C++11 library providing functionality common to all adapters.
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#include <pEp/pitytest11/PityTest.hh>
#include "../src/utils.hh"
#include "framework/framework.hh"
#include <pEp/pitytest11/test_utils.hh>
// libpEpAdapter
#include "../src/Adapter.hh"
#include "../src/group_manager_api.h"
#include "../src/pEpLog.hh"
#include "../src/status_to_string.hh"
#include "../src/grp_driver_replicator.hh"
// engine
#include <pEp/pEpEngine.h>
#include <pEp/message_api.h>
#include <pEp/keymanagement.h>
#include <pEp/identity_list.h>
#include <pEp/mime.h>
using namespace pEp;
using namespace pEp::Adapter;
using namespace pEp::Test::Utils;
using namespace pEp::PityTest11;
using namespace pEp::Adapter::pEpLog;
using TextContext = PityPerspective;
using TestUnitSwarm = PityUnit<TextContext>;
TextContext *local_ctx;
PityUnit<TextContext> *local_pity;
// Either group manager or group member, not both
pEpIdent group_ident;
bool grp_did_tx_encrypted = false;
bool grp_did_rx_encrypted = false;
bool signal_received = false;
// The most minimal received msg contains of:
// * from address
// * content
using MinMsgRx = std::tuple<std::string, std::string>;
// CALLBACKS
// ------------------------------------------------------------------------------------------------
::PEP_STATUS test_messageToSend(::message *_msg)
{
local_pity->log("MESSAGE TO SEND:" + Utils::to_string(_msg, false));
std::string mime_text = mimeEncode(wrap(_msg));
local_pity->transport()->sendMsg(_msg->to->ident->address, mime_text);
return PEP_STATUS_OK;
}
::PEP_STATUS test_notifyHandshake(::pEp_identity *me, ::pEp_identity *partner, sync_handshake_signal signal)
{
local_pity->log("NOTFY_HANDSHAKE: signal: " + std::string(std::to_string(signal)));
local_pity->log("NOTFY_HANDSHAKE: me:" + Utils::to_string(me, false));
local_pity->log("NOTFY_HANDSHAKE: partner: " + Utils::to_string(partner, false));
if (signal == ::SYNC_NOTIFY_GROUP_INVITATION) {
signal_received = true;
group_ident = dup(me);
local_pity->log("SYNC_NOTIFY_GROUP_INVITATION");
PEP_STATUS status = ::adapter_group_join(
Adapter::session(),
group_ident.get(),
local_ctx->own_ident.get());
throw_status(status);
}
return PEP_STATUS_OK;
}
// HELPERS
// ------------------------------------------------------------------------------------------------
// Blocking
void processMessage()
{
local_pity->log("waiting for message...");
std::string mime_data_rx = local_pity->transport()->receiveMsg();
// local_pity->log("mime_text:" + Utils::clip(mime_data_rx, 300));
// Decode
pEpMessage rx_msg = mimeDecode(mime_data_rx);
// local_pity->log("decode: " + Utils::to_string(rx_msg.get(), false));
// Decrypt
::PEP_decrypt_flags_t flags = ::PEP_decrypt_flag_dont_trigger_sync;
// ::PEP_decrypt_flags_t flags = 0;
DecryptResult decres = decryptMessage(rx_msg, &flags);
pEpMessage msg_decrypt = std::get<0>(decres);
// local_pity->log("Decrypt: " + Utils::to_string(msg_decrypt.get(), false));
local_pity->log("message processed...");
}
// Non-Blocking
void processsAllMessages()
{
while (local_pity->transport()->hasMsg()) {
Utils::sleep_millis(100);
processMessage();
}
}
void tofu_send(TestUnitSwarm &pity, TextContext *ctx, const std::string &addr, const std::string longmessage)
{
pEpMessage msg = createMessage(ctx->own_ident, addr, longmessage);
EncryptResult msg_enc = encryptAndEncode(msg);
std::string mime_text = std::get<1>(msg_enc);
ctx->getPeer(addr)->did_tx_encrypted = std::get<2>(msg_enc);
pity.log("Sending Encrypted[" + std::to_string(std::get<2>(msg_enc)) + "] to: " + addr);
pity.transport()->sendMsg(addr, mime_text);
}
MinMsgRx tofu_receive(TestUnitSwarm &pity, TextContext *ctx)
{
MinMsgRx ret;
const std::string mime_data_rx = pity.transport()->receiveMsg();
DecryptResult msg_rx = decryptAndDecode(mime_data_rx);
pEpMessage msg_rx_dec = std::get<0>(msg_rx);
ctx->getPeer(msg_rx_dec->from->address)->did_rx_encrypted = std::get<4>(msg_rx);
pity.log(
"Received Encrypted[" + std::to_string(std::get<4>(msg_rx)) +
"] from: " + std::string(msg_rx_dec->from->address));
// pity.log("IN:\n " + Utils::to_string(mimeDecode(mime_data_rx).get(), false));
pity.log("DECRYPTED:\n " + Utils::to_string(msg_rx_dec.get(), false));
std::get<0>(ret) = std::string(msg_rx_dec->from->address);
std::get<1>(ret) = std::string(msg_rx_dec->longmsg);
return ret;
}
void tofu_receiveAndReply(TestUnitSwarm &pity, TextContext *ctx)
{
MinMsgRx rx_msg = tofu_receive(pity, ctx);
std::string addr = std::get<0>(rx_msg);
std::string longmsg_orig = std::get<1>(rx_msg);
pEpMessage msg = createMessage(
ctx->own_ident,
addr,
"REPLY_FROM:'" + std::string(addr) + "' - " + longmsg_orig);
tofu_send(pity, ctx, addr, "REPLY_FROM:'" + std::string(addr) + "' - " + longmsg_orig);
}
// TESTUNITS
// ------------------------------------------------------------------------------------------------
int test_pEp_init(TestUnitSwarm &pity, TextContext *ctx)
{
local_ctx = ctx;
local_pity = &pity;
pity.log("Model : " + ctx->model.getName());
pity.log("myself : " + ctx->own_name);
pity.log("partner: " + ctx->getCpt().addr);
pity.log("HOME : " + std::string(getenv("HOME")));
pity.log("PUD : " + std::string(::per_user_directory()));
pity.log("PMD : " + std::string(::per_machine_directory()));
pEp::Adapter::session.initialize(
pEp::Adapter::SyncModes::Async,
false,
test_messageToSend,
test_notifyHandshake);
return 0;
}
int test_create_myself(TestUnitSwarm &pity, TextContext *ctx)
{
// Create new identity
pity.log("updating or creating identity for me");
ctx->own_ident = createOwnIdent(ctx->own_name);
::PEP_STATUS status = ::myself(Adapter::session(), ctx->own_ident.get());
pEp::throw_status(status);
return 0;
}
int test_start_sync(TestUnitSwarm &pity, TextContext *ctx)
{
Adapter::session
.initialize(Adapter::SyncModes::Async, false, test_messageToSend, test_notifyHandshake);
processsAllMessages();
return 0;
}
int test_tofu_init_all_peers(TestUnitSwarm &pity, TextContext *ctx)
{
for (auto &peer : ctx->peers) {
tofu_send(pity, ctx, peer.addr, "INIT TOFU");
tofu_receiveAndReply(pity, ctx);
PITYASSERT(peer.tofu_done(), "TOFU failed for " + peer.addr);
}
return 0;
}
int test_tofu_react(TestUnitSwarm &pity, TextContext *ctx)
{
tofu_receiveAndReply(pity, ctx);
tofu_receive(pity, ctx);
// std::cout << pity.getParentProcessUnit().getName() << "GET:" << &ctx->getCpt() << std::endl;
PITYASSERT(ctx->getCpt().tofu_done(), "TOFU failed for" + ctx->getCpt().addr);
return 0;
}
int test_group_create(TestUnitSwarm &pity, TextContext *ctx)
{
if (ctx->groups.size() > 0) {
group_ident = createCptIdent(ctx->groups.front().addr);
PEP_STATUS status = ::adapter_group_create(
Adapter::session(),
group_ident.get(),
ctx->own_ident.get(),
nullptr);
pEp::throw_status(status);
}
return 0;
}
int test_group_invite_members(TestUnitSwarm &pity, TextContext *ctx)
{
PEP_STATUS status;
if (ctx->groups.size() > 0) {
Group &my_grp = ctx->groups.at(0);
auto grp_ident = createRawIdent(my_grp.addr);
status = ::update_identity(Adapter::session(), grp_ident.get());
throw_status(status);
pity.log(Utils::to_string(grp_ident.get(), false));
for (TestIdent mb : my_grp.members) {
auto mb_ident = createRawIdent(mb.addr);
status = ::update_identity(Adapter::session(), mb_ident.get());
throw_status(status);
pity.log(Utils::to_string(mb_ident.get(), false));
status = ::adapter_group_invite_member(Adapter::session(), grp_ident.get(), mb_ident.get());
throw_status(status);
}
}
return 0;
}
int test_group_join(TestUnitSwarm &pity, TextContext *ctx)
{
processMessage();
PITYASSERT(signal_received, "test_group_join - no signal received");
return 0;
}
int test_receive_joined(TestUnitSwarm &pity, TextContext *ctx)
{
PEP_STATUS status;
if (ctx->groups.size() > 0) {
Group &my_grp = ctx->groups.at(0);
for (TestIdent mb : my_grp.members) {
processMessage();
}
}
return 0;
}
int test_send_groupmessage(TestUnitSwarm &pity, TextContext *ctx)
{
const std::string addr = group_ident->address;
pEpMessage msg = createMessage(ctx->own_ident, addr, "GROUP MESSAGE");
EncryptResult msg_enc = encryptAndEncode(msg);
std::string mime_text = std::get<1>(msg_enc);
grp_did_tx_encrypted = std::get<2>(msg_enc);
pity.log("Sending to GROUP Encrypted[" + std::to_string(std::get<2>(msg_enc)) + "] to: " + addr);
// Send to members and moderator (except self)
for (const auto &member : ctx->getGroup(addr)->members) {
if (member.addr != ctx->own_name) {
pity.log("To: " + member.addr);
pity.transport()->sendMsg(member.addr, mime_text);
}
}
if (ctx->getGroup(addr)->moderator != ctx->own_name) {
pity.log("To: " + ctx->getGroup(addr)->moderator);
pity.transport()->sendMsg(ctx->getGroup(addr)->moderator, mime_text);
}
return 0;
}
int test_receive(TestUnitSwarm &pity, TextContext *ctx)
{
MinMsgRx ret;
const std::string mime_data_rx = pity.transport()->receiveMsg();
DecryptResult msg_rx = decryptAndDecode(mime_data_rx);
pEpMessage msg_rx_dec = std::get<0>(msg_rx);
ctx->getPeer(msg_rx_dec->from->address)->did_rx_encrypted = std::get<4>(msg_rx);
pity.log(
"Received Encrypted[" + std::to_string(std::get<4>(msg_rx)) +
"] from: " + std::string(msg_rx_dec->from->address));
// pity.log("IN:\n " + Utils::to_string(mimeDecode(mime_data_rx).get(), false));
// pity.log("DECRYPTED:\n " + Utils::to_string(msg_rx_dec.get(), false));
std::get<0>(ret) = std::string(msg_rx_dec->from->address);
std::get<1>(ret) = std::string(msg_rx_dec->longmsg);
return 0;
}
int test_receive_all(TestUnitSwarm &pity, TextContext *ctx)
{
while (local_pity->transport()->hasMsg()) {
Utils::sleep_millis(100);
test_receive(pity, ctx);
}
return 0;
}
int test_group_remove_member_one_by_one(TestUnitSwarm &pity, TextContext *ctx)
{
bool is_empty = false;
do {
::identity_list *idl = nullptr;
::PEP_STATUS status = ::adapter_group_query_members(Adapter::session(), group_ident.get(), &idl);
throw_status(status);
pity.log(Utils::to_string(idl, false));
if (idl->ident != nullptr) {
status = ::adapter_group_remove_member(Adapter::session(), group_ident.get(), idl->ident);
throw_status(status);
} else {
is_empty = true;
}
} while (!is_empty);
return 0;
}
int test_group_query1(TestUnitSwarm &pity, TextContext *ctx)
{
{
::identity_list *idl = nullptr;
::PEP_STATUS status = ::adapter_group_query_groups(Adapter::session(), &idl);
throw_status(status);
pity.log(Utils::to_string(idl, false));
PITYASSERT(idl->ident == nullptr, "adapter_group_query_groups");
}
return 0;
}
int test_group_query2(TestUnitSwarm &pity, TextContext *ctx)
{
{
::identity_list *idl = nullptr;
::PEP_STATUS status = ::adapter_group_query_groups(Adapter::session(), &idl);
throw_status(status);
// pity.log(Utils::to_string(idl, false));
PITYASSERT(idl->ident->address == ctx->groups.begin()->addr, "adapter_group_query_groups");
}
{
pEpIdent mgr = createRawIdent("");
::pEp_identity *mgr_ptr = mgr.get();
::PEP_STATUS status = ::adapter_group_query_manager(
Adapter::session(),
group_ident.get(),
&mgr_ptr);
throw_status(status);
// pity.log(Utils::to_string(mgr_ptr, false));
// pity.log(Utils::to_string(ctx->own_ident.get(), false));
PITYASSERT(
*mgr_ptr->address == *ctx->own_ident->address,
"adapter_group_query_manager - wrong manager");
}
{
::identity_list *idl = nullptr;
::PEP_STATUS status = ::adapter_group_query_members(Adapter::session(), group_ident.get(), &idl);
throw_status(status);
// pity.log(Utils::to_string(idl, false));
PITYASSERT(idl->ident == nullptr, "adapter_group_query_members");
}
return 0;
}
int test_group_query3(TestUnitSwarm &pity, TextContext *ctx)
{
{
::identity_list *idl = nullptr;
::PEP_STATUS status = ::adapter_group_query_groups(Adapter::session(), &idl);
throw_status(status);
// pity.log(Utils::to_string(idl, false));
PITYASSERT(idl->ident->address == ctx->groups.begin()->addr, "adapter_group_query_groups");
}
{
pEpIdent mgr = createRawIdent("");
::pEp_identity *mgr_ptr = mgr.get();
::PEP_STATUS status = ::adapter_group_query_manager(
Adapter::session(),
group_ident.get(),
&mgr_ptr);
throw_status(status);
// pity.log(Utils::to_string(mgr_ptr, false));
// pity.log(Utils::to_string(ctx->own_ident.get(), false));
PITYASSERT(
*mgr_ptr->address == *ctx->own_ident->address,
"adapter_group_query_manager - wrong manager");
}
{
::identity_list *idl = nullptr;
::PEP_STATUS status = ::adapter_group_query_members(Adapter::session(), group_ident.get(), &idl);
throw_status(status);
pity.log(Utils::to_string(idl, false));
// PITYASSERT(idl->ident->address == ctx->getCpt().addr, "adapter_group_query_members");
}
return 0;
}
int test_group_query4(TestUnitSwarm &pity, TextContext *ctx)
{
{
::identity_list *idl = nullptr;
::PEP_STATUS status = ::adapter_group_query_groups(Adapter::session(), &idl);
throw_status(status);
// pity.log(Utils::to_string(idl, false));
PITYASSERT(idl->ident->address == ctx->groups.begin()->addr, "adapter_group_query_groups");
}
{
pEpIdent mgr = createRawIdent("");
::pEp_identity *mgr_ptr = mgr.get();
::PEP_STATUS status = ::adapter_group_query_manager(
Adapter::session(),
group_ident.get(),
&mgr_ptr);
throw_status(status);
// pity.log(Utils::to_string(mgr_ptr, false));
// pity.log(Utils::to_string(ctx->own_ident.get(), false));
PITYASSERT(
*mgr_ptr->address == *ctx->own_ident->address,
"adapter_group_query_manager - wrong manager");
}
{
::identity_list *idl = nullptr;
::PEP_STATUS status = ::adapter_group_query_members(Adapter::session(), group_ident.get(), &idl);
throw_status(status);
// pity.log(Utils::to_string(idl, false));
// PITYASSERT(idl->ident->address == ctx->getCpt().addr, "adapter_group_query_members");
}
return 0;
}
int main(int argc, char *argv[])
{
// Adapter::pEpLog::set_enabled(true);
// Adapter::GroupDriverReplicator::log_enabled = true;
// Adapter::GroupDriverEngine::log_enabled = true;
// Adapter::GroupDriverDummy::log_enabled = true;
// TestUnit::debug_log_enabled = false;
// PityTransport::debug_log_enabled = true;
int nodesCount = 23;
PityModel model{ "model_tofu2", nodesCount };
TestUnitSwarm suite = TestUnitSwarm("suite_tofu2");
PitySwarm swarm{ "swarm_tofu2", model };
suite.addRef(swarm.getSwarmUnit());
// ------------------------------------------------------------------------------------
swarm.addTestUnit(0, TestUnitSwarm("test_pEp_init", test_pEp_init));
swarm.addTestUnit(0, TestUnitSwarm("test_create_myself", test_create_myself));
swarm.addTestUnit(0, TestUnitSwarm("test_tofu_init_all_peers", test_tofu_init_all_peers));
swarm.addTestUnit(0, TestUnitSwarm("test_start_sync", test_start_sync));
swarm.addTestUnit(0, TestUnitSwarm("test_group_query1", test_group_query1));
swarm.addTestUnit(0, TestUnitSwarm("test_group_create", test_group_create));
swarm.addTestUnit(0, TestUnitSwarm("test_group_query2", test_group_query2));
swarm.addTestUnit(0, TestUnitSwarm("test_group_invite_members", test_group_invite_members));
swarm.addTestUnit(0, TestUnitSwarm("test_group_query3", test_group_query3));
swarm.addTestUnit(0, TestUnitSwarm("test_receive_joined", test_receive_joined));
swarm.addTestUnit(0, TestUnitSwarm("test_group_query3", test_group_query3));
swarm.addTestUnit(0, TestUnitSwarm("test_send_groupmessage", test_send_groupmessage));
swarm.addTestUnit(0, TestUnitSwarm("test_receive", test_receive));
swarm.addTestUnit(0, TestUnitSwarm("test_receive_all", test_receive_all));
swarm.addTestUnit(
0,
TestUnitSwarm("test_group_remove_member_one_by_one", test_group_remove_member_one_by_one));
swarm.addTestUnit(0, TestUnitSwarm("test_group_query4", test_group_query4));
//------------------------------------------------------------------------------------
for (int i = 1; i < nodesCount; i++) {
swarm.addTestUnit(i, TestUnitSwarm("test_pEp_init", test_pEp_init));
swarm.addTestUnit(i, TestUnitSwarm("test_create_myself", test_create_myself));
swarm.addTestUnit(i, TestUnitSwarm("test_tofu_react", test_tofu_react));
swarm.addTestUnit(i, TestUnitSwarm("test_start_sync", test_start_sync));
swarm.addTestUnit(i, TestUnitSwarm("test_group_join", test_group_join));
swarm.addTestUnit(i, TestUnitSwarm("test_receive", test_receive));
swarm.addTestUnit(i, TestUnitSwarm("test_send_groupmessage", test_send_groupmessage));
swarm.addTestUnit(i, TestUnitSwarm("test_receive_all", test_receive_all));
}
suite.run();
}