reset", &Identity::key_reset, boost::python::arg("fpr") = object(""), "reset the default database status for the identity / keypair provided. If this\n"
"corresponds to the own user and a private key, also revoke the key, generate a\n"
"new one, and communicate the reset to recently contacted pEp partners for this\n"
"identity. If it does not, remove the key from the keyring; the key's status is\n"
"completely fresh on next contact from the partner.")
.def("key_mistrusted", &Identity::key_mistrusted,
boost::python::arg("fpr")=object(""),
"If you want updated trust on the identity, you ll have"
.def("key_mistrusted", &Identity::key_mistrusted, boost::python::arg("fpr") = object(""), "If you want updated trust on the identity, you ll have"
"to call update_identity or myself respectively after this."
"N.B. If you are calling this on a key that is the identity or user default,"
"it will be removed as the default key for ANY identity and user for which"
@ -264,79 +248,40 @@ namespace pEp {
"will only undo the current identity's / it's user's default, not any"
"other identities which may be impacted (this will not affect most use cases)")
.def("enable_for_sync", &Identity::enable_for_sync,
"Enable own identity for p≡p sync.\n\n"
"Only use this on own identities, which are used as accounts.\n")
.def("disable_for_sync", &Identity::disable_for_sync,
"Disable own identity for p≡p sync.\n\n"
.def("enable_for_sync", &Identity::enable_for_sync, "Enable own identity for p≡p sync.\n\n"
"Only use this on own identities, which are used as accounts.\n").def("disable_for_sync", &Identity::disable_for_sync, "Disable own identity for p≡p sync.\n\n"
"Only use this on own identities, which are used as accounts.\n")
.add_property("address", (string(Identity::*)()) &Identity::address,
(void(Identity::*)(string)) &Identity::address,
"email address or URI")
.add_property("fpr", (string(Identity::*)()) &Identity::fpr,
(void(Identity::*)(string)) &Identity::fpr,
"key ID (full fingerprint, hex encoded)")
.add_property("user_id", (string(Identity::*)()) &Identity::user_id,
(void(Identity::*)(string)) &Identity::user_id,
"ID of person associated or 'pEp_own_userId' if own identity")
.add_property("username", (string(Identity::*)()) &Identity::username,
(void(Identity::*)(string)) &Identity::username,
"name in full of person associated")
.add_property("comm_type", (int(Identity::*)())
(PEP_comm_type(Identity::*)()) &Identity::comm_type,
(void(Identity::*)(int))
(void(Identity::*)(::PEP_comm_type)) &Identity::comm_type,
"communication type, first rating level (p≡p internal)")
.add_property("lang", (string(Identity::*)()) &Identity::lang,
(void(Identity::*)(string)) &Identity::lang,
"ISO 639-1 language code")
.add_property("flags", (identity_flags_t(Identity::*)()) &Identity::flags,
(void(Identity::*)(::identity_flags_t)) &Identity::flags,
"flags (p≡p internal)")
.add_property("rating", &Identity::rating, "rating of Identity")
.add_property("color", &Identity::color, "color of Identity as PEP_color")
.add_property("is_pEp_user", &Identity::is_pEp_user, "True if this is an identity of a pEp user")
.def("__deepcopy__", &Identity::deepcopy)
.def("update", &Identity::update, "update Identity")
.def("__copy__", &Identity::copy);
.add_property("address", (string(Identity::*)())&Identity::address, (void (Identity::*)(string))&Identity::address, "email address or URI").add_property("fpr", (string(Identity::*)())&Identity::fpr, (void (Identity::*)(string))&Identity::fpr, "key ID (full fingerprint, hex encoded)")
.add_property("user_id", (string(Identity::*)())&Identity::user_id, (void (Identity::*)(string))&Identity::user_id, "ID of person associated or 'pEp_own_userId' if own identity")
.add_property("username", (string(Identity::*)())&Identity::username, (void (Identity::*)(string))&Identity::username, "name in full of person associated")
.add_property("comm_type", (int (Identity::*)())(PEP_comm_type(Identity::*)())&Identity::comm_type, (void (Identity::*)(int))(void (Identity::*)(::PEP_comm_type))&Identity::comm_type, "communication type, first rating level (p≡p internal)")
.add_property("lang", (string(Identity::*)())&Identity::lang, (void (Identity::*)(string))&Identity::lang, "ISO 639-1 language code").add_property("flags", (identity_flags_t(Identity::*)())&Identity::flags, (void (Identity::*)(::identity_flags_t))&Identity::flags, "flags (p≡p internal)")
.add_property("rating", &Identity::rating, "rating of Identity").add_property("color", &Identity::color, "color of Identity as PEP_color").add_property("is_pEp_user", &Identity::is_pEp_user, "True if this is an identity of a pEp user").def("__deepcopy__", &Identity::deepcopy)
.def("update", &Identity::update, "update Identity").def("__copy__", &Identity::copy);
identity_class.attr("PEP_OWN_USERID") = "pEp_own_userId";
auto blob_class = class_<Message::Blob>("Blob",
"Blob(data, mime_type='', filename='')\n"
auto blob_class = class_<Message::Blob>("Blob", "Blob(data, mime_type='', filename='')\n"
"\n"
"Binary large object\n"
"\n"
" data bytes-like object\n"
" mime_type MIME type for the data\n"
" filename filename to store the data\n",
boost::python::init< object, char const*, char const* >(args("data", "mime_type", "filename")))
.def(boost::python::init<object, string>())
.def(boost::python::init<object>())
.def("__repr__", &Message::Blob::_repr)
.def("__len__", &Message::Blob::size, "size of Blob data in bytes")
.def("decode", (string(Message::Blob::*)()) &Message::Blob::decode)
.def("decode", (string(Message::Blob::*)(string)) &Message::Blob::decode,
"text = blob.decode(encoding='')\n"
" filename filename to store the data\n", boost::python::init<object, char const *, char const *>(args("data", "mime_type", "filename"))).def(boost::python::init<object, string>()).def(boost::python::init<object>())
.def("__repr__", &Message::Blob::_repr).def("__len__", &Message::Blob::size, "size of Blob data in bytes").def("decode", (string(Message::Blob::*)())&Message::Blob::decode).def("decode", (string(Message::Blob::*)(string))&Message::Blob::decode, "text = blob.decode(encoding='')\n"
"\n"
"decode Blob data into string depending on MIME type if encoding=''\n"
"\n"
" mime_type='application/pEp.sync' decode as 'pEp.sync'\n"
" mime_type='application/pEp.keyreset' decode as 'pEp.keyreset'\n"
" other mime_type decode as 'ascii' by default\n"
)
.add_property("mime_type", (string(Message::Blob::*)()) &Message::Blob::mime_type,
(void(Message::Blob::*)(string)) &Message::Blob::mime_type,
"MIME type of object in Blob")
.add_property("filename", (string(Message::Blob::*)()) &Message::Blob::filename,
(void(Message::Blob::*)(string)) &Message::Blob::filename,
"filename of object in Blob");
" other mime_type decode as 'ascii' by default\n")
.add_property("mime_type", (string(Message::Blob::*)())&Message::Blob::mime_type, (void (Message::Blob::*)(string))&Message::Blob::mime_type, "MIME type of object in Blob")
.add_property("filename", (string(Message::Blob::*)())&Message::Blob::filename, (void (Message::Blob::*)(string))&Message::Blob::filename, "filename of object in Blob");
((PyTypeObject *)(void *)blob_class.ptr())->tp_as_buffer = &Message::Blob::bp;
auto message_class = class_<Message>("Message",
"Message(dir=1, from=None)\n"
auto message_class = class_<Message>("Message", "Message(dir=1, from=None)\n"
"\n"
"new p≡p message\n"
"\n"
@ -347,84 +292,28 @@ namespace pEp {
"\n"
"new incoming p≡p message\n"
"\n"
" mime_text text in Multipurpose Internet Mail Extensions format\n"
)
.def(boost::python::init<int>())
.def(boost::python::init<int, Identity *>())
.def(boost::python::init<string>())
.def("__str__", &Message::_str,
"the string representation of a Message is it's MIME text"
)
.def("__repr__", &Message::_repr)
.add_property("dir", (int(Message::*)())
(PEP_msg_direction(Message::*)()) &Message::dir,
(void(Message::*)(int))
(void(Message::*)(PEP_msg_direction)) &Message::dir,
"0: incoming, 1: outgoing message")
.add_property("id", (string(Message::*)()) &Message::id,
(void(Message::*)(string)) &Message::id,
"message ID")
.add_property("shortmsg", (string(Message::*)()) &Message::shortmsg,
(void(Message::*)(string)) &Message::shortmsg,
"subject or short message")
.add_property("longmsg", (string(Message::*)()) &Message::longmsg,
(void(Message::*)(string)) &Message::longmsg,
"body or long version of message")
.add_property("longmsg_formatted", (string(Message::*)()) &Message::longmsg_formatted,
(void(Message::*)(string)) &Message::longmsg_formatted,
"HTML body or fromatted long version of message")
.add_property("attachments", (boost::python::tuple(Message::*)()) &Message::attachments,
(void(Message::*)(boost::python::list)) &Message::attachments,
"tuple of Blobs with attachments; setting moves Blobs to attachment tuple")
.add_property("sent", (time_t(Message::*)()) &Message::sent,
(void(Message::*)(time_t)) &Message::sent,
"time when message was sent in UTC seconds since epoch")
.add_property("recv", (time_t(Message::*)()) &Message::recv,
(void(Message::*)(time_t)) &Message::recv,
"time when message was received in UTC seconds since epoch")
.add_property("from_", (Identity(Message::*)()) &Message::from,
(void(Message::*)(object)) &Message::from,
"identity where message is from")
.add_property("to", (boost::python::list(Message::*)()) &Message::to,
(void(Message::*)(boost::python::list)) &Message::to,
"list of identities message is going to")
.add_property("recv_by", (Identity(Message::*)()) &Message::recv_by,
(void(Message::*)(object)) &Message::recv_by,
"identity where message was received by")
.add_property("cc", (boost::python::list(Message::*)()) &Message::cc,
(void(Message::*)(boost::python::list)) &Message::cc,
"list of identities message is going cc")
.add_property("bcc", (boost::python::list(Message::*)()) &Message::bcc,
(void(Message::*)(boost::python::list)) &Message::bcc,
"list of identities message is going bcc")
.add_property("reply_to", (boost::python::list(Message::*)()) &Message::reply_to,
(void(Message::*)(boost::python::list)) &Message::reply_to,
"list of identities where message will be replied to")
.add_property("in_reply_to", (boost::python::list(Message::*)()) &Message::in_reply_to,
(void(Message::*)(boost::python::list)) &Message::in_reply_to,
"in_reply_to list")
.add_property("references", (boost::python::list(Message::*)()) &Message::references,
(void(Message::*)(boost::python::list)) &Message::references,
"message IDs of messages this one is referring to")
.add_property("keywords", (boost::python::list(Message::*)()) &Message::keywords,
(void(Message::*)(boost::python::list)) &Message::keywords,
"keywords this message should be stored under")
.add_property("comments", (string(Message::*)()) &Message::comments,
(void(Message::*)(string)) &Message::comments,
"comments added to message")
.add_property("opt_fields", (dict(Message::*)()) &Message::opt_fields,
(void(Message::*)(dict)) &Message::opt_fields,
"opt_fields of message")
.add_property("enc_format", (int(Message::*)())
(PEP_enc_format(Message::*)()) &Message::enc_format,
(void(Message::*)(int))
(void(Message::*)(::PEP_enc_format)) &Message::enc_format,
"0: unencrypted, 1: inline PGP, 2: S/MIME, 3: PGP/MIME, 4: p≡p format")
.def("encrypt", (Message(Message::*)())&Message::encrypt)
.def("encrypt", (Message(Message::*)(boost::python::list))&Message::_encrypt)
.def("encrypt", (Message(Message::*)(boost::python::list, int))&Message::_encrypt)
.def("encrypt", (Message(Message::*)(boost::python::list, int, int))&Message::_encrypt,
"msg2 = msg1.encrypt(extra_keys=[], enc_format='pEp', flags=0)\n"
" mime_text text in Multipurpose Internet Mail Extensions format\n").def(boost::python::init<int>()).def(boost::python::init<int, Identity *>()).def(boost::python::init<string>())
.def("__str__", &Message::_str, "the string representation of a Message is it's MIME text").def("__repr__", &Message::_repr)
.add_property("dir", (int (Message::*)())(PEP_msg_direction(Message::*)())&Message::dir, (void (Message::*)(int))(void (Message::*)(PEP_msg_direction))&Message::dir, "0: incoming, 1: outgoing message")
.add_property("id", (string(Message::*)())&Message::id, (void (Message::*)(string))&Message::id, "message ID").add_property("shortmsg", (string(Message::*)())&Message::shortmsg, (void (Message::*)(string))&Message::shortmsg, "subject or short message")
.add_property("longmsg", (string(Message::*)())&Message::longmsg, (void (Message::*)(string))&Message::longmsg, "body or long version of message")
.add_property("longmsg_formatted", (string(Message::*)())&Message::longmsg_formatted, (void (Message::*)(string))&Message::longmsg_formatted, "HTML body or fromatted long version of message")
.add_property("attachments", (boost::python::tuple(Message::*)())&Message::attachments, (void (Message::*)(boost::python::list))&Message::attachments, "tuple of Blobs with attachments; setting moves Blobs to attachment tuple")
.add_property("sent", (time_t(Message::*)())&Message::sent, (void (Message::*)(time_t))&Message::sent, "time when message was sent in UTC seconds since epoch")
.add_property("recv", (time_t(Message::*)())&Message::recv, (void (Message::*)(time_t))&Message::recv, "time when message was received in UTC seconds since epoch")
.add_property("from_", (Identity(Message::*)())&Message::from, (void (Message::*)(object))&Message::from, "identity where message is from")
.add_property("to", (boost::python::list(Message::*)())&Message::to, (void (Message::*)(boost::python::list))&Message::to, "list of identities message is going to")
.add_property("recv_by", (Identity(Message::*)())&Message::recv_by, (void (Message::*)(object))&Message::recv_by, "identity where message was received by")
.add_property("cc", (boost::python::list(Message::*)())&Message::cc, (void (Message::*)(boost::python::list))&Message::cc, "list of identities message is going cc")
.add_property("bcc", (boost::python::list(Message::*)())&Message::bcc, (void (Message::*)(boost::python::list))&Message::bcc, "list of identities message is going bcc")
.add_property("reply_to", (boost::python::list(Message::*)())&Message::reply_to, (void (Message::*)(boost::python::list))&Message::reply_to, "list of identities where message will be replied to")
.add_property("in_reply_to", (boost::python::list(Message::*)())&Message::in_reply_to, (void (Message::*)(boost::python::list))&Message::in_reply_to, "in_reply_to list")
.add_property("references", (boost::python::list(Message::*)())&Message::references, (void (Message::*)(boost::python::list))&Message::references, "message IDs of messages this one is referring to")
.add_property("keywords", (boost::python::list(Message::*)())&Message::keywords, (void (Message::*)(boost::python::list))&Message::keywords, "keywords this message should be stored under")
.add_property("comments", (string(Message::*)())&Message::comments, (void (Message::*)(string))&Message::comments, "comments added to message").add_property("opt_fields", (dict(Message::*)())&Message::opt_fields, (void (Message::*)(dict))&Message::opt_fields, "opt_fields of message")
.add_property("enc_format", (int (Message::*)())(PEP_enc_format(Message::*)())&Message::enc_format, (void (Message::*)(int))(void (Message::*)(::PEP_enc_format))&Message::enc_format, "0: unencrypted, 1: inline PGP, 2: S/MIME, 3: PGP/MIME, 4: p≡p format")
.def("encrypt", (Message(Message::*)())&Message::encrypt).def("encrypt", (Message(Message::*)(boost::python::list))&Message::_encrypt).def("encrypt", (Message(Message::*)(boost::python::list, int))&Message::_encrypt)
.def("encrypt", (Message(Message::*)(boost::python::list, int, int))&Message::_encrypt, "msg2 = msg1.encrypt(extra_keys=[], enc_format='pEp', flags=0)\n"
"\n"
"encrypts a p≡p message and returns the encrypted message\n"
"\n"
@ -432,87 +321,58 @@ namespace pEp {
" for encryption\n"
" enc_format 0 for none, 1 for partitioned, 2 for S/MIME,\n"
" 3 for PGP/MIME, 4 for pEp\n"
" flags 1 is force encryption\n"
)
.def("decrypt", &Message::decrypt, boost::python::arg("flags")=0,
"msg2, keys, rating, flags = msg1.decrypt()\n"
" flags 1 is force encryption\n").def("decrypt", &Message::decrypt, boost::python::arg("flags") = 0, "msg2, keys, rating, flags = msg1.decrypt()\n"
"\n"
"decrypts a p≡p message and returns a tuple with data\n"
"\n"
" msg the decrypted p≡p message\n"
" keys a list of keys being used\n"
" rating the rating of the message as integer\n"
" flags flags set while decryption\n"
)
.add_property("outgoing_rating", &Message::outgoing_rating, "rating outgoing message will have")
.add_property("outgoing_color", &Message::outgoing_color, "color outgoing message will have as PEP_color")
.def("__deepcopy__", &Message::deepcopy)
.def("__copy__", &Message::copy);
" flags flags set while decryption\n")
.add_property("outgoing_rating", &Message::outgoing_rating, "rating outgoing message will have").add_property("outgoing_color", &Message::outgoing_color, "color outgoing message will have as PEP_color").def("__deepcopy__", &Message::deepcopy).def("__copy__", &Message::copy);
// basic API and key management API
def("update_identity", &update_identity,
"update_identity(ident)\n"
def("update_identity", &update_identity, "update_identity(ident)\n"
"\n"
"update identity information\n"
"call this to complete identity information when you at least have an address\n"
);
def("myself", &myself,
"myself(ident)\n"
"call this to complete identity information when you at least have an address\n");
def("myself", &myself, "myself(ident)\n"
"\n"
"ensures that the own identity is being complete\n"
"supply ident.address and ident.username\n"
);
def("trust_personal_key", &trust_personal_key,
"trust_personal_key(ident)\n"
"supply ident.address and ident.username\n");
def("trust_personal_key", &trust_personal_key, "trust_personal_key(ident)\n"
"\n"
"mark a key as trusted with a person\n"
);
"mark a key as trusted with a person\n");
enum_<::identity_flags>("identity_flags")
.value("PEP_idf_not_for_sync", ::PEP_idf_not_for_sync)
.value("PEP_idf_list", ::PEP_idf_list)
.value("PEP_idf_devicegroup", ::PEP_idf_devicegroup);
enum_<::identity_flags>("identity_flags").value("PEP_idf_not_for_sync", ::PEP_idf_not_for_sync).value("PEP_idf_list", ::PEP_idf_list).value("PEP_idf_devicegroup", ::PEP_idf_devicegroup);
def("set_identity_flags", &set_identity_flags,
"set_identity_flags(ident, flags)\n"
def("set_identity_flags", &set_identity_flags, "set_identity_flags(ident, flags)\n"
"\n"
"set identity flags\n"
);
"set identity flags\n");
def("unset_identity_flags", &unset_identity_flags,
"unset_identity_flags(ident, flags)\n"
def("unset_identity_flags", &unset_identity_flags, "unset_identity_flags(ident, flags)\n"
"\n"
"unset identity flags\n"
);
"unset identity flags\n");
def("key_reset_trust", &key_reset_trust,
"key_reset_trust(ident)\n"
def("key_reset_trust", &key_reset_trust, "key_reset_trust(ident)\n"
"\n"
"reset trust bit or explicitly mistrusted status for an identity and "
"its accompanying key/user_id pair\n"
);
"its accompanying key/user_id pair\n");
def("import_key", &import_key,
"private_key_list = import_key(key_data)\n"
def("import_key", &import_key, "private_key_list = import_key(key_data)\n"
"\n"
"import key(s) from key_data\n"
);
"import key(s) from key_data\n");
def("export_key", &export_key,
"key_data = export_key(identity)\n"
def("export_key", &export_key, "key_data = export_key(identity)\n"
"\n"
"export key(s) of identity\n"
);
"export key(s) of identity\n");
def("export_secret_key", &export_secret_key,
"key_data = export_seret_key(identity)\n"
def("export_secret_key", &export_secret_key, "key_data = export_seret_key(identity)\n"
"\n"
"export secret key(s) of identity\n"
);
"export secret key(s) of identity\n");
def("set_own_key", &set_own_key,
"set_own_key(me, fpr)\n"
def("set_own_key", &set_own_key, "set_own_key(me, fpr)\n"
"\n"
"mark a key as an own key, and make it the default key\n"
"\n"
@ -523,133 +383,90 @@ namespace pEp {
"myself() is called by set_own_key() without key generation\n"
"me->flags are ignored\n"
"me->address must not be an alias\n"
"me->fpr will be ignored and replaced by fpr\n"
);
"me->fpr will be ignored and replaced by fpr\n");
// message API
enum_<::PEP_rating>("rating")
.value("_undefined", ::PEP_rating_undefined)
.value("cannot_decrypt", ::PEP_rating_cannot_decrypt)
.value("have_no_key", ::PEP_rating_have_no_key)
.value("unencrypted", ::PEP_rating_unencrypted)
.value("unreliable", ::PEP_rating_unreliable)
.value("reliable", ::PEP_rating_reliable)
.value("trusted", ::PEP_rating_trusted)
.value("trusted_and_anonymized", ::PEP_rating_trusted_and_anonymized)
.value("fully_anonymous", ::PEP_rating_fully_anonymous)
.value("mistrust", ::PEP_rating_mistrust)
.value("b0rken", ::PEP_rating_b0rken)
enum_<::PEP_rating>("rating").value("_undefined", ::PEP_rating_undefined).value("cannot_decrypt", ::PEP_rating_cannot_decrypt).value("have_no_key", ::PEP_rating_have_no_key).value("unencrypted", ::PEP_rating_unencrypted).value("unreliable", ::PEP_rating_unreliable)
.value("reliable", ::PEP_rating_reliable).value("trusted", ::PEP_rating_trusted).value("trusted_and_anonymized", ::PEP_rating_trusted_and_anonymized).value("fully_anonymous", ::PEP_rating_fully_anonymous).value("mistrust", ::PEP_rating_mistrust).value("b0rken", ::PEP_rating_b0rken)
.value("under_attack", ::PEP_rating_under_attack);
enum_<::PEP_color>("colorvalue")
.value("no_color", ::PEP_color_no_color)
.value("yellow", ::PEP_color_yellow)
.value("green", ::PEP_color_green)
.value("red", ::PEP_color_red);
enum_<::PEP_color>("colorvalue").value("no_color", ::PEP_color_no_color).value("yellow", ::PEP_color_yellow).value("green", ::PEP_color_green).value("red", ::PEP_color_red);
def("incoming_message", &incoming_message,
"msg = incoming_message(mime_text)\n"
def("incoming_message", &incoming_message, "msg = incoming_message(mime_text)\n"
"\n"
"create an incoming message from a MIME text"
);
def("outgoing_message", &outgoing_message,
"msg = outgoing_message(ident)\n"
"create an incoming message from a MIME text");
def("outgoing_message", &outgoing_message, "msg = outgoing_message(ident)\n"
"\n"
"create an outgoing message using an own identity"
);
def("color", &_color,
"c = color(rating)\n"
"create an outgoing message using an own identity");
def("color", &_color, "c = color(rating)\n"
"\n"
"calculate color value out of rating. Returns PEP_color"
);
def("trustwords", &_trustwords,
"text = trustwords(ident_own, ident_partner)\n"
"calculate color value out of rating. Returns PEP_color");
def("trustwords", &_trustwords, "text = trustwords(ident_own, ident_partner)\n"
"\n"
"calculate trustwords for two Identities");
// Sync API
enum_<::sync_handshake_signal>("sync_handshake_signal")
.value("SYNC_NOTIFY_UNDEFINED", ::SYNC_NOTIFY_UNDEFINED)
.value("SYNC_NOTIFY_INIT_ADD_OUR_DEVICE", ::SYNC_NOTIFY_INIT_ADD_OUR_DEVICE)
.value("SYNC_NOTIFY_INIT_ADD_OTHER_DEVICE", ::SYNC_NOTIFY_INIT_ADD_OTHER_DEVICE)
.value("SYNC_NOTIFY_INIT_FORM_GROUP", ::SYNC_NOTIFY_INIT_FORM_GROUP)
.value("SYNC_NOTIFY_TIMEOUT", ::SYNC_NOTIFY_TIMEOUT)
.value("SYNC_NOTIFY_ACCEPTED_DEVICE_ADDED", ::SYNC_NOTIFY_ACCEPTED_DEVICE_ADDED)
.value("SYNC_NOTIFY_ACCEPTED_GROUP_CREATED", ::SYNC_NOTIFY_ACCEPTED_GROUP_CREATED)
.value("SYNC_NOTIFY_ACCEPTED_DEVICE_ACCEPTED", ::SYNC_NOTIFY_ACCEPTED_DEVICE_ACCEPTED)
.value("SYNC_NOTIFY_SOLE", ::SYNC_NOTIFY_SOLE)
.value("SYNC_NOTIFY_IN_GROUP", ::SYNC_NOTIFY_IN_GROUP);
// auto user_interface_class = class_<UserInterface, UserInterface_callback, boost::noncopyable>(
// "UserInterface",
// "class MyUserInterface(UserInterface):\n"
// " def notifyHandshake(self, me, partner):\n"
// " ...\n"
// "\n"
// "p≡p User Interface class\n"
// "To be used as a mixin\n"
// )
// .def("notifyHandshake", &UserInterface::notifyHandshake,
// "notifyHandshake(self, me, partner)\n"
// "\n"
// " me own identity\n"
// " partner identity of communication partner\n"
// "\n"
// "overwrite this method with an implementation of a handshake dialog")
// .def("deliverHandshakeResult", &UserInterface::deliverHandshakeResult,
// boost::python::arg("identities")=object(),
// "deliverHandshakeResult(self, result, identities=None)\n"
// "\n"
// " result -1: cancel, 0: accepted, 1: rejected\n"
// " identities list of identities to share or None for all\n"
// "\n"
// "call to deliver the handshake result of the handshake dialog"
// );
def("deliver_handshake_result", &deliverHandshakeResult, boost::python::arg("identities")=object(),
"deliverHandshakeResult(self, result, identities=None)\n"
enum_<::sync_handshake_signal>("sync_handshake_signal").value("SYNC_NOTIFY_UNDEFINED", ::SYNC_NOTIFY_UNDEFINED).value("SYNC_NOTIFY_INIT_ADD_OUR_DEVICE", ::SYNC_NOTIFY_INIT_ADD_OUR_DEVICE).value("SYNC_NOTIFY_INIT_ADD_OTHER_DEVICE", ::SYNC_NOTIFY_INIT_ADD_OTHER_DEVICE)
.value("SYNC_NOTIFY_INIT_FORM_GROUP", ::SYNC_NOTIFY_INIT_FORM_GROUP).value("SYNC_NOTIFY_TIMEOUT", ::SYNC_NOTIFY_TIMEOUT).value("SYNC_NOTIFY_ACCEPTED_DEVICE_ADDED", ::SYNC_NOTIFY_ACCEPTED_DEVICE_ADDED).value("SYNC_NOTIFY_ACCEPTED_GROUP_CREATED", ::SYNC_NOTIFY_ACCEPTED_GROUP_CREATED)
.value("SYNC_NOTIFY_ACCEPTED_DEVICE_ACCEPTED", ::SYNC_NOTIFY_ACCEPTED_DEVICE_ACCEPTED).value("SYNC_NOTIFY_SOLE", ::SYNC_NOTIFY_SOLE).value("SYNC_NOTIFY_IN_GROUP", ::SYNC_NOTIFY_IN_GROUP);
// auto user_interface_class = class_<UserInterface, UserInterface_callback, boost::noncopyable>(
// "UserInterface",
// "class MyUserInterface(UserInterface):\n"
// " def notifyHandshake(self, me, partner):\n"
// " ...\n"
// "\n"
// "p≡p User Interface class\n"
// "To be used as a mixin\n"
// )
// .def("notifyHandshake", &UserInterface::notifyHandshake,
// "notifyHandshake(self, me, partner)\n"
// "\n"
// " me own identity\n"
// " partner identity of communication partner\n"
// "\n"
// "overwrite this method with an implementation of a handshake dialog")
// .def("deliverHandshakeResult", &UserInterface::deliverHandshakeResult,
// boost::python::arg("identities")=object(),
// "deliverHandshakeResult(self, result, identities=None)\n"
// "\n"
// " result -1: cancel, 0: accepted, 1: rejected\n"
// " identities list of identities to share or None for all\n"
// "\n"
// "call to deliver the handshake result of the handshake dialog"
// );
def("deliver_handshake_result", &deliverHandshakeResult, boost::python::arg("identities") = object(), "deliverHandshakeResult(self, result, identities=None)\n"
"\n"
" result -1: cancel, 0: accepted, 1: rejected\n"
" identities list of identities to share or None for all\n"
"\n"
"call to deliver the handshake result of the handshake dialog"
);
"call to deliver the handshake result of the handshake dialog");
def("start_sync", &start_sync,
"start_sync()\n"
def("start_sync", &start_sync, "start_sync()\n"
"\n"
"starts the sync thread"
);
"starts the sync thread");
def("shutdown_sync", &shutdown_sync,
"shutdown_sync()\n"
def("shutdown_sync", &shutdown_sync, "shutdown_sync()\n"
"\n"
"call this from another thread to shut down the sync thread\n"
);
"call this from another thread to shut down the sync thread\n");
def("debug_color", &debug_color,
"for debug builds set ANSI color value");
def("debug_color", &debug_color, "for debug builds set ANSI color value");
def("leave_device_group", &leave_device_group,
"leave_device_group()\n"
def("leave_device_group", &leave_device_group, "leave_device_group()\n"
"\n"
"call this for a grouped device, which should leave\n"
);
"call this for a grouped device, which should leave\n");
def("is_sync_active", &is_sync_active,
"is_sync_active()\n"
def("is_sync_active", &is_sync_active, "is_sync_active()\n"
"\n"
"True if sync is active, False otherwise\n"
);
"True if sync is active, False otherwise\n");
// codecs
call< object >(((object)(import("codecs").attr("register"))).ptr(), make_function(sync_search));
call< object >(((object)(import("codecs").attr("register"))).ptr(), make_function(distribution_search));
}
} // namespace PythonAdapter
call<object>(((object)(import("codecs").attr("register"))).ptr(), make_function(sync_search));
call<object>(((object)(import("codecs").attr("register"))).ptr(), make_function(distribution_search));
}
} // namespace PythonAdapter
} // namespace pEp

20
src/pEp/_pEp/pEpmodule.hh
View File

@ -11,25 +11,25 @@
#include "message.hh"
namespace pEp {
namespace PythonAdapter {
namespace PythonAdapter {
extern string device_name;
extern string device_name;
void config_passive_mode(bool enable);
void config_passive_mode(bool enable);
void config_unencrypted_subject(bool enable);
void config_unencrypted_subject(bool enable);
void key_reset_user(string user_id, string fpr);
void key_reset_user(string user_id, string fpr);
void key_reset_all_own_keys();
void key_reset_all_own_keys();
void _throw_status(::PEP_STATUS status);
void _throw_status(::PEP_STATUS status);
::PEP_STATUS _messageToSend(::message *msg);
::PEP_STATUS _messageToSend(::message *msg);
::PEP_STATUS notifyHandshake(::pEp_identity *me, ::pEp_identity *partner, ::sync_handshake_signal signal);
::PEP_STATUS notifyHandshake(::pEp_identity *me, ::pEp_identity *partner, ::sync_handshake_signal signal);
} /* namespace PythonAdapter */
} /* namespace PythonAdapter */
} /* namespace pEp */
#endif /* PEPMODULE_HH */

91
src/pEp/_pEp/str_attr.cc
View File

@ -10,49 +10,52 @@
#include "str_attr.hh"
namespace pEp {
namespace PythonAdapter {
using namespace std;
using namespace boost::python;
using namespace boost::locale;
namespace PythonAdapter {
using namespace std;
using namespace boost::python;
using namespace boost::locale;
object repr(object s) {
object repr(object s) {
return s.attr("__repr__")();
}
}
string repr(string s) {
string repr(string s) {
str _s = s.c_str();
object _r = _s.attr("__repr__")();
string r = extract<string>(_r);
return r;
}
}
string str_attr(char *&str) {
if (!str)
string str_attr(char *&str) {
if (!str) {
return string("");
return string(str);
}
return string(str);
}
void str_attr(char *&str, string value) {
void str_attr(char *&str, string value) {
string normalized = normalize(value, norm_nfc);
free(str);
str = strdup(normalized.c_str());
if (!str)
if (!str) {
throw bad_alloc();
}
}
time_t timestamp_attr(::timestamp *&ts) {
if (!ts)
time_t timestamp_attr(::timestamp *&ts) {
if (!ts) {
return 0;
}
return timegm(ts);
}
}
void timestamp_attr(::timestamp *&ts, time_t value) {
void timestamp_attr(::timestamp *&ts, time_t value) {
free_timestamp(ts);
ts = ::new_timestamp(value);
}
}
boost::python::list strlist_attr(::stringlist_t *&sl) {
boost::python::list strlist_attr(::stringlist_t *&sl) {
boost::python::list result;
for (::stringlist_t *_sl = sl; _sl && _sl->value; _sl = _sl->next) {
@ -61,16 +64,17 @@ namespace pEp {
}
return result;
}
}
void strlist_attr(::stringlist_t *&sl, boost::python::list value) {
void strlist_attr(::stringlist_t *&sl, boost::python::list value) {
::stringlist_t *_sl = ::new_stringlist(NULL);
if (!_sl)
if (!_sl) {
throw bad_alloc();
}
::stringlist_t *_s = _sl;
for (int i = 0; i < len(value); i++) {
extract <string> extract_string(value[i]);
extract<string> extract_string(value[i]);
if (!extract_string.check()) {
free_stringlist(_sl);
}
@ -85,13 +89,12 @@ namespace pEp {
free_stringlist(sl);
sl = _sl;
}
}
dict strdict_attr(::stringpair_list_t *&spl) {
dict strdict_attr(::stringpair_list_t *&spl) {
dict result;
for (::stringpair_list_t *_spl = spl; _spl && _spl->value; _spl =
_spl->next) {
for (::stringpair_list_t *_spl = spl; _spl && _spl->value; _spl = _spl->next) {
::stringpair_t *p = _spl->value;
if (p->key && p->value) {
string key(p->key);
@ -102,20 +105,22 @@ namespace pEp {
}
return result;
}
}
void strdict_attr(::stringpair_list_t *&spl, dict value) {
void strdict_attr(::stringpair_list_t *&spl, dict value) {
::stringpair_list_t *_spl = ::new_stringpair_list(NULL);
if (!_spl)
if (!_spl) {
throw bad_alloc();
}
::stringpair_list_t *_s = _spl;
for (int i = 0; i < len(value); i++) {
extract <string> extract_key(value.keys()[i]);
extract <string> extract_value(value.values()[i]);
extract<string> extract_key(value.keys()[i]);
extract<string> extract_value(value.values()[i]);
if (!(extract_key.check() && extract_value.check()))
if (!(extract_key.check() && extract_value.check())) {
free_stringpair_list(_spl);
}
string key = extract_key();
key = normalize(key, norm_nfc);
@ -135,18 +140,20 @@ namespace pEp {
free_stringpair_list(spl);
spl = _spl;
}
}
::stringlist_t *to_stringlist(boost::python::list l) {
::stringlist_t *to_stringlist(boost::python::list l) {
::stringlist_t *result = ::new_stringlist(NULL);
if (!result)
if (!result) {
throw bad_alloc();
}
::stringlist_t *_s = result;
for (int i = 0; i < len(l); i++) {
extract <string> extract_string(l[i]);
if (!extract_string.check())
extract<string> extract_string(l[i]);
if (!extract_string.check()) {
free_stringlist(result);
}
string s = extract_string();
_s = stringlist_add(_s, s.c_str());
if (!_s) {
@ -156,17 +163,17 @@ namespace pEp {
}
return result;
}
}
boost::python::list from_stringlist(const ::stringlist_t *sl) {
boost::python::list from_stringlist(const ::stringlist_t *sl) {
boost::python::list result;
for (const ::stringlist_t *_sl = sl; _sl && _sl->value; _sl = _sl->next) {
string s = _sl->value;
result.append(s);
}
return result;
}
}
} // namespace PythonAdapter
} // namespace PythonAdapter
} // namespace pEp {

6
src/pEp/_pEp/str_attr.hh
View File

@ -20,21 +20,27 @@ using boost::python::object;
using boost::python::dict;
object repr(object s);
string repr(string s);
string str_attr(char *&str);
void str_attr(char *&str, string value);
time_t timestamp_attr(::timestamp *&ts);
void timestamp_attr(::timestamp *&ts, time_t value);
boost::python::list strlist_attr(::stringlist_t *&sl);
void strlist_attr(::stringlist_t *&sl, boost::python::list value);
dict strdict_attr(::stringpair_list_t *&spl);
void strdict_attr(::stringpair_list_t *&spl, dict value);
::stringlist_t *to_stringlist(boost::python::list l);
boost::python::list from_stringlist(const ::stringlist_t *sl);
} /* namespace PythonAdapter */

81
src/pEp/_pEp/user_interface.cc
View File

@ -8,76 +8,76 @@
#include "user_interface.hh"
namespace pEp {
namespace PythonAdapter {
using namespace std;
using namespace boost::python;
namespace PythonAdapter {
using namespace std;
using namespace boost::python;
UserInterface *UserInterface::_ui = nullptr;
UserInterface *UserInterface::_ui = nullptr;
UserInterface::UserInterface() {
if (_ui)
UserInterface::UserInterface() {
if (_ui) {
throw runtime_error("only one UserInterface thread allowed");
_ui = this;
}
_ui = this;
}
UserInterface::~UserInterface() {
UserInterface::~UserInterface() {
_ui = nullptr;
}
UserInterface_callback::UserInterface_callback(PyObject *self) :
UserInterface(), _self(self) {
// adapter.ui_object(self);
// ::PEP_STATUS status = ::register_sync_callbacks(Adapter::session(),
// (void *) this, _notifyHandshake, retrieve_next_sync_event);
// assert(status == ::PEP_STATUS_OK);
// if (status)
// _throw_status(status);
}
UserInterface_callback::~UserInterface_callback() {
// ::unregister_sync_callbacks(Adapter::session());
}
::PEP_STATUS UserInterface::_notifyHandshake(
pEp_identity *me, pEp_identity *partner,
sync_handshake_signal signal
) {
if (!(me && partner))
}
UserInterface_callback::UserInterface_callback(PyObject *self)
: UserInterface(),
_self(self) {
// adapter.ui_object(self);
// ::PEP_STATUS status = ::register_sync_callbacks(Adapter::session(),
// (void *) this, _notifyHandshake, retrieve_next_sync_event);
// assert(status == ::PEP_STATUS_OK);
// if (status)
// _throw_status(status);
}
UserInterface_callback::~UserInterface_callback() {
// ::unregister_sync_callbacks(Adapter::session());
}
::PEP_STATUS UserInterface::_notifyHandshake(pEp_identity *me, pEp_identity *partner, sync_handshake_signal signal) {
if (!(me && partner)) {
return PEP_ILLEGAL_VALUE;
}
auto that = dynamic_cast< UserInterface_callback * >(_ui);
that->notifyHandshake(Identity(me), Identity(partner), signal);
return ::PEP_STATUS_OK;
}
}
void UserInterface::deliverHandshakeResult(int result, object identities) {
void UserInterface::deliverHandshakeResult(int result, object identities) {
identity_list *shared_identities = nullptr;
if (identities != boost::python::api::object() && boost::python::len(identities)) {
shared_identities = new_identity_list(nullptr);
if (!shared_identities)
if (!shared_identities) {
throw bad_alloc();
}
try {
identity_list *si = shared_identities;
for (int i = 0; i < boost::python::len(identities); ++i) {
Identity ident = extract<Identity>(identities[i]);
si = identity_list_add(si, ident);
if (!si)
if (!si) {
throw bad_alloc();
}
}
catch (exception &ex) {
} catch (exception &ex) {
free_identity_list(shared_identities);
throw ex;
}
}
::PEP_STATUS status = ::deliverHandshakeResult(Adapter::session(),
(sync_handshake_result) result, shared_identities);
::PEP_STATUS status = ::deliverHandshakeResult(Adapter::session(), (sync_handshake_result)result, shared_identities);
free_identity_list(shared_identities);
_throw_status(status);
}
}
//PEP_rating UserInterface::get_key_rating_for_user(string user_id, string fpr)
//{
@ -113,11 +113,10 @@ namespace pEp {
// return adapter.queue().pop_front();
//}
void UserInterface_callback::notifyHandshake(
Identity me, Identity partner, sync_handshake_signal signal) {
void UserInterface_callback::notifyHandshake(Identity me, Identity partner, sync_handshake_signal signal) {
call_method<void>(_self, "notifyHandshake", me, partner, signal);
}
}
} // namespace PythonAdapter
} // namespace PythonAdapter
} // namespace pEp {

26
src/pEp/_pEp/user_interface.hh
View File

@ -14,47 +14,39 @@
// local
#include "pEpmodule.hh"
namespace pEp {
namespace PythonAdapter {
namespace PythonAdapter {
class UserInterface {
class UserInterface {
static UserInterface *_ui;
public:
UserInterface();
virtual ~UserInterface();
virtual void notifyHandshake(
Identity me,
Identity partner,
sync_handshake_signal signal) {
virtual void notifyHandshake(Identity me, Identity partner, sync_handshake_signal signal) {
throw runtime_error("override this method");
}
virtual void deliverHandshakeResult(int result, object identities);
// PEP_rating get_key_rating_for_user(string user_id, string fpr);
// PEP_rating get_key_rating_for_user(string user_id, string fpr);
protected:
static ::PEP_STATUS _notifyHandshake(pEp_identity *me, pEp_identity *partner, sync_handshake_signal signal);
};
};
class UserInterface_callback : public UserInterface {
class UserInterface_callback : public UserInterface {
PyObject *_self;
public:
UserInterface_callback(PyObject *self);
~UserInterface_callback();
void notifyHandshake(
Identity me,
Identity partner,
sync_handshake_signal signal
);
};
void notifyHandshake(Identity me, Identity partner, sync_handshake_signal signal);
};
} /* namespace PythonAdapter */
} /* namespace PythonAdapter */
} /* namespace pEp */
#endif /* USER_INTERFACE_HH */

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