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pEp.foundation:PYADAPT-98
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pEp.foundation:PYADPT-116
pEp.foundation:PYADPT-139
pEp.foundation:PYADPT-140
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pEp.foundation:PYADPT-81
pEp.foundation:PYADPT-96_init_version
pEp.foundation:PYADPT-97
pEp.foundation:PYDAPT-138
pEp.foundation:REWORK
pEp.foundation:Release_2.1
pEp.foundation:Release_3.2
pEp.foundation:build-windows
pEp.foundation:gitea-008
pEp.foundation:lucasaiu/message-rating-field
pEp.foundation:lucasaiu/message-struct-change
pEp.foundation:master
pEp.foundation:positron-check-signature
pEp.foundation:positron-misleading-help-string
pEp.foundation:positron-nkls-mixnet
pEp.foundation:positron-pEp-mail-tool
pEp.foundation:sync

22 Commits
master ... REWORK

Author SHA1 Message Date
heck 16e9bda15f sphinx doc - config and module doc pEp._gen / pEp._pEp
4 years ago
heck 348fa8f2f9 make clean
4 years ago
heck 8e1898446e gitignore
4 years ago
heck da1d3a8347 codegen - add enigne functions from message.h
4 years ago
heck 103208ea95 add pybind11 to setup-requires
4 years ago
heck 7a84853814 build - get pybind includes from pybind module
4 years ago
heck d87fd19652 gitignore generated debug files
4 years ago
heck 784653df6f Half the adapter generated, strike \o/!
4 years ago
heck 6a1d302821 _gen fix Makefiles
5 years ago
heck dc0b769136 _gen Add PEP_SESSION
5 years ago
heck 119effbfdb gen log_event
5 years ago
heck 7b4ba8b4c4 Makefile
5 years ago
heck b153ce3c7a Makefile - fix static vs dynamic linking options
5 years ago
heck 2e138e1190 introduce pEpACIDgen - Abstract C Interface Definition Generator
5 years ago
heck 0792869686 suitable name for the generated extension module
5 years ago
heck c56b3b40f3 Makefile based build for C++ parts only
5 years ago
heck 19b2ebb18d Move common includes, namespace aliases etc... to adapter_main.hh/.cc,
5 years ago
heck 0e896bf36c namespace cleanup - replace all "using namespace" with namspace aliases (except std in impl files.)
5 years ago
heck 0e893624c9 formatting fornatting - breakfast and lunch - dinner and brunch :)
5 years ago
heck 63e830040c Mark all symbols from the pEpEngine with explicit global namespace. (e.g: ::pEp_stuff).
5 years ago
heck 688fff5667 Add Makefile based build for _pEp native module
5 years ago
heck 8aa36d9f95 pyBind11 evaluation - parallel mode with boost.python
5 years ago
37 changed files with 2381 additions and 2024 deletions
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  1. 11
      .gitignore
  2. 26
      Makefile
  3. 1
      Makefile.conf
  4. 8
      docs/source/api/pEp._gen.rst
  5. 7
      docs/source/api/pEp._pEp.rst
  6. 9
      docs/source/api/pEp.rst
  7. 2
      docs/source/conf.py
  8. 3
      docs/source/index.rst
  9. 3
      pyproject.toml
  10. 2
      requirements.txt
  11. 2
      setup.cfg
  12. 20
      setup.py
  13. 16
      src/pEp/Makefile.conf
  14. 2
      src/pEp/__init__.py
  15. 46
      src/pEp/_gen/Makefile
  16. 12
      src/pEp/_gen/Makefile.conf
  17. 40
      src/pEp/_gen/adapter_main.hh
  18. 35
      src/pEp/_gen/gen/Makefile
  19. 98
      src/pEp/_gen/gen/config.json
  20. 22
      src/pEp/_gen/pEpModule.cc
  21. 32
      src/pEp/_pEp/Makefile
  22. 163
      src/pEp/_pEp/adapter_main.cc
  23. 84
      src/pEp/_pEp/adapter_main.hh
  24. 293
      src/pEp/_pEp/basic_api.cc
  25. 29
      src/pEp/_pEp/basic_api.hh
  26. 447
      src/pEp/_pEp/identity.cc
  27. 106
      src/pEp/_pEp/identity.hh
  28. 722
      src/pEp/_pEp/message.cc
  29. 191
      src/pEp/_pEp/message.hh
  30. 305
      src/pEp/_pEp/message_api.cc
  31. 22
      src/pEp/_pEp/message_api.hh
  32. 1076
      src/pEp/_pEp/pEpmodule.cc
  33. 24
      src/pEp/_pEp/pEpmodule.hh
  34. 288
      src/pEp/_pEp/str_attr.cc
  35. 40
      src/pEp/_pEp/str_attr.hh
  36. 144
      src/pEp/_pEp/user_interface.cc
  37. 64
      src/pEp/_pEp/user_interface.hh

11
.gitignore
View File

@ -47,4 +47,13 @@ __pycache__/
.DS_store
# pEpACIDgen generated files
/src/pEp/_gen/gen/adapter_main.hh.acid.json
/src/pEp/_gen/gen/adapter_main.hh.acid.yml
/src/pEp/_gen/gen/adapter_main.hh.ast.json
/src/pEp/_gen/gen/py_module.pybind11
/src/pEp/_gen/gen/py_module.yml2
/src/pEp/_gen.cpython-38-darwin.so
/src/pEp/_pEp.cpython-38-darwin.so
/src/pEp/_gen/pEpModule.o
/src/pEp/_gen/_gen.so

26
Makefile
View File

@ -3,12 +3,20 @@ include Makefile.conf
.PHONY: all compile compile-inplace dist dist-egg dist-whl install install-user venv envtest install-test test develop docs clean clean-all clean-docs
all: dist
# Install pEpACIDgen from local repo clone, not from pypi
install-pepacidgen:
pip3 install -r requirements.txt --find-links ../pEpACIDgen/dist
# Build
# =====
compile:
gen: install-pepacidgen
$(MAKE) -C src/pEp/_gen gen
compile: gen
python3 setup.py build_ext $(DEBUG_OPT) $(PREFIX_OPT)
compile-inplace:
compile-inplace: gen
python3 setup.py build_ext $(DEBUG_OPT) $(PREFIX_OPT) --inplace
# Packaging
@ -57,8 +65,6 @@ envtest:
install-test: compile
pip3 install .[test]
# TODO: maybe use setup.py test?
# --forked, because every test needs a separate process, see PYADPT-100
test:
pytest
@ -80,6 +86,7 @@ clean-all: clean
rm -rf $(VENV_DIR)
clean: clean-docs
$(MAKE) -C src/pEp/_gen clean-all
rm -rf $(BUILD_DIR)
rm -rf $(DIST_DIR)
rm -rf $(PYTHON_ARTIFACTS)
@ -88,3 +95,14 @@ clean: clean-docs
clean-docs:
make clean -C docs/
# Makefile based build of C++ parts only
# ======================================
makefile-build:
$(MAKE) -C src/pEp/_pEp
$(MAKE) -C src/pEp/_gen
makefile-clean:
$(MAKE) -C src/pEp/_pEp clean
$(MAKE) -C src/pEp/_gen clean

1
Makefile.conf
View File

@ -5,6 +5,7 @@ BUILD_DIR = ./build
DIST_DIR = ./dist
VERSION_FILE = ./src/pEp/__version__.py
BUILD_INPLACE = ./src/pEp/_pEp.cpython-38-darwin.so
BUILD_INPLACE += ./src/pEp/_gen.cpython-38-darwin.so
PYTHON_ARTIFACTS += ./.eggs
PYTHON_ARTIFACTS += ./src/pEp.egg-info
PYTHON_ARTIFACTS += ./.pytest_cache

8
docs/source/api/pEp._gen.rst
View File

@ -0,0 +1,8 @@
Module pEp._gen
---------------
.. automodule:: pEp._gen
:members:
:imported-members:
:undoc-members:
:show-inheritance:

7
docs/source/api/pEp._pEp.rst
View File

@ -0,0 +1,7 @@
Module pEp._pEp
---------------
.. automodule:: pEp._pEp
:members:
:imported-members:
:undoc-members:
:show-inheritance:

9
docs/source/api/pEp.rst
View File

@ -1,12 +1,7 @@
pEp package
===========
Module contents
---------------
Module pEp
----------
.. automodule:: pEp
:members:
:imported-members:
:undoc-members:
:show-inheritance:

2
docs/source/conf.py
View File

@ -92,7 +92,7 @@ html_theme = "nature"
# Add any paths that contain custom static files (such as style sheets) here,
# relative to this directory. They are copied after the builtin static files,
# so a file named "default.css" will overwrite the builtin "default.css".
html_static_path = ["_static"]
#html_static_path = ["_static"]
# Custom sidebar templates, must be a dictionary that maps document names
# to template names.

3
docs/source/index.rst
View File

@ -13,6 +13,9 @@ Welcome to pEpPythonAdapter's documentation!
install
software_using
api/pEp
api/pEp._pEp
api/pEp._gen
Indices and tables
==================

3
pyproject.toml
View File

@ -5,7 +5,8 @@
requires =[
"setuptools >=39.2.0",
"setuptools_scm >= 4.1.2",
"wheel >= 0.35.1" ]
"wheel >= 0.35.1",
"pybind11 >= 2.6.2" ]
build-backend = "setuptools.build_meta"

2
requirements.txt
View File

@ -0,0 +1,2 @@
pEpACIDgen
pyBind11

2
setup.cfg
View File

@ -35,6 +35,8 @@ setup_requires =
setuptools >=39.2.0
setuptools_scm >= 4.1.2
wheel >= 0.35.1
pybind11 >= 2.6.2
[options.extras_require]
# To install these dependencies, run pip install .[test]
test =

20
setup.py
View File

@ -7,7 +7,6 @@
from __future__ import print_function
import sys
import os
from os import environ
from os.path import join
@ -174,6 +173,14 @@ class BuildExtCommand(build_ext):
module_pEp.libraries = libs
module_pEp.extra_compile_args = compile_flags
global module_gen
module_gen.include_dirs = includes
import pybind11
module_gen.include_dirs += [pybind11.commands.get_include()]
module_gen.library_dirs = libdirs
# module_gen.libraries = libs
module_gen.extra_compile_args = compile_flags
pEpLog("Include Dirs:", module_pEp.include_dirs)
pEpLog("Libs Dirs:", module_pEp.library_dirs)
pEpLog("Libraries:", module_pEp.libraries)
@ -195,6 +202,7 @@ if sys.version_info[0] < 3:
module_pEp = Extension(
'pEp._pEp',
sources=[
'src/pEp/_pEp/adapter_main.cc',
'src/pEp/_pEp/pEpmodule.cc',
'src/pEp/_pEp/basic_api.cc',
'src/pEp/_pEp/identity.cc',
@ -205,11 +213,19 @@ module_pEp = Extension(
],
)
module_gen = Extension(
'pEp._gen',
sources=[
'src/pEp/_gen/pEpmodule.cc',
],
)
# "MAIN" Function
setup(
package_dir={'': 'src'},
packages=['pEp'],
ext_modules=[module_pEp],
ext_modules=[module_pEp, module_gen],
cmdclass={
'build_ext': BuildExtCommand,
},

16
src/pEp/Makefile.conf
View File

@ -0,0 +1,16 @@
HERE:=$(dir $(lastword $(MAKEFILE_LIST)))
-include $(HERE)../../local.conf
TARGET_PEP=_pEp.so
TARGET_GEN=_gen.so
# General Build settings
CXX=g++
CXXFLAGS+=-std=c++11 -g
INCLUDES+=-I$(PREFIX)/include
INCLUDES+=-I/opt/local/Library/Frameworks/Python.framework/Versions/3.8/include/python3.8
LIB_DIRS=-L$(PREFIX)/lib
LIB_DIRS+=-L/opt/local/lib
LIBS=-lpEpEngine -lpEpAdapter
LDFLAGS+=-undefined dynamic_lookup

2
src/pEp/__init__.py
View File

@ -25,10 +25,12 @@ except ImportError:
# Imports all symbols EXCEPT the ones beginning with underscore
from ._pEp import *
from ._gen import *
# import the native module into the current namespace because we also need to access the names beginning
# with an underscore (of _pEp), but we dont want to import them into this module
import pEp._pEp
import pEp._gen
# Executed on module import
def init():

46
src/pEp/_gen/Makefile
View File

@ -0,0 +1,46 @@
include Makefile.conf
TARGET=_gen.so
# Swap here, for static vs dyn linking
TARGET_MODULE_DYN=$(TARGET)
TARGET_MODULE_STATIC=
CXX=clang
CXXFLAGS+=-std=c++11 -g
SRCS+=$(wildcard *.cc)
OBJS+=$(SRCS:.cc=.o)
CXXFLAGS+=$(INCLUDES)
LDFLAGS_DYN+=-undefined dynamic_lookup $(LIBS_PATH) $(LIBS)
LDFLAGS_STATIC+=-undefined dynamic_lookup
$(info -----BUILD INFO----)
$(info SRCS $(SRCS))
$(info OBJS $(OBJS))
.PHONY: all gen gen-pybind module_dyn module_static clean
all: gen compile
gen:
$(MAKE) -C gen
gen-pybind:
$(MAKE) -C gen pybind
compile: $(TARGET)
$(TARGET_MODULE_DYN) : $(OBJS)
$(CXX) $(LDFLAGS_DYN) -o $@ $^
$(TARGET_MODULE_STATIC) : $(OBJS) $(LIBS_STATIC)
$(CXX) $(LDFLAGS_STATIC) -o $@ $^
clean:
rm -f $(TARGET)
rm -f $(OBJS)
clean-all: clean
$(MAKE) -C gen clean

12
src/pEp/_gen/Makefile.conf
View File

@ -0,0 +1,12 @@
# pyBind11 and python headers
INCLUDES+=$(shell pybind11-config --includes)
# example lib
INCLUDES+=-I/Users/heck/local-default/include/
# static lib (.a)
#LIBS_STATIC+=/Users/heck/local-default/include/
# dynamic lib (.so)
LIBS+=-lpEpEngine
LIBS_PATH+=-L/Users/heck/local-default/lib

40
src/pEp/_gen/adapter_main.hh
View File

@ -0,0 +1,40 @@
// This file is under GNU Affero General Public License 3.0
// see LICENSE.txt
#ifndef ADAPTER_MAIN_HH
#define ADAPTER_MAIN_HH
// Use only if cant be avoided
//#include <pEp/stringlist.h>
/// =======
#include <pEp/pEpEngine.h>
//// Engine
////pEp-API
#include <pEp/keymanagement.h>
#include <pEp/message_api.h>
#include <pEp/sync_api.h>
#include <pEp/distribution_codec.h>
#include <pEp/sync_codec.h>
/// =======
// #include <pEp/identity_list.h>
// #include <pEp/key_reset.h>
// #include <pEp/mime.h>
// #include <pEp/message.h>
// #include <pEp/sync_codec.h>
// #include <pEp/distribution_codec.h>
// #include <pEp/timestamp.h>
// #include <pEp/stringpair.h>
// libpEpAdapter
/// =======
//#include <pEp/Adapter.hh>
//#include <pEp/callback_dispatcher.hh>
/// =======
// #include <pEp/status_to_string.hh>
// #include <pEp/pEpLog.hh>
#endif // ADAPTER_MAIN_HH

35
src/pEp/_gen/gen/Makefile
View File

@ -0,0 +1,35 @@
include ../Makefile.conf
YML2_FILE=py_module.yml2
YSL2_FILE=$(shell pEp_acid_gen-config)
PYBIND11_FILE=py_module.pybind11
DEBUG_AST_FILE=adapter_main.hh.ast.json
DEBUG_ACID_FILE=adapter_main.hh.acid.json
DEBUG_YML_FILE=adapter_main.hh.acid.yml
$(info -----_gen GEN----)
$(info YML2_FILE $(YML2_FILE))
$(info YSL2_FILE $(YSL2_FILE))
$(info CC_FILE $(PYBIND11_FILE))
.PHONY = all yml pybind
all: pybind
yml: $(YML2_FILE)
pybind: $(YML2_FILE) $(PYBIND11_FILE)
$(YML2_FILE): config.json
pEp_acid_gen $^
$(PYBIND11_FILE) : $(YML2_FILE)
yml2proc --encoding=utf8 -y $(YSL2_FILE) $(YML2_FILE)
clean:
rm -f $(YML2_FILE)
rm -f $(PYBIND11_FILE)
rm -f $(DEBUG_AST_FILE)
rm -f $(DEBUG_ACID_FILE)
rm -f $(DEBUG_YML_FILE)

98
src/pEp/_gen/gen/config.json
View File

@ -0,0 +1,98 @@
{
"module_name": "_gen",
"header_filename": "../adapter_main.hh",
"libclang_path": "/opt/local/libexec/llvm-9.0/lib/libclang.dylib",
"variables": [
],
"functions": [
"KEYMANAGEMENT",
"update_identity",
"myself",
"//register_examine_function",
"//do_keymanagement",
"key_mistrusted",
"trust_personal_key",
"trust_own_key",
"key_reset_trust",
"//own_key_is_listed",
"_own_identities_retrieve",
"own_identities_retrieve",
"_own_keys_retrieve",
"own_keys_retrieve",
"set_own_key",
"//clean_own_key_defaults",
"//PEPENGINE",
"update_identity",
"myself",
"//register_examine_function",
"//do_keymanagement",
"key_mistrusted",
"trust_personal_key",
"trust_own_key",
"key_reset_trust",
"//own_key_is_listed",
"own_identities_retrieve",
"//own_keys_retrieve",
"set_own_key",
"//clean_own_key_defaults",
"new_identity",
"//MESSAGE_API",
"encrypt_message",
"encrypt_message_and_add_priv_key",
"encrypt_message_for_self",
"color_from_rating",
"decrypt_message",
"own_message_private_key_details",
"outgoing_message_rating",
"outgoing_message_rating_preview",
"identity_rating",
"get_binary_path",
"get_trustwords",
"get_message_trustwords",
"get_trustwords_for_fprs",
"re_evaluate_message_rating",
"get_key_rating_for_user",
"rating_from_comm_type",
"probe_encrypt",
"//MESSAGE",
"new_message",
"free_message",
"message_dup",
"message_transfer",
"new_message_ref_list",
"free_message_ref_list",
"message_ref_list_dup",
"message_ref_list_add",
"//SYNC_API",
"deliverHandshakeResult",
"//register_sync_callbacks",
"//unregister_sync_callbacks",
"//do_sync_protocol",
"//do_sync_protocol_step",
"//is_sync_thread",
"//new_sync_timeout_event",
"enter_device_group",
"//leave_device_group",
"enable_identity_for_sync",
"disable_identity_for_sync",
"//SYNC_CODEC",
"//decode_Sync_message",
"//encode_Sync_message",
"//PER_to_XER_Sync_msg",
"//XER_to_PER_Sync_msg",
"//DISTRIBUTION_CODEC",
"//decode_Distribution_message",
"//encode_Distribution_message",
"//PER_to_XER_Distribution_msg",
"//XER_to_PER_Distribution_msg"
],
"debug_ast" : 0,
"debug_acid" : 0,
"debug_yml" : 0
}

22
src/pEp/_gen/pEpModule.cc
View File

@ -0,0 +1,22 @@
#include <string>
#include <iostream>
#include <pybind11/pybind11.h>
#include <pybind11/detail/common.h>
#include "adapter_main.hh"
#include <pEp/Adapter.hh>
#include <pEp/callback_dispatcher.hh>
using namespace std;
namespace alib = pEp::Adapter;
PEP_SESSION pep_session() {
return alib::session();
}
PYBIND11_MODULE(_gen, m) {
// PEP_SESSION
// m.def("pep_session",(PEP_SESSION(*)()) &pep_session);
#include "gen/py_module.pybind11"
}

32
src/pEp/_pEp/Makefile
View File

@ -0,0 +1,32 @@
include ../Makefile.conf
TARGET=$(TARGET_PEP)
# Specific Build settings
CXXFLAGS+=-Wno-unused-result -Wsign-compare -Wunreachable-code -fno-common -dynamic -g -fwrapv -O3 -Wall -pipe -Os -isysroot/Library/Developer/CommandLineTools/SDKs/MacOSX10.14.sdk
INCLUDES+=
LIB_DIRS+=
LIBS+=-lboost_python38-mt -lboost_locale-mt
LDFLAGS+=
# Combine Settings
CXXFLAGS+=$(INCLUDES)
LDFLAGS+=$(LIB_DIRS)
LDFLAGS+=$(LIBS)
SRCS:=$(wildcard *.cc)
OBJS:=$(SRCS:.cc=.o)
.PHONY: clean
all: $(TARGET)
# Using implicit compile target
# And explicit link taget
$(TARGET): $(OBJS)
$(CXX) $(LDFLAGS) -o $@ $^
clean:
rm -rf $(TARGET)
rm -rf $(OBJS)

163
src/pEp/_pEp/adapter_main.cc
View File

@ -0,0 +1,163 @@
// This file is under GNU Affero General Public License 3.0
// see LICENSE.txt
#include "adapter_main.hh"
#include "message.hh"
#include "message_api.hh"
namespace pEp {
namespace PythonAdapter {
static const char *version_string = "p≡p Python adapter version 0.3";
void init_before_main_module() {
pEpLog("called");
}
// 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) {
::config_passive_mode(Adapter::session(), enable);
}
void config_unencrypted_subject(bool enable) {
::config_unencrypted_subject(Adapter::session(), enable);
}
void key_reset_user(const string &user_id, const 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(const string &user_id) {
key_reset_user(user_id, "");
}
void key_reset_all_own_keys() {
::PEP_STATUS status = ::key_reset_all_own_keys(Adapter::session());
_throw_status(status);
}
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) {
return;
}
if (status >= 0x400 && status <= 0x4ff) {
return;
}
if (status == ::PEP_OUT_OF_MEMORY) {
throw bad_alloc();
}
if (status == ::PEP_ILLEGAL_VALUE) {
throw invalid_argument("illegal value");
}
if (status_to_string(status) == "unknown status code") {
stringstream build;
build << setfill('0') << "p≡p 0x" << setw(4) << hex << status;
throw runtime_error(build.str());
} else {
throw runtime_error(status_to_string(status));
}
}
::PEP_STATUS _messageToSend(::message *msg) {
pEpLog("called");
try {
PyGILState_STATE gil = PyGILState_Ensure();
pEpLog("GIL Aquired");
bp::object modref = bp::import("pEp");
bp::object funcref = modref.attr("message_to_send");
bp::call<void>(funcref.ptr(), Message());
PyGILState_Release(gil);
pEpLog("GIL released");
} catch (exception &e) {
}
return ::PEP_STATUS_OK;
}
::PEP_STATUS notifyHandshake(::pEp_identity *me, ::pEp_identity *partner, ::sync_handshake_signal signal) {
pEpLog("called");
try {
PyGILState_STATE gil = PyGILState_Ensure();
pEpLog("GIL Aquired");
bp::object modref = bp::import("pEp");
bp::object funcref = modref.attr("notify_handshake");
bp::call<void>(funcref.ptr(), me, partner, signal);
PyGILState_Release(gil);
pEpLog("GIL released");
} catch (exception &e) {
}
return ::PEP_STATUS_OK;
}
void start_sync() {
CallbackDispatcher::start_sync();
}
void shutdown_sync() {
CallbackDispatcher::stop_sync();
}
void debug_color(int ansi_color) {
::set_debug_color(Adapter::session(), ansi_color);
}
void leave_device_group() {
::leave_device_group(Adapter::session());
}
bool is_sync_active() {
return Adapter::is_sync_running();
}
void testfunc() {
_messageToSend(nullptr);
}
void deliverHandshakeResult(int result, bp::object identities) {
identity_list *shared_identities = nullptr;
if (identities != bp::api::object() && boost::python::len(identities)) {
shared_identities = ::new_identity_list(nullptr);
if (!shared_identities) {
throw bad_alloc();
}
try {
::identity_list *si = shared_identities;
for (int i = 0; i < bp::len(identities); ++i) {
Identity ident = bp::extract<Identity>(identities[i]);
si = ::identity_list_add(si, ident);
if (!si) {
throw bad_alloc();
}
}
} catch (exception &ex) {
::free_identity_list(shared_identities);
throw ex;
}
}
::PEP_STATUS status = ::deliverHandshakeResult(Adapter::session(), (::sync_handshake_result)result, shared_identities);
free_identity_list(shared_identities);
_throw_status(status);
}
} // namespace PythonAdapter
} // namespace pEp

84
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@ -0,0 +1,84 @@
// This file is under GNU Affero General Public License 3.0
// see LICENSE.txt
#ifndef ADAPTER_MAIN_HH
#define ADAPTER_MAIN_HH
// System
#include <string>
#include <iomanip>
// Boost
#include <boost/python.hpp>
#include <boost/locale.hpp>
// Engine
#include <pEp/pEpEngine.h>
#include <pEp/keymanagement.h>
#include <pEp/identity_list.h>
#include <pEp/key_reset.h>
#include <pEp/sync_api.h>
#include <pEp/mime.h>
#include <pEp/message.h>
#include <pEp/message_api.h>
#include <pEp/sync_codec.h>
#include <pEp/distribution_codec.h>
#include <pEp/timestamp.h>
#include <pEp/stringpair.h>
// libpEpAdapter
#include <pEp/Adapter.hh>
#include <pEp/callback_dispatcher.hh>
#include <pEp/status_to_string.hh>
#include <pEp/pEpLog.hh>
namespace pEp {
namespace PythonAdapter {
using namespace std;
namespace bp = boost::python;
namespace bl = boost::locale;
void init_before_main_module();
void _init_after_main_module();
void testfunc();
//extern string device_name;
string about();
void config_passive_mode(bool enable);
void start_sync();
void shutdown_sync();
void debug_color(int ansi_color);
bool is_sync_active();
void config_unencrypted_subject(bool enable);
void key_reset_user(const string &user_id, const string &fpr);
void key_reset_user2(const string &user_id);
void key_reset_all_own_keys();
void _throw_status(::PEP_STATUS status);
void leave_device_group();
::PEP_STATUS _messageToSend(::message *msg);
::PEP_STATUS notifyHandshake(::pEp_identity *me, ::pEp_identity *partner, ::sync_handshake_signal signal);
void deliverHandshakeResult(int result, bp::object identities);
} // namespace PythonAdapter
} // namespace pEp
#endif // ADAPTER_MAIN_HH

293
src/pEp/_pEp/basic_api.cc
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@ -1,161 +1,152 @@
// This file is under GNU Affero General Public License 3.0
// see LICENSE.txt
// System
#include <sstream>
// Engine
#include <pEp/keymanagement.h>
#include <pEp/message_api.h>
#include <pEp/Adapter.hh>
// local
#include "basic_api.hh"
namespace pEp {
namespace PythonAdapter {
using namespace std;
void update_identity(Identity &ident) {
if (ident.address() == "")
throw invalid_argument("address needed");
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() == "")
throw invalid_argument("address needed");
if (ident.username() == "")
throw invalid_argument("username needed");
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() == "")
throw invalid_argument("fingerprint needed in Identities");
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);
_throw_status(status);
return words;
}
void trust_personal_key(Identity ident) {
if (ident.fpr() == "")
throw invalid_argument("fingerprint needed in Identities");
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() == "")
throw invalid_argument("address needed");
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() == "")
throw invalid_argument("address needed");
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() == "")
throw invalid_argument("fpr needed");
if (ident.address() == "")
throw invalid_argument("address needed");
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) {
::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)
_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);
if (!ident) {
free_identity_list(private_keys);
throw bad_alloc();
}
result.append(Identity(ident));
}
free_identity_list(private_keys);
return result;
}
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) {
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;
namespace PythonAdapter {
void update_identity(Identity &ident) {
if (ident.address() == "") {
throw invalid_argument("address needed");
}
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() == "") {
throw invalid_argument("address needed");
}
if (ident.username() == "") {
throw invalid_argument("username needed");
}
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() == "") {
throw invalid_argument("fingerprint needed in Identities");
}
if (lang == "" && me.lang() == partner.lang()) {
lang = me.lang();
}
char *words = nullptr;
size_t size = 0;
::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() == "") {
throw invalid_argument("fingerprint needed in Identities");
}
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,const ::identity_flags_t &flags) {
if (ident.address() == "") {
throw invalid_argument("address needed");
}
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,const ::identity_flags_t &flags) {
if (ident.address() == "") {
throw invalid_argument("address needed");
}
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() == "") {
throw invalid_argument("fpr needed");
}
if (ident.address() == "") {
throw invalid_argument("address needed");
}
if (ident.user_id() == "") {
throw invalid_argument("user_id needed");
}
::PEP_STATUS status = ::key_reset_trust(Adapter::session(), ident);
_throw_status(status);
}
bp::list import_key(const string &key_data) {
::identity_list *private_keys = nullptr;
::PEP_STATUS status = ::import_key(Adapter::session(), key_data.c_str(), key_data.size(), &private_keys);
if (status && status != ::PEP_KEY_IMPORTED) {
_throw_status(status);
}
auto result = bp::list();
for (::identity_list *il = private_keys; il && il->ident; il = il->next) {
::pEp_identity *ident = ::identity_dup(il->ident);
if (!ident) {
::free_identity_list(private_keys);
throw bad_alloc();
}
void set_own_key(Identity &ident, string fpr) {
if (ident.address() == "")
throw invalid_argument("address needed");
if (ident.username() == "")
throw invalid_argument("username needed");
if (ident.user_id() == "")
throw invalid_argument("user_id needed");
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
result.append(Identity(ident));
}
::free_identity_list(private_keys);
return result;
}
string export_key(Identity ident) {
::PEP_STATUS status = ::PEP_STATUS_OK;
char *key_data = nullptr;
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) {
::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, const string &fpr) {
if (ident.address() == "") {
throw invalid_argument("address needed");
}
if (ident.username() == "") {
throw invalid_argument("username needed");
}
if (ident.user_id() == "") {
throw invalid_argument("user_id needed");
}
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 pEp

29
src/pEp/_pEp/basic_api.hh
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@ -4,34 +4,35 @@
#ifndef BASIC_API_HH
#define BASIC_API_HH
#include "pEpmodule.hh"
#include "adapter_main.hh"
#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,const ::identity_flags_t &flags);
void unset_identity_flags(Identity ident, identity_flags_t flags);
void unset_identity_flags(Identity ident,const ::identity_flags_t &flags);
void key_reset_trust(Identity ident);
void key_reset_trust(Identity ident);
boost::python::list import_key(string key_data);
bp::list import_key(const 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, const string &fpr);
} /* namespace PythonAdapter */
} /* namespace PythonAdapter */
} /* namespace pEp */
#endif /* BASIC_API_HH */

447
src/pEp/_pEp/identity.cc
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@ -1,170 +1,166 @@
// This file is under GNU Affero General Public License 3.0
// see LICENSE.txt
// System
#include <typeinfo>
#include <sstream>
// Engine
#include <pEp/identity_list.h>
#include <pEp/keymanagement.h>
#include <pEp/key_reset.h>
// local
#include "identity.hh"
#include "pEpmodule.hh"
#include "basic_api.hh"
#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)
throw bad_alloc();
_ident->comm_type = (PEP_comm_type) comm_type;
_ident->flags = (identity_flags_t) flags;
this->lang(lang);
}
Identity::Identity(const Identity &second)
: _ident(second._ident) {
}
Identity::Identity(pEp_identity *ident)
: _ident(ident, &::free_identity) {
}
Identity::~Identity() {
}
Identity::operator pEp_identity *() {
return _ident.get();
}
Identity::operator const pEp_identity *() const {
return _ident.get();
}
string Identity::_repr() {
stringstream build;
build << "Identity(";
string address;
if (_ident->address)
address = string(_ident->address);
build << repr(address) << ", ";
string username;
if (_ident->username)
username = string(_ident->username);
build << repr(username) << ", ";
string user_id;
if (_ident->user_id)
user_id = string(_ident->user_id);
build << repr(user_id) << ", ";
string fpr;
if (_ident->fpr)
fpr = string(_ident->fpr);
build << repr(fpr) << ", ";
build << (int) _ident->comm_type << ", ";
string lang = _ident->lang;
build << repr(lang) << ")";
return build.str();
}
string Identity::_str() {
if (!(_ident->address && _ident->address[0]))
return "";
if (!(_ident->username && _ident->username[0]))
return _ident->address;
return string(_ident->username) + " <" + _ident->address + ">";
}
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 == "")
memset(_ident->lang, 0, 3);
else if (value.length() != 2)
throw length_error("length of lang must be 2");
else
memcpy(_ident->lang, value.c_str(), 3);
}
string Identity::lang() {
return _ident->lang;
}
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;
}
PEP_color Identity::color() {
return _color(rating());
}
Identity Identity::copy() {
pEp_identity *dup = ::identity_dup(*this);
if (!dup)
throw bad_alloc();
return Identity(dup);
}
Identity Identity::deepcopy(dict &) {
return copy();
}
void Identity::update() {
update_identity(*this);
}
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() {
PEP_STATUS status = ::key_mistrusted(Adapter::session(), *this);
_throw_status(status);
}
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() {
PEP_STATUS status = ::enable_identity_for_sync(Adapter::session(), *this);
_throw_status(status);
}
void Identity::disable_for_sync() {
PEP_STATUS status = ::disable_identity_for_sync(Adapter::session(), *this);
_throw_status(status);
}
namespace PythonAdapter {
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);
}
Identity::Identity(const Identity &second)
: _ident(second._ident) {
}
Identity::Identity(::pEp_identity *ident)
: _ident(ident, &::free_identity) {
}
Identity::~Identity() {
}
Identity::operator ::pEp_identity *() {
return _ident.get();
}
Identity::operator const ::pEp_identity *() const {
return _ident.get();
}
string Identity::_repr() {
stringstream build;
build << "Identity(";
string address;
if (_ident->address) {
address = string(_ident->address);
}
build << repr(address) << ", ";
string username;
if (_ident->username) {
username = string(_ident->username);
}
build << repr(username) << ", ";
string user_id;
if (_ident->user_id) {
user_id = string(_ident->user_id);
}
build << repr(user_id) << ", ";
string fpr;
if (_ident->fpr) {
fpr = string(_ident->fpr);
}
build << repr(fpr) << ", ";
build << (int)_ident->comm_type << ", ";
string lang = _ident->lang;
build << repr(lang) << ")";
return build.str();
}
string Identity::_str() {
if (!(_ident->address && _ident->address[0])) {
return "";
}
if (!(_ident->username && _ident->username[0])) {
return _ident->address;
}
return string(_ident->username) + " <" + _ident->address + ">";
}
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 == "") {
memset(_ident->lang, 0, 3);
} else if (value.length() != 2) {
throw length_error("length of lang must be 2");
} else {
memcpy(_ident->lang, value.c_str(), 3);
}
}
string Identity::lang() {
return _ident->lang;
}
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;
}
::PEP_color Identity::color() {
return _color(rating());
}
Identity Identity::copy() {
::pEp_identity *dup = ::identity_dup(*this);
if (!dup) {
throw bad_alloc();
}
return Identity(dup);
}
Identity Identity::deepcopy(bp::dict &) {
return copy();
}
void Identity::update() {
update_identity(*this);
}
void Identity::key_reset(const string &fpr) {
::PEP_STATUS status = ::key_reset_identity(Adapter::session(), *this, fpr != "" ? fpr.c_str() : nullptr);
_throw_status(status);
}
void Identity::key_mistrusted() {
::PEP_STATUS status = ::key_mistrusted(Adapter::session(), *this);
_throw_status(status);
}
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() {
::PEP_STATUS status = ::enable_identity_for_sync(Adapter::session(), *this);
_throw_status(status);
}
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) {
@ -183,75 +179,80 @@ namespace pEp {
// pEp::PythonAdapter::myself(*this);
// }
Identity identity_attr(pEp_identity *&ident) {
if (!ident)
throw out_of_range("no identity assigned");
pEp_identity *_dup = ::identity_dup(ident);
if (!_dup)
throw bad_alloc();
Identity _ident(_dup);
return _ident;
Identity identity_attr(::pEp_identity *&ident) {
if (!ident) {
throw out_of_range("no identity assigned");
}
::pEp_identity *_dup = ::identity_dup(ident);
if (!_dup) {
throw bad_alloc();
}
Identity _ident(_dup);
return _ident;
}
void identity_attr(::pEp_identity *&ident, bp::object value) {
Identity &_ident = bp::extract<Identity &>(value);
::pEp_identity *_dup = ::identity_dup(_ident);
if (!_dup) {
throw bad_alloc();
}
::PEP_STATUS status = ::update_identity(Adapter::session(), _dup);
_throw_status(status);
::free_identity(ident);
ident = _dup;
}
bp::list identitylist_attr(::identity_list *&il) {
bp::list result;
for (::identity_list *_il = il; _il && _il->ident; _il = _il->next) {
::pEp_identity *ident = ::identity_dup(_il->ident);
if (!ident) {
throw bad_alloc();
}
void identity_attr(pEp_identity *&ident, object value) {
Identity &_ident = extract<Identity &>(value);
pEp_identity *_dup = ::identity_dup(_ident);
if (!_dup)
throw bad_alloc();
PEP_STATUS status = ::update_identity(Adapter::session(), _dup);
result.append(bp::object(Identity(ident)));
}
return result;
}
void identitylist_attr(::identity_list *&il, bp::list value) {
::identity_list *_il = ::new_identity_list(nullptr);
if (!_il) {
throw bad_alloc();
}
::identity_list *_i = _il;
for (int i = 0; i < len(value); i++) {
bp::extract<Identity &> extract_identity(value[i]);
if (!extract_identity.check()) {
::free_identity_list(_il);
}
::pEp_identity *_ident = extract_identity();
::pEp_identity *_dup = ::identity_dup(_ident);
if (!_dup) {
::free_identity_list(_il);
throw bad_alloc();
}
::PEP_STATUS status = ::update_identity(Adapter::session(), _dup);
if (status != ::PEP_STATUS_OK) {
::free_identity_list(_il);
_throw_status(status);
::free_identity(ident);
ident = _dup;
}
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)
throw bad_alloc();
result.append(object(Identity(ident)));
}
return result;
_i = ::identity_list_add(_i, _dup);
if (!_i) {
::free_identity_list(_il);
throw bad_alloc();
}
}
void identitylist_attr(identity_list *&il, boost::python::list value) {
identity_list *_il = ::new_identity_list(NULL);
if (!_il)
throw bad_alloc();
identity_list *_i = _il;
for (int i = 0; i < len(value); i++) {
extract < Identity & > extract_identity(value[i]);
if (!extract_identity.check()) {
free_identity_list(_il);
}
pEp_identity *_ident = extract_identity();
pEp_identity *_dup = ::identity_dup(_ident);
if (!_dup) {
::free_identity_list(_il);
throw bad_alloc();
}
PEP_STATUS status = ::update_identity(Adapter::session(), _dup);
if (status != PEP_STATUS_OK) {
::free_identity_list(_il);
_throw_status(status);
}
_i = ::identity_list_add(_i, _dup);
if (!_i) {
::free_identity_list(_il);
throw bad_alloc();
}
}
::free_identity_list(il);
il = _il;
}
::free_identity_list(il);
il = _il;
}
} // namespace PythonAdapter
} // namespace PythonAdapter
} // namespace pEp

106
src/pEp/_pEp/identity.hh
View File

@ -5,100 +5,82 @@
#define IDENTITY_HH
// System
#include <boost/python.hpp>
#include <string>
#include <memory>
#include <cstddef>
// Engine
#include <pEp/pEpEngine.h>
#include <pEp/message_api.h>
//libpEpAdapter
#include "pEp/Adapter.hh"
// local
#include "adapter_main.hh"
#include "str_attr.hh"
namespace pEp {
namespace PythonAdapter {
using std::string;
using std::shared_ptr;
namespace PythonAdapter {
// Identity is owning a pEp_identity
class Identity {
protected:
shared_ptr<::pEp_identity> _ident;
class Identity {
protected:
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);
public:
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);
Identity(const Identity &second);
Identity(pEp_identity *ident);
Identity(::pEp_identity *ident);
virtual ~Identity();
virtual ~Identity();
operator pEp_identity *();
operator ::pEp_identity *();
operator const pEp_identity *() const;
operator const ::pEp_identity *() const;
string _repr();
string _repr();
string _str();
string _str();
string address() { return str_attr(_ident->address); }
string address() { return str_attr(_ident->address); }
void address(string value) { str_attr(_ident->address, value); }
void address(string value) { str_attr(_ident->address, value); }
string fpr() { return str_attr(_ident->fpr); }
string fpr() { return str_attr(_ident->fpr); }
void fpr(string value) { str_attr(_ident->fpr, value); }
void fpr(string value) { str_attr(_ident->fpr, value); }
string user_id() { return str_attr(_ident->user_id); }
string user_id() { return str_attr(_ident->user_id); }
void user_id(string value) { str_attr(_ident->user_id, value); }
void user_id(string value) { str_attr(_ident->user_id, value); }
string username() { return str_attr(_ident->username); }
string username() { return str_attr(_ident->username); }
void username(string value);
void username(string value);
PEP_comm_type comm_type() { return _ident->comm_type; }
::PEP_comm_type comm_type() { return _ident->comm_type; }
void comm_type(PEP_comm_type value) { _ident->comm_type = value; };
void comm_type(::PEP_comm_type value) { _ident->comm_type = value; };
std::string lang();
std::string lang();
void lang(std::string value);
void lang(std::string value);
identity_flags_t flags() { return _ident->flags; }
::identity_flags_t flags() { return _ident->flags; }
void flags(identity_flags_t flags) { _ident->flags = flags; }
void flags(::identity_flags_t flags) { _ident->flags = flags; }
int rating();
int rating();
PEP_color color();
::PEP_color color();
Identity copy();
Identity copy();
Identity deepcopy(dict &memo);
Identity deepcopy(bp::dict &memo);
virtual void update();
virtual void update();
void key_reset(string fpr = "");
void key_reset(const string &fpr = "");
void key_mistrusted();
void key_mistrusted();
bool is_pEp_user();
bool is_pEp_user();
void enable_for_sync();
void enable_for_sync();
void disable_for_sync();
};
void disable_for_sync();
};
// class Myself : public Identity {
// public:
@ -107,15 +89,15 @@ 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, bp::object value);
boost::python::list identitylist_attr(identity_list *&il);
bp::list identitylist_attr(::identity_list *&il);
void identitylist_attr(identity_list *&il, boost::python::list value);
void identitylist_attr(::identity_list *&il, bp::list value);
} // namespace PythonAdapter
} // namespace PythonAdapter
} // namespace pEp
#endif /* IDENTITY_HH */

722
src/pEp/_pEp/message.cc
View File

@ -1,385 +1,387 @@
// This file is under GNU Affero General Public License 3.0
// see LICENSE.txt
// System
#include <cstdlib>
#include <cstring>
#include <stdexcept>
#include <sstream>
#include <vector>
#include <Python.h>
// Engine
#include <pEp/mime.h>
#include <pEp/keymanagement.h>
#include <pEp/message_api.h>
// local
#include "message.hh"
#include "message_api.hh"
namespace pEp {
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)
throw bad_alloc();
namespace PythonAdapter {
Message::Blob::Blob(::bloblist_t *bl, bool chained)
: _bl(bl),
part_of_chain(chained) {
if (!_bl) {
throw bad_alloc();
}
}
Message::Blob::Blob(bp::object data, string mime_type, string filename)
: _bl(::new_bloblist(nullptr, 0, nullptr, nullptr)),
part_of_chain(false) {
if (!_bl) {
throw bad_alloc();
}
Py_buffer src;
int result = PyObject_GetBuffer(data.ptr(), &src, PyBUF_CONTIG_RO);
if (result) {
throw invalid_argument("need a contiguous buffer to read");
}
char *mem = (char *)malloc(src.len);
if (!mem) {
PyBuffer_Release(&src);
throw bad_alloc();
}
memcpy(mem, src.buf, src.len);
free(_bl->value);
_bl->size = src.len;
_bl->value = mem;
PyBuffer_Release(&src);
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() {
if (!part_of_chain) {
free(_bl->value);
free(_bl);
}
}
string Message::Blob::_repr() {
stringstream build;
build << "Blob(";
if (!_bl) {
build << "b'', '', ''";
} else {
build << "bytes(" << _bl->size << "), ";
string mime_type;
if (_bl->mime_type) {
mime_type = string(_bl->mime_type);
}
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)
throw invalid_argument("need a contiguous buffer to read");
char *mem = (char *) malloc(src.len);
if (!mem) {
PyBuffer_Release(&src);
throw bad_alloc();
}
memcpy(mem, src.buf, src.len);
free(_bl->value);
_bl->size = src.len;
_bl->value = mem;
PyBuffer_Release(&src);
this->mime_type(mime_type);
this->filename(filename);
string filename;
if (_bl->filename) {
filename = string(_bl->filename);
}
Message::Blob::Blob(const Message::Blob &second) :
_bl(second._bl), part_of_chain(true) {
build << repr(mime_type) << ", ";
build << repr(filename);
}
build << ")";
return build.str();
}
int Message::Blob::getbuffer(PyObject *self, Py_buffer *view, int flags) {
::bloblist_t *bl = nullptr;
try {
Message::Blob &blob = bp::extract<Message::Blob &>(self);
bl = blob._bl;
} catch (exception &e) {
PyErr_SetString(PyExc_RuntimeError, "extract not possible");
view->obj = nullptr;
return -1;
}
if (!(bl && bl->value)) {
PyErr_SetString(PyExc_RuntimeError, "no data available");
view->obj = nullptr;
return -1;
}
return PyBuffer_FillInfo(view, self, bl->value, bl->size, 0, flags);
}
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") {
encoding = "pep.sync";
}
Message::Blob::~Blob() {
if (!part_of_chain) {
free(_bl->value);
free(_bl);
}
if (_mime_type == "application/pEp.keyreset") {
encoding = "pep.distribution";
}
string Message::Blob::_repr() {
stringstream build;
build << "Blob(";
if (!_bl) {
build << "b'', '', ''";
} else {
build << "bytes(" << _bl->size << "), ";
string mime_type;
if (_bl->mime_type)
mime_type = string(_bl->mime_type);
string filename;
if (_bl->filename)
filename = string(_bl->filename);
build << repr(mime_type) << ", ";
build << repr(filename);
}
build << ")";
return build.str();
}
}
bp::object codecs = bp::import("codecs");
bp::object _decode = codecs.attr("decode");
return bp::call<string>(_decode.ptr(), this, encoding);
}
int Message::Blob::getbuffer(PyObject *self, Py_buffer *view, int flags) {
bloblist_t *bl = NULL;
PyBufferProcs Message::Blob::bp = {getbuffer, nullptr};
try {
Message::Blob &blob = extract<Message::Blob &>(self);
bl = blob._bl;
}
catch (exception &e) {
PyErr_SetString(PyExc_RuntimeError, "extract not possible");
view->obj = NULL;
return -1;
}
if (!(bl && bl->value)) {
PyErr_SetString(PyExc_RuntimeError, "no data available");
view->obj = NULL;
return -1;
}
Message::Message(int dir, Identity *from)
: _msg(new_message((::PEP_msg_direction)dir), &::free_message) {
if (!_msg) {
throw bad_alloc();
}
return PyBuffer_FillInfo(view, self, bl->value, bl->size, 0, flags);
if (from) {
_msg->from = ::identity_dup(*from);
if (!_msg->from) {
throw bad_alloc();
}
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")
encoding = "pep.sync";
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);
_msg->dir = (::PEP_msg_direction)dir;
}
}
Message::Message(string mimetext)
: _msg(nullptr, &::free_message) {
::message *_cpy;
::PEP_STATUS status = ::mime_decode_message(mimetext.c_str(), mimetext.size(), &_cpy, nullptr);
switch (status) {
case ::PEP_STATUS_OK:
if (_cpy) {
_cpy->dir = ::PEP_dir_outgoing;
} else {
_cpy = new_message(::PEP_dir_outgoing);
}
PyBufferProcs Message::Blob::bp = {getbuffer, NULL};
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)
throw bad_alloc();
_msg->dir = (PEP_msg_direction) dir;
}
if (!_cpy) {
throw bad_alloc();
}
Message::Message(string mimetext)
: _msg(NULL, &free_message) {
message *_cpy;
PEP_STATUS status = mime_decode_message(mimetext.c_str(),
mimetext.size(), &_cpy, NULL);
switch (status) {
case PEP_STATUS_OK:
if (_cpy)
_cpy->dir = PEP_dir_outgoing;
else
_cpy = new_message(PEP_dir_outgoing);
if (!_cpy)
throw bad_alloc();
_msg = shared_ptr<message>(_cpy);
break;
case PEP_BUFFER_TOO_SMALL:
throw runtime_error("mime_decode_message: buffer too small");
case PEP_CANNOT_CREATE_TEMP_FILE:
throw runtime_error("mime_decode_message: cannot create temp file");
case PEP_OUT_OF_MEMORY:
throw bad_alloc();
default:
stringstream build;
build << "mime_decode_message: unknown error (" << (int) status << ")";
throw runtime_error(build.str());
_msg = shared_ptr<::message>(_cpy);
break;
case ::PEP_BUFFER_TOO_SMALL:
throw runtime_error("mime_decode_message: buffer too small");
case ::PEP_CANNOT_CREATE_TEMP_FILE:
throw runtime_error("mime_decode_message: cannot create temp file");
case ::PEP_OUT_OF_MEMORY:
throw bad_alloc();
default:
stringstream build;
build << "mime_decode_message: unknown error (" << (int)status << ")";
throw runtime_error(build.str());
}
}
Message::Message(const Message &second)
: _msg(second._msg) {
if (!_msg.get()) {
throw bad_alloc();
}
}
Message::Message(::message *msg)
: _msg(::message_dup(msg), &::free_message) {}
Message::~Message() {}
Message::operator ::message *() {
return _msg.get();
}
Message::operator const ::message *() const {
return _msg.get();
}
string Message::_str() {
if (!(_msg->from && _msg->from->address && _msg->from->address[0])) {
throw out_of_range(".from_.address missing");
}
char *mimetext;
string result;
::PEP_STATUS status = ::mime_encode_message(*this, false, &mimetext, false);
switch (status) {
case ::PEP_STATUS_OK:
result = mimetext;
free(mimetext);
break;
case ::PEP_BUFFER_TOO_SMALL:
throw runtime_error("mime_encode_message: buffer too small");
case ::PEP_CANNOT_CREATE_TEMP_FILE:
throw runtime_error("mime_encode_message: cannot create temp file");
case ::PEP_OUT_OF_MEMORY:
throw bad_alloc();
default:
stringstream build;
build << "mime_encode_message: unknown error (" << (int)status << ")";
throw runtime_error(build.str());
}
return result;
}
string Message::_repr() {
stringstream build;
build << "Message(" << repr(_str()) << ")";
return build.str();
}
bp::tuple Message::attachments() {
bp::list l;
for (::bloblist_t *bl = _msg->attachments; bl && bl->value; bl = bl->next) {
l.append(Blob(bl, true));
}
return bp::tuple(l);
}
void Message::attachments(bp::list value) {
::bloblist_t *bl = ::new_bloblist(nullptr, 0, nullptr, nullptr);
if (!bl) {
throw bad_alloc();
}
::bloblist_t *_l = bl;
for (int i = 0; i < len(value); i++) {
Message::Blob &blob = bp::extract<Message::Blob &>(value[i]);
_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);
free(_l->filename);
::bloblist_t *_ll = _l;
_l = _l->next;
free(_ll);
}
throw bad_alloc();
}
Message::Message(const Message &second)
: _msg(second._msg) {
if (!_msg.get())
throw bad_alloc();
}
Message::Message(message *msg)
: _msg(::message_dup(msg), &free_message) {
}
Message::~Message() {
}
Message::operator message *() {
return _msg.get();
}
Message::operator const message *() const {
return _msg.get();
}
string Message::_str() {
if (!(_msg->from && _msg->from->address && _msg->from->address[0]))
throw out_of_range(".from_.address missing");
char *mimetext;
string result;
PEP_STATUS status = mime_encode_message(*this, false, &mimetext, false);
switch (status) {
case PEP_STATUS_OK:
result = mimetext;
free(mimetext);
break;
case PEP_BUFFER_TOO_SMALL:
throw runtime_error("mime_encode_message: buffer too small");
case PEP_CANNOT_CREATE_TEMP_FILE:
throw runtime_error("mime_encode_message: cannot create temp file");
case PEP_OUT_OF_MEMORY:
throw bad_alloc();
default:
stringstream build;
build << "mime_encode_message: unknown error (" << (int) status << ")";
throw runtime_error(build.str());
}
return result;
}
string Message::_repr() {
stringstream build;
build << "Message(" << repr(_str()) << ")";
return build.str();
}
boost::python::tuple Message::attachments() {
boost::python::list l;
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) {
bloblist_t *bl = new_bloblist(NULL, 0, NULL, NULL);
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);
if (!_l) {
for (_l = bl; _l && _l->value;) {
free(_l->mime_type);
free(_l->filename);
bloblist_t *_ll = _l;
_l = _l->next;
free(_ll);
}
throw bad_alloc();
}
}
for (int i = 0; i < len(value); i++) {
Message::Blob &blob = extract<Message::Blob &>(value[i]);
blob._bl->value = NULL;
blob._bl->size = 0;
free(blob._bl->mime_type);
blob._bl->mime_type = NULL;
free(blob._bl->filename);
blob._bl->filename = NULL;
}
free_bloblist(_msg->attachments);
_msg->attachments = bl;
}
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)
enc_format = PEP_enc_PGP_MIME;
return encrypt_message(*this, extra, enc_format, 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)
throw invalid_argument("Message.dir must be outgoing");
if (from().address() == "")
throw invalid_argument("from.address needed");
if (from().username() == "")
throw invalid_argument("from.username needed");
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);
PEP_rating rating = PEP_rating_undefined;
status = outgoing_message_rating(Adapter::session(), *this, &rating);
_throw_status(status);
return rating;
}
PEP_color Message::outgoing_color() {
return _color(outgoing_rating());
}
Message Message::copy() {
message *dup = message_dup(*this);
if (!dup)
throw bad_alloc();
return Message(dup);
}
Message Message::deepcopy(dict &) {
return copy();
}
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())
throw runtime_error("at least address needed");
update_identity(Adapter::session(), ident);
return object(ident);
}
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) {
auto m = Message(mime_text);
m.dir(PEP_dir_incoming);
try {
m.from(update(m.from()));
}
catch (out_of_range &) {}
try {
m.recv_by(update(m.recv_by()));
}
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
}
for (int i = 0; i < len(value); i++) {
Message::Blob &blob = bp::extract<Message::Blob &>(value[i]);
blob._bl->value = nullptr;
blob._bl->size = 0;
free(blob._bl->mime_type);
blob._bl->mime_type = nullptr;
free(blob._bl->filename);
blob._bl->filename = nullptr;
}
free_bloblist(_msg->attachments);
_msg->attachments = bl;
}
Message Message::encrypt() {
bp::list extra;
return encrypt_message(*this, extra, ::PEP_enc_PGP_MIME, 0);
}
Message Message::_encrypt(bp::list extra, int enc_format, int flags) {
if (!enc_format) {
enc_format = ::PEP_enc_PGP_MIME;
}
return encrypt_message(*this, extra, enc_format, flags);
}
bp::tuple Message::decrypt(int flags) {
return pEp::PythonAdapter::decrypt_message(*this, flags);
}
::PEP_rating Message::outgoing_rating() {
if (_msg->dir != ::PEP_dir_outgoing) {
throw invalid_argument("Message.dir must be outgoing");
}
if (from().address() == "") {
throw invalid_argument("from.address needed");
}
if (from().username() == "") {
throw invalid_argument("from.username needed");
}
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);
::PEP_rating rating = ::PEP_rating_undefined;
status = outgoing_message_rating(Adapter::session(), *this, &rating);
_throw_status(status);
return rating;
}
::PEP_color Message::outgoing_color() {
return _color(outgoing_rating());
}
Message Message::copy() {
::message *dup = ::message_dup(*this);
if (!dup) {
throw bad_alloc();
}
return Message(dup);
}
Message Message::deepcopy(bp::dict &) {
return copy();
}
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 bp::object update(Identity ident) {
if (ident.address().empty()) {
throw runtime_error("at least address needed");
}
::update_identity(Adapter::session(), ident);
return bp::object(ident);
}
static bp::list update(bp::list il) {
for (int i = 0; i < len(il); i++) {
update(bp::extract<Identity>(il[i]));
}
return il;
}
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 &) {
}
try {
m.recv_by(update(m.recv_by()));
} 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 pEp

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@ -4,191 +4,176 @@
#ifndef MESSAGE_HH
#define MESSAGE_HH
// System
#include <string>
#include <boost/python.hpp>
#include <boost/lexical_cast.hpp>
// Engine
#include <pEp/message.h>
#include <pEp/message_api.h>
// local
#include "adapter_main.hh"
#include "str_attr.hh"
#include "identity.hh"
namespace pEp {
namespace PythonAdapter {
using std::string;
using std::runtime_error;
using std::invalid_argument;
using boost::lexical_cast;
namespace PythonAdapter {
// Message is owning a message struct
class Message {
shared_ptr<::message> _msg;
class Message {
shared_ptr<::message> _msg;
public:
// Blob is owning a bloblist_t struct - or not and just managing
// one depending on part_of_chain
public:
// Blob is owning a bloblist_t struct - or not and just managing
// one depending on part_of_chain
class Blob {
bloblist_t *_bl;
bool part_of_chain;
class Blob {
::bloblist_t *_bl;
bool part_of_chain;
public:
Blob(bloblist_t *bl = new_bloblist(NULL, 0, NULL, NULL),
bool chained = false);
public:
Blob(::bloblist_t *bl = ::new_bloblist(nullptr, 0, nullptr, nullptr), bool chained = false);
Blob(object data, string mime_type = "", string filename = "");
Blob(bp::object data, string mime_type = "", string filename = "");
Blob(const Blob &second);
Blob(const Blob &second);
~Blob();
~Blob();
string _repr();
string _repr();
string mime_type() { return _bl ? str_attr(_bl->mime_type) : ""; }
string mime_type() { return _bl ? str_attr(_bl->mime_type) : ""; }
void mime_type(string value) { str_attr(_bl->mime_type, value); }
void mime_type(string value) { str_attr(_bl->mime_type, value); }
string filename() { return str_attr(_bl->filename); }
string filename() { return str_attr(_bl->filename); }
void filename(string value) { str_attr(_bl->filename, value); }
void filename(string value) { str_attr(_bl->filename, value); }
size_t size() { return _bl->size; }
size_t size() { return _bl->size; }
string decode(string encoding);
string decode(string encoding);
string decode() { return decode(""); }
string decode() { return decode(""); }
static PyBufferProcs bp;
static PyBufferProcs bp;
friend class Message;
friend class Message;
protected:
static int getbuffer(PyObject *self, Py_buffer *view, int flags);
};
protected:
static int getbuffer(PyObject *self, Py_buffer *view, int flags);
};
Message(int dir = PEP_dir_outgoing, Identity *from = NULL);
Message(int dir = ::PEP_dir_outgoing, Identity *from = nullptr);
Message(string mimetext);
Message(string mimetext);
Message(const Message &second);
Message(const Message &second);
Message(message *msg);
Message(::message *msg);
~Message();
~Message();
operator message *();
operator ::message *();
operator const message *() const;
operator const ::message *() const;
string _str();
string _str();
string _repr();
string _repr();
PEP_msg_direction dir() { return _msg->dir; }
::PEP_msg_direction dir() { return _msg->dir; }
void dir(PEP_msg_direction value) { _msg->dir = value; }
void dir(::PEP_msg_direction value) { _msg->dir = value; }
string id() { return str_attr(_msg->id); }
string id() { return str_attr(_msg->id); }
void id(string value) { str_attr(_msg->id, value); }
void id(string value) { str_attr(_msg->id, value); }
string shortmsg() { return str_attr(_msg->shortmsg); }
string shortmsg() { return str_attr(_msg->shortmsg); }
void shortmsg(string value) { str_attr(_msg->shortmsg, value); }
void shortmsg(string value) { str_attr(_msg->shortmsg, value); }
string longmsg() { return str_attr(_msg->longmsg); }
string longmsg() { return str_attr(_msg->longmsg); }
void longmsg(string value) { str_attr(_msg->longmsg, value); }
void longmsg(string value) { str_attr(_msg->longmsg, value); }
string longmsg_formatted() { return str_attr(_msg->longmsg_formatted); }
string longmsg_formatted() { return str_attr(_msg->longmsg_formatted); }
void longmsg_formatted(string value) { str_attr(_msg->longmsg_formatted, value); }
void longmsg_formatted(string value) { str_attr(_msg->longmsg_formatted, value); }
boost::python::tuple attachments();
bp::tuple attachments();
void attachments(boost::python::list value);
void attachments(bp::list value);
time_t sent() { return timestamp_attr(_msg->sent); }
time_t sent() { return timestamp_attr(_msg->sent); }
void sent(time_t value) { timestamp_attr(_msg->sent, value); }
void sent(time_t value) { timestamp_attr(_msg->sent, value); }
time_t recv() { return timestamp_attr(_msg->recv); }
time_t recv() { return timestamp_attr(_msg->recv); }
void recv(time_t value) { timestamp_attr(_msg->recv, value); }
void recv(time_t value) { timestamp_attr(_msg->recv, value); }
Identity from() { return identity_attr(_msg->from); }
Identity from() { return identity_attr(_msg->from); }
void from(object value) { identity_attr(_msg->from, value); }
void from(bp::object value) { identity_attr(_msg->from, value); }
boost::python::list to() { return identitylist_attr(_msg->to); }
bp::list to() { return identitylist_attr(_msg->to); }
void to(boost::python::list value) { identitylist_attr(_msg->to, value); }
void to(bp::list value) { identitylist_attr(_msg->to, value); }
Identity recv_by() { return identity_attr(_msg->recv_by); }
Identity recv_by() { return identity_attr(_msg->recv_by); }
void recv_by(object value) { identity_attr(_msg->recv_by, value); }
void recv_by(bp::object value) { identity_attr(_msg->recv_by, value); }
boost::python::list cc() { return identitylist_attr(_msg->cc); }
bp::list cc() { return identitylist_attr(_msg->cc); }
void cc(boost::python::list value) { identitylist_attr(_msg->cc, value); }
void cc(bp::list value) { identitylist_attr(_msg->cc, value); }
boost::python::list bcc() { return identitylist_attr(_msg->bcc); }
bp::list bcc() { return identitylist_attr(_msg->bcc); }
void bcc(boost::python::list value) { identitylist_attr(_msg->bcc, value); }
void bcc(bp::list value) { identitylist_attr(_msg->bcc, value); }
boost::python::list reply_to() { return identitylist_attr(_msg->reply_to); }
bp::list reply_to() { return identitylist_attr(_msg->reply_to); }
void reply_to(boost::python::list value) { identitylist_attr(_msg->reply_to, value); }
void reply_to(bp::list value) { identitylist_attr(_msg->reply_to, value); }
boost::python::list in_reply_to() { return strlist_attr(_msg->in_reply_to); }
bp::list in_reply_to() { return strlist_attr(_msg->in_reply_to); }
void in_reply_to(boost::python::list value) { strlist_attr(_msg->in_reply_to, value); }
void in_reply_to(bp::list value) { strlist_attr(_msg->in_reply_to, value); }
boost::python::list references() { return strlist_attr(_msg->references); }
bp::list references() { return strlist_attr(_msg->references); }
void references(boost::python::list value) { strlist_attr(_msg->references, value); }
void references(bp::list value) { strlist_attr(_msg->references, value); }
boost::python::list keywords() { return strlist_attr(_msg->keywords); }
bp::list keywords() { return strlist_attr(_msg->keywords); }
void keywords(boost::python::list value) { strlist_attr(_msg->keywords, value); }
void keywords(bp::list value) { strlist_attr(_msg->keywords, value); }
string comments() { return str_attr(_msg->comments); }
string comments() { return str_attr(_msg->comments); }
void comments(string value) { str_attr(_msg->comments, value); }
void comments(string value) { str_attr(_msg->comments, value); }
dict opt_fields() { return strdict_attr(_msg->opt_fields); }
bp::dict opt_fields() { return strdict_attr(_msg->opt_fields); }
void opt_fields(dict value) { return strdict_attr(_msg->opt_fields, value); }
void opt_fields(bp::dict value) { return strdict_attr(_msg->opt_fields, value); }
PEP_enc_format enc_format() { return _msg->enc_format; }
::PEP_enc_format enc_format() { return _msg->enc_format; }
void enc_format(PEP_enc_format value) { _msg->enc_format = value; }
void enc_format(::PEP_enc_format value) { _msg->enc_format = value; }
Message encrypt();
Message encrypt();
Message _encrypt(boost::python::list extra, int enc_format = 4, int flags = 0);
Message _encrypt(bp::list extra, int enc_format = 4, int flags = 0);
boost::python::tuple decrypt(int flags = 0);
bp::tuple decrypt(int flags = 0);
PEP_rating outgoing_rating();
::PEP_rating outgoing_rating();
PEP_color outgoing_color();
::PEP_color outgoing_color();
Message deepcopy(dict &memo);
Message deepcopy(bp::dict &memo);
Message copy();
};
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 */

305
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@ -1,161 +1,158 @@
// This file is under GNU Affero General Public License 3.0
// see LICENSE.txt
// Engine
#include <pEp/pEpEngine.h>
#include <pEp/message_api.h>
#include <pEp/sync_api.h>
#include <pEp/sync_codec.h>
#include <pEp/distribution_codec.h>
// local
#include "message_api.hh"
#include "basic_api.hh"
namespace pEp {
namespace PythonAdapter {
using namespace std;
using namespace boost::python;
Message encrypt_message(Message src, boost::python::list extra, int enc_format, int flags) {
Identity _from = src.from();
if (_from.address() == "")
throw invalid_argument("encrypt_message: src.from_.address empty");
if (_from.username() == "")
throw invalid_argument("encrypt_message: src.from_.username empty");
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;
message *_dst = NULL;
message *_src = src;
PEP_STATUS status = encrypt_message(Adapter::session(), _src, _extra, &_dst,
_enc_format, _flags);
free_stringlist(_extra);
_throw_status(status);
if (!_dst || _dst == _src)
return Message(_src);
return Message(_dst);
}
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;
message *_src = src;
PEP_STATUS status = ::decrypt_message(Adapter::session(), _src, &_dst, &_keylist,
&_rating, &_flags);
_throw_status(status);
boost::python::list keylist;
if (_keylist) {
keylist = from_stringlist(_keylist);
free_stringlist(_keylist);
}
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);
}
boost::python::tuple sync_decode(object buffer) {
Py_buffer src;
int result = PyObject_GetBuffer(buffer.ptr(), &src, PyBUF_CONTIG_RO);
if (result)
throw invalid_argument("need a contiguous buffer to read");
char *dst = NULL;
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) {
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);
free(data);
if (!ba)
throw bad_alloc();
return boost::python::make_tuple(object(handle<>(ba)), 0);
}
boost::python::tuple Distribution_decode(object buffer) {
Py_buffer src;
int result = PyObject_GetBuffer(buffer.ptr(), &src, PyBUF_CONTIG_RO);
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);
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) {
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);
free(data);
if (!ba)
throw bad_alloc();
return boost::python::make_tuple(object(handle<>(ba)), 0);
}
object sync_search(string name) {
if (name != "pep.sync") {
return object();
} else {
object codecs = import("codecs");
object CodecInfo = codecs.attr("CodecInfo");
object _sync_decode = make_function(sync_decode);
object _sync_encode = make_function(sync_encode);
return call<object>(CodecInfo.ptr(), _sync_encode, _sync_decode);
}
}
object distribution_search(string name) {
if (name != "pep.distribution") {
return object();
} else {
object codecs = import("codecs");
object CodecInfo = codecs.attr("CodecInfo");
object _distribution_decode = make_function(Distribution_decode);
object _distribution_encode = make_function(Distribution_encode);
return call<object>(CodecInfo.ptr(), _distribution_encode, _distribution_decode);
}
}
} // namespace PythonAdapter
} // namespace pEp {
namespace PythonAdapter {
Message encrypt_message(Message src, bp::list extra, int enc_format, int flags) {
Identity _from = src.from();
if (_from.address() == "") {
throw invalid_argument("encrypt_message: src.from_.address empty");
}
if (_from.username() == "") {
throw invalid_argument("encrypt_message: src.from_.username empty");
}
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;
::message *_dst = nullptr;
::message *_src = src;
::PEP_STATUS status = ::encrypt_message(Adapter::session(), _src, _extra, &_dst, _enc_format, _flags);
::free_stringlist(_extra);
_throw_status(status);
if (!_dst || _dst == _src) {
return Message(_src);
}
return Message(_dst);
}
bp::tuple decrypt_message(Message src, int flags) {
::message *_dst = nullptr;
::stringlist_t *_keylist = nullptr;
::PEP_rating _rating = ::PEP_rating_undefined;
::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);
_throw_status(status);
bp::list keylist;
if (_keylist) {
keylist = from_stringlist(_keylist);
::free_stringlist(_keylist);
}
Message dst = _dst ? Message(_dst) : Message(src);
return bp::make_tuple(dst, keylist, _rating, _flags);
}
::PEP_color _color(int rating) {
return ::color_from_rating((::PEP_rating)rating);
}
bp::tuple sync_decode(bp::object buffer) {
Py_buffer src;
int result = PyObject_GetBuffer(buffer.ptr(), &src, PyBUF_CONTIG_RO);
if (result) {
throw invalid_argument("need a contiguous buffer to read");
}
char *dst = nullptr;
::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 bp::make_tuple(_dst, 0);
}
static bp::tuple sync_encode(string text) {
char *data = nullptr;
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);
free(data);
if (!ba) {
throw bad_alloc();
}
return bp::make_tuple(bp::object(bp::handle<>(ba)), 0);
}
bp::tuple Distribution_decode(bp::object buffer) {
Py_buffer src;
int result = PyObject_GetBuffer(buffer.ptr(), &src, PyBUF_CONTIG_RO);
if (result) {
throw invalid_argument("need a contiguous buffer to read");
}
char *dst = nullptr;
::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 bp::make_tuple(_dst, 0);
}
static bp::tuple Distribution_encode(string text) {
char *data = nullptr;
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);
free(data);
if (!ba) {
throw bad_alloc();
}
return bp::make_tuple(bp::object(bp::handle<>(ba)), 0);
}
bp::object sync_search(string name) {
if (name != "pep.sync") {
return bp::object();
} else {
bp::object codecs = bp::import("codecs");
bp::object CodecInfo = codecs.attr("CodecInfo");
bp::object _sync_decode = make_function(sync_decode);
bp::object _sync_encode = make_function(sync_encode);
return bp::call<bp::object>(CodecInfo.ptr(), _sync_encode, _sync_decode);
}
}
bp::object distribution_search(string name) {
if (name != "pep.distribution") {
return bp::object();
} else {
bp::object codecs = bp::import("codecs");
bp::object CodecInfo = codecs.attr("CodecInfo");
bp::object _distribution_decode = make_function(Distribution_decode);
bp::object _distribution_encode = make_function(Distribution_encode);
return bp::call<bp::object>(CodecInfo.ptr(), _distribution_encode, _distribution_decode);
}
}
} // namespace PythonAdapter
} // namespace pEp

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@ -4,27 +4,23 @@
#ifndef MESSAGE_API_HH
#define MESSAGE_API_HH
#include "pEpmodule.hh"
#include "adapter_main.hh"
#include "message.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, bp::list extra = bp::list(), int enc_format = 4, int flags = 0);
boost::python::tuple decrypt_message(Message src, int flags = 0);
bp::tuple decrypt_message(Message src, int flags = 0);
PEP_color _color(int rating);
::PEP_color _color(int rating);
object sync_search(string name);
bp::object sync_search(string name);
object distribution_search(string name);
bp::object distribution_search(string name);
} /* namespace PythonAdapter */
} /* namespace PythonAdapter */
} /* namespace pEp */
#endif /* MESSAGE_API_HH */

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24
src/pEp/_pEp/pEpmodule.hh
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@ -4,32 +4,12 @@
#ifndef PEPMODULE_HH
#define PEPMODULE_HH
// Engine
#include <pEp/pEpEngine.h>
// local
#include "message.hh"
namespace pEp {
namespace PythonAdapter {
extern string device_name;
void config_passive_mode(bool enable);
void config_unencrypted_subject(bool enable);
void key_reset_user(string user_id, string fpr);
void key_reset_all_own_keys();
void _throw_status(PEP_STATUS status);
PEP_STATUS _messageToSend(::message *msg);
namespace PythonAdapter {
PEP_STATUS notifyHandshake(pEp_identity *me, pEp_identity *partner, sync_handshake_signal signal);
} /* namespace PythonAdapter */
} /* namespace PythonAdapter */
} /* namespace pEp */
#endif /* PEPMODULE_HH */

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src/pEp/_pEp/str_attr.cc
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@ -1,172 +1,172 @@
// This file is under GNU Affero General Public License 3.0
// see LICENSE.txt
// System
#include <cstdlib>
#include <boost/python.hpp>
#include <boost/locale.hpp>
// local
#include "str_attr.hh"
namespace pEp {
namespace PythonAdapter {
using namespace std;
using namespace boost::python;
using namespace boost::locale;
object repr(object s) {
return s.attr("__repr__")();
namespace PythonAdapter {
bp::object repr(bp::object s) {
return s.attr("__repr__")();
}
string repr(const string &s) {
bp::str _s = s.c_str();
bp::object _r = _s.attr("__repr__")();
string r = bp::extract<string>(_r);
return r;
}
string str_attr(char *&str) {
if (!str) {
return string("");
}
return string(str);
}
void str_attr(char *&str, const string &value) {
string normalized = normalize(value, bl::norm_nfc);
free(str);
str = strdup(normalized.c_str());
if (!str) {
throw bad_alloc();
}
}
time_t timestamp_attr(::timestamp *&ts) {
if (!ts) {
return 0;
}
return timegm(ts);
}
void timestamp_attr(::timestamp *&ts, time_t value) {
free_timestamp(ts);
ts = ::new_timestamp(value);
}
bp::list strlist_attr(::stringlist_t *&sl) {
bp::list result;
for (const ::stringlist_t *_sl = sl; _sl && _sl->value; _sl = _sl->next) {
string s(_sl->value);
result.append(bp::object(s));
}
return result;
}
void strlist_attr(::stringlist_t *&sl, bp::list value) {
::stringlist_t *_sl = ::new_stringlist(NULL);
if (!_sl) {
throw bad_alloc();
}
::stringlist_t *_s = _sl;
for (int i = 0; i < len(value); i++) {
bp::extract<string> extract_string(value[i]);
if (!extract_string.check()) {
free_stringlist(_sl);
}
string repr(string s) {
str _s = s.c_str();
object _r = _s.attr("__repr__")();
string r = extract<string>(_r);
return r;
string s = extract_string();
s = normalize(s, bl::norm_nfc);
_s = stringlist_add(_s, s.c_str());
if (!_s) {
free_stringlist(_sl);
throw bad_alloc();
}
}
string str_attr(char *&str) {
if (!str)
return string("");
return string(str);
}
free_stringlist(sl);
sl = _sl;
}
void str_attr(char *&str, string value) {
string normalized = normalize(value, norm_nfc);
free(str);
str = strdup(normalized.c_str());
if (!str)
throw bad_alloc();
}
bp::dict strdict_attr(::stringpair_list_t *&spl) {
bp::dict result;
time_t timestamp_attr(timestamp *&ts) {
if (!ts)
return 0;
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);
string value(p->value);
return timegm(ts);
result[key] = value;
}
}
void timestamp_attr(timestamp *&ts, time_t value) {
free_timestamp(ts);
ts = new_timestamp(value);
}
return result;
}
boost::python::list strlist_attr(stringlist_t *&sl) {
boost::python::list result;
void strdict_attr(::stringpair_list_t *&spl, bp::dict value) {
::stringpair_list_t *_spl = ::new_stringpair_list(nullptr);
if (!_spl) {
throw bad_alloc();
}
for (stringlist_t *_sl = sl; _sl && _sl->value; _sl = _sl->next) {
string s(_sl->value);
result.append(object(s));
}
::stringpair_list_t *_s = _spl;
for (int i = 0; i < len(value); i++) {
bp::extract<string> extract_key(value.keys()[i]);
bp::extract<string> extract_value(value.values()[i]);
return result;
if (!(extract_key.check() && extract_value.check())) {
free_stringpair_list(_spl);
}
void strlist_attr(stringlist_t *&sl, boost::python::list value) {
stringlist_t *_sl = new_stringlist(NULL);
if (!_sl)
throw bad_alloc();
stringlist_t *_s = _sl;
for (int i = 0; i < len(value); i++) {
extract <string> extract_string(value[i]);
if (!extract_string.check()) {
free_stringlist(_sl);
}
string s = extract_string();
s = normalize(s, norm_nfc);
_s = stringlist_add(_s, s.c_str());
if (!_s) {
free_stringlist(_sl);
throw bad_alloc();
}
}
free_stringlist(sl);
sl = _sl;
string key = extract_key();
key = normalize(key, bl::norm_nfc);
string _value = extract_value();
_value = normalize(_value, bl::norm_nfc);
::stringpair_t *pair = ::new_stringpair(key.c_str(), _value.c_str());
if (!pair) {
free_stringpair_list(_spl);
throw bad_alloc();
}
dict strdict_attr(stringpair_list_t *&spl) {
dict result;
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);
string value(p->value);
result[key] = value;
}
}
return result;
_s = stringpair_list_add(_s, pair);
if (!_s) {
free_stringpair_list(_spl);
throw bad_alloc();
}
void strdict_attr(stringpair_list_t *&spl, dict value) {
stringpair_list_t *_spl = new_stringpair_list(NULL);
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]);
if (!(extract_key.check() && extract_value.check()))
free_stringpair_list(_spl);
string key = extract_key();
key = normalize(key, norm_nfc);
string _value = extract_value();
_value = normalize(_value, norm_nfc);
stringpair_t *pair = new_stringpair(key.c_str(), _value.c_str());
if (!pair) {
free_stringpair_list(_spl);
throw bad_alloc();
}
_s = stringpair_list_add(_s, pair);
if (!_s) {
free_stringpair_list(_spl);
throw bad_alloc();
}
}
free_stringpair_list(spl);
spl = _spl;
}
free_stringpair_list(spl);
spl = _spl;
}
::stringlist_t *to_stringlist(bp::list l) {
::stringlist_t *result = ::new_stringlist(nullptr);
if (!result) {
throw bad_alloc();
}
::stringlist_t *_s = result;
for (int i = 0; i < len(l); i++) {
bp::extract<string> extract_string(l[i]);
if (!extract_string.check()) {
free_stringlist(result);
}
stringlist_t *to_stringlist(boost::python::list l) {
stringlist_t *result = new_stringlist(NULL);
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())
free_stringlist(result);
string s = extract_string();
_s = stringlist_add(_s, s.c_str());
if (!_s) {
free_stringlist(result);
throw bad_alloc();
}
}
return result;
string s = extract_string();
_s = stringlist_add(_s, s.c_str());
if (!_s) {
free_stringlist(result);
throw bad_alloc();
}
}
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;
}
return result;
}
bp::list from_stringlist(const ::stringlist_t *sl) {
bp::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 {

40
src/pEp/_pEp/str_attr.hh
View File

@ -4,38 +4,34 @@
#ifndef STR_ATTR_HH
#define STR_ATTR_HH
// System
#include <string>
// Engine
#include <pEp/pEpEngine.h>
#include <pEp/timestamp.h>
#include <pEp/stringlist.h>
#include <pEp/stringpair.h>
#include "adapter_main.hh"
namespace pEp {
namespace PythonAdapter {
using std::string;
using boost::python::object;
using boost::python::dict;
object repr(object s);
string repr(string s);
bp::object repr(bp::object s);
string repr(const 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);
void str_attr(char *&str, const string &value);
time_t timestamp_attr(::timestamp *&ts);
void timestamp_attr(::timestamp *&ts, time_t value);
bp::list strlist_attr(::stringlist_t *&sl);
void strlist_attr(::stringlist_t *&sl, bp::list value);
bp::dict strdict_attr(::stringpair_list_t *&spl);
boost::python::list strlist_attr(stringlist_t *&sl);
void strlist_attr(stringlist_t *&sl, boost::python::list value);
void strdict_attr(::stringpair_list_t *&spl, bp::dict value);
dict strdict_attr(stringpair_list_t *&spl);
void strdict_attr(stringpair_list_t *&spl, dict value);
::stringlist_t *to_stringlist(bp::list l);
stringlist_t *to_stringlist(boost::python::list l);
boost::python::list from_stringlist(const stringlist_t *sl);
bp::list from_stringlist(const ::stringlist_t *sl);
} /* namespace PythonAdapter */
} /* namespace pEp */

144
src/pEp/_pEp/user_interface.cc
View File

@ -1,88 +1,83 @@
// This file is under GNU Affero General Public License 3.0
// see LICENSE.txt
// System
#include <cassert>
// local
#include "user_interface.hh"
namespace pEp {
namespace PythonAdapter {
using namespace std;
using namespace boost::python;
UserInterface *UserInterface::_ui = nullptr;
UserInterface::UserInterface() {
if (_ui)
throw runtime_error("only one UserInterface thread allowed");
_ui = this;
}
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))
return PEP_ILLEGAL_VALUE;
auto that = dynamic_cast< UserInterface_callback * >(_ui);
that->notifyHandshake(Identity(me), Identity(partner), signal);
return PEP_STATUS_OK;
namespace pEp {
namespace PythonAdapter {
UserInterface *UserInterface::_ui = nullptr;
UserInterface::UserInterface() {
if (_ui) {
throw runtime_error("only one UserInterface thread allowed");
}
_ui = this;
}
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)) {
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, bp::object identities) {
identity_list *shared_identities = nullptr;
if (identities != bp::api::object() && bp::len(identities)) {
shared_identities = new_identity_list(nullptr);
if (!shared_identities) {
throw bad_alloc();
}
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)
try {
identity_list *si = shared_identities;
for (int i = 0; i < bp::len(identities); ++i) {
Identity ident = bp::extract<Identity>(identities[i]);
si = identity_list_add(si, ident);
if (!si) {
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)
throw bad_alloc();
}
}
catch (exception &ex) {
free_identity_list(shared_identities);
throw ex;
}
}
PEP_STATUS status = ::deliverHandshakeResult(Adapter::session(),
(sync_handshake_result) result, shared_identities);
} catch (exception &ex) {
free_identity_list(shared_identities);
_throw_status(status);
throw ex;
}
}
::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)
//{
// PEP_rating result;
// PEP_STATUS status =
// ::PEP_STATUS status =
// ::get_key_rating_for_user(Adapter::session(),
// user_id.c_str(), fpr.c_str(), &result);
// _throw_status(status);
@ -104,7 +99,7 @@ namespace pEp {
// }
// i = 0;
// }
// nanosleep((const struct timespec[]){{0, 100000000L}}, NULL);
// nanosleep((const struct timespec[]){{0, 100000000L}}, nullptr);
// }
//
// if (timeout)
@ -113,11 +108,10 @@ namespace pEp {
// return adapter.queue().pop_front();
//}
void UserInterface_callback::notifyHandshake(
Identity me, Identity partner, sync_handshake_signal signal) {
call_method<void>(_self, "notifyHandshake", me, partner, signal);
}
void UserInterface_callback::notifyHandshake(Identity me, Identity partner, sync_handshake_signal signal) {
bp::call_method<void>(_self, "notifyHandshake", me, partner, signal);
}
} // namespace PythonAdapter
} // namespace pEp {
} // namespace PythonAdapter
} // namespace pEp

64
src/pEp/_pEp/user_interface.hh
View File

@ -4,57 +4,41 @@
#ifndef USER_INTERFACE_HH
#define USER_INTERFACE_HH
// System
#include <csetjmp>
// Engine
#include <pEp/sync_api.h>
#include <pEp/message_api.h>
// local
#include "pEpmodule.hh"
#include "adapter_main.hh"
#include "identity.hh"
namespace pEp {
namespace PythonAdapter {
namespace PythonAdapter {
class UserInterface {
static UserInterface *_ui;
public:
UserInterface();
class UserInterface {
static UserInterface *_ui;
public:
UserInterface();
virtual ~UserInterface();
virtual ~UserInterface();
virtual void notifyHandshake(
Identity me,
Identity partner,
sync_handshake_signal signal) {
throw runtime_error("override this method");
}
virtual void notifyHandshake(Identity me, Identity partner, ::sync_handshake_signal signal) {
throw runtime_error("override this method");
}
virtual void deliverHandshakeResult(int result, object identities);
virtual void deliverHandshakeResult(int result, bp::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);
};
protected:
static ::PEP_STATUS _notifyHandshake(::pEp_identity *me, ::pEp_identity *partner, ::sync_handshake_signal signal);
};
class UserInterface_callback : public UserInterface {
PyObject *_self;
public:
UserInterface_callback(PyObject *self);
class UserInterface_callback : public UserInterface {
PyObject *_self;
public:
UserInterface_callback(PyObject *self);
~UserInterface_callback();
~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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