~singpolyma/biboumi

2c4016a4898a050c7f6ebd1843b265e209da1704 — louiz’ 6 years ago aaa9de8 + b1f850b
Merge branch 'postgresql' into 'master'

Add postgresql support

Closes #3237

See merge request louiz/biboumi!18
M .gitlab-ci.yml => .gitlab-ci.yml +10 -4
@@ 17,6 17,7 @@ variables:
  SYSTEMD: "-DWITH_SYSTEMD=1"
  LIBIDN: "-DWITH_LIBIDN=1"
  SQLITE3: "-DWITH_SQLITE3=1"
  POSTGRESQL: "-WITH_POSTGRESQL=1"

#
## Build jobs


@@ 27,10 28,10 @@ variables:
  tags:
    - docker
  script:
    - "echo Running cmake with the following parameters: -DCMAKE_CXX_COMPILER=${COMPILER} -DCMAKE_BUILD_TYPE=${BUILD_TYPE} ${BOTAN} ${UDNS} ${SYSTEMD} ${LIBIDN} ${SQLITE3}"
    - "echo Running cmake with the following parameters: -DCMAKE_CXX_COMPILER=${COMPILER} -DCMAKE_BUILD_TYPE=${BUILD_TYPE} ${BOTAN} ${UDNS} ${SYSTEMD} ${LIBIDN} ${SQLITE3} ${POSTGRESQL}"
    - mkdir build/
    - cd build/
    - cmake .. -DCMAKE_CXX_COMPILER=${COMPILER} -DCMAKE_BUILD_TYPE=${BUILD_TYPE} ${BOTAN} ${UDNS} ${SYSTEMD} ${LIBIDN} ${SQLITE3}
    - cmake .. -DCMAKE_CXX_COMPILER=${COMPILER} -DCMAKE_BUILD_TYPE=${BUILD_TYPE} ${BOTAN} ${UDNS} ${SYSTEMD} ${LIBIDN} ${SQLITE3} ${POSTGRESQL}
    - make everything -j$(nproc || echo 1)
    - make coverage_check -j$(nproc || echo 1)
  artifacts:


@@ 74,19 75,25 @@ build:2:
build:3:
  variables:
    SQLITE3: "-DWITHOUT_SQLITE3=1"
    TEST_POSTGRES_URI: "postgres@postgres/postgres"
  services:
    - postgres:latest
  <<: *fedora_build

build:4:
  variables:
    SQLITE3: "-DWITHOUT_SQLITE3=1"
    POSTGRESQL: "-DWITHOUT_POSTGRESQL=1"
    BOTAN: "-DWITHOUT_BOTAN=1"
    LIBIDN: "-DWITHOUT_LIBIDN=1"
  <<: *fedora_build

build:5:
  variables:
    SQLITE3: "-DWITHOUT_SQLITE3=1"
    UDNS: "-DWITHOUT_UDNS=1"
    TEST_POSTGRES_URI: "postgres@postgres/postgres"
  services:
    - postgres:latest
  <<: *fedora_build

build:6:


@@ 100,7 107,6 @@ build:7:
    UDNS: "-DWITHOUT_UDNS=1"
  <<: *fedora_build


#
## Test jobs
#

M CMakeLists.txt => CMakeLists.txt +22 -5
@@ 14,7 14,7 @@ endif()
#
## Find optional instrumentation libraries that will be used in debug only
#
find_library(LIBASAN NAMES asan libasan.so.3 libasan.so.2 libasan.so.1)
find_library(LIBASAN NAMES asan libasan.so.4 libasan.so.3 libasan.so.2 libasan.so.1)
find_library(LIBUBSAN NAMES ubsan libubsan.so.0)

#


@@ 130,6 130,12 @@ elseif(NOT WITHOUT_SQLITE3)
  find_package(SQLITE3)
endif()

if(WITH_POSTGRESQL)
  find_package(PQ REQUIRED)
elseif(NOT WITHOUT_POSTGRESQL)
  find_package(PQ)
endif()

#
## Set all the include directories, depending on what libraries are used
#


@@ 187,12 193,17 @@ file(GLOB source_network
        src/network/*.[hc]pp)
add_library(network OBJECT ${source_network})

if(SQLITE3_FOUND)
if(SQLITE3_FOUND OR PQ_FOUND)
  file(GLOB source_database
          src/database/*.[hc]pp)
  add_library(database OBJECT ${source_database})

  include_directories(database ${SQLITE3_INCLUDE_DIRS})
  if(SQLITE3_FOUND)
    include_directories(database ${SQLITE3_INCLUDE_DIRS})
  endif()
  if(PQ_FOUND)
    include_directories(database ${PQ_INCLUDE_DIRS})
  endif()
  set(USE_DATABASE TRUE)
else()
  add_library(database OBJECT "")


@@ 260,8 271,14 @@ if(LIBIDN_FOUND)
  target_link_libraries(test_suite ${LIBIDN_LIBRARIES})
endif()
if(USE_DATABASE)
  target_link_libraries(${PROJECT_NAME} ${SQLITE3_LIBRARIES})
  target_link_libraries(test_suite ${SQLITE3_LIBRARIES})
  if(SQLITE3_FOUND)
    target_link_libraries(${PROJECT_NAME} ${SQLITE3_LIBRARIES})
    target_link_libraries(test_suite ${SQLITE3_LIBRARIES})
  endif()
  if(PQ_FOUND)
    target_link_libraries(${PROJECT_NAME} ${PQ_LIBRARIES})
    target_link_libraries(test_suite ${PQ_LIBRARIES})
endif()
endif()

# Define a __FILENAME__ macro with the relative path (from the base project directory)

M INSTALL.rst => INSTALL.rst +7 -4
@@ 32,10 32,12 @@ libiconv_
libuuid_
 Generate unique IDs

sqlite3_ (option, but highly recommended)
 Provides a way to store various options in a (sqlite3) database. Each user
 of the gateway can store their own values (for example their prefered port,
 or their IRC password). Without this dependency, many interesting features
sqlite3_
or
libpq_
 Provides a way to store various options in a database. Each user of the
 gateway can store their own values (for example their prefered port, or
 their IRC password). Without this dependency, many interesting features
 are missing.

libidn_ (optional, but recommended)


@@ 165,3 167,4 @@ to use biboumi.
.. _systemd: https://www.freedesktop.org/wiki/Software/systemd/
.. _biboumi.1.rst: doc/biboumi.1.rst
.. _gcrypt: https://www.gnu.org/software/libgcrypt/
.. _libpq: https://www.postgresql.org/docs/current/static/libpq.html

A cmake/Modules/FindPQ.cmake => cmake/Modules/FindPQ.cmake +43 -0
@@ 0,0 1,43 @@
# - Find libpq
# Find the postgresql front end library
#
# This module defines the following variables:
#   PQ_FOUND  -  True if library and include directory are found
# If set to TRUE, the following are also defined:
#   PQ_INCLUDE_DIRS  -  The directory where to find the header file
#   PQ_LIBRARIES  -  Where to find the library file
#
# For conveniance, these variables are also set. They have the same values
# than the variables above.  The user can thus choose his/her prefered way
# to write them.
#   PQ_LIBRARY
#   PQ_INCLUDE_DIR
#
# This file is in the public domain

include(FindPkgConfig)

if(NOT PQ_FOUND)
  pkg_check_modules(PQ libpq)
endif()

if(NOT PQ_FOUND)
  find_path(PQ_INCLUDE_DIRS NAMES libpq-fe.h
      DOC "The libpq include directory")

  find_library(PQ_LIBRARIES NAMES pq
      DOC "The pq library")

  # Use some standard module to handle the QUIETLY and REQUIRED arguments, and
  # set PQ_FOUND to TRUE if these two variables are set.
  include(FindPackageHandleStandardArgs)
  find_package_handle_standard_args(PQ REQUIRED_VARS PQ_LIBRARIES PQ_INCLUDE_DIRS)

  if(PQ_FOUND)
    set(PQ_LIBRARY ${PQ_LIBRARIES} CACHE INTERNAL "")
    set(PQ_INCLUDE_DIR ${PQ_INCLUDE_DIRS} CACHE INTERNAL "")
    set(PQ_FOUND ${PQ_FOUND} CACHE INTERNAL "")
  endif()
endif()

mark_as_advanced(PQ_INCLUDE_DIRS PQ_LIBRARIES)

M doc/biboumi.1.rst => doc/biboumi.1.rst +14 -0
@@ 77,6 77,20 @@ port
The TCP port to use to connect to the local XMPP component. The default
value is 5347.

db_name
-------

The name of the database to use. This option can only be used if biboumi
has been compiled with a database support (Sqlite3 and/or PostgreSQL). If
the value begins with the postgresql scheme, “postgresql://” or
“postgres://”, then biboumi will try to connect to the PostgreSQL database
specified by the URI. See
https://www.postgresql.org/docs/current/static/libpq-connect.html#idm46428693970032
for all possible values. For example the value could be
“postgresql://user:secret@localhost”. If the value does not start with the
postgresql scheme, then it specifies a filename that will be opened with
Sqlite3. For example the value could be “/var/lib/biboumi/biboumi.sqlite”.

admin
-----


M docker/biboumi-test/alpine/Dockerfile => docker/biboumi-test/alpine/Dockerfile +2 -1
@@ 32,7 32,8 @@ RUN apk add --no-cache g++\
    openssl\
    libressl-dev\
    zlib-dev\
    curl
    curl\
    postgresql-dev

# Install botan
RUN git clone https://github.com/randombit/botan.git && cd botan && ./configure.py --prefix=/usr && make -j8 && make install && rm -rf /botan

M docker/biboumi-test/debian/Dockerfile => docker/biboumi-test/debian/Dockerfile +2 -1
@@ 39,7 39,8 @@ RUN apt install -y g++\
    openssl\
    zlib1g-dev\
    libssl-dev\
    curl
    curl\
    libpq-dev

# Install botan
RUN git clone https://github.com/randombit/botan.git && cd botan && ./configure.py --prefix=/usr && make -j8 && make install && rm -rf /botan

M docker/biboumi-test/fedora/Dockerfile => docker/biboumi-test/fedora/Dockerfile +1 -0
@@ 39,6 39,7 @@ RUN dnf --refresh install -y\
    openssl-devel\
    which\
    java-1.8.0-openjdk\
    postgresql-devel\
    && dnf clean all

# Install botan

M docker/biboumi/alpine/Dockerfile => docker/biboumi/alpine/Dockerfile +2 -0
@@ 13,6 13,7 @@ RUN apk add --no-cache\
    make\
    udns-dev\
    sqlite-dev\
    postgresql-dev\
    libuuid\
    util-linux-dev\
    expat-dev\


@@ 30,6 31,7 @@ RUN git clone git://git.louiz.org/biboumi && mkdir ./biboumi/build && cd ./bibou
            -DWITH_BOTAN=1\
            -DWITH_SQLITE3=1\
            -DWITH_LIBIDN=1\
            -DWITH_POSTGRESQL=1\
   && make -j8 && make install && rm -rf /biboumi

RUN adduser biboumi -D -h /home/biboumi

M docker/biboumi/alpine/README.md => docker/biboumi/alpine/README.md +24 -1
@@ 38,6 38,7 @@ The configuration file inside the image contains only a few default values.  To 
* BIBOUMI_PASSWORD: Sets the value of the *password* option.
* BIBOUMI_ADMIN: Sets the value of the *admin* option.
* BIBOUMI_XMPP_SERVER_IP: Sets the value of the *xmpp_server_ip* option. The default value is **xmpp**.
* BIBOUMI_DB_NAME: Sets the database name to be used by biboumi: a filesystem path pointing at a Sqlite3 file, or a postgresql URI (starting with “postgresql://”). See below to learn how to mount a host directory (to save your Sqlite3 database) or how to link with a postgresql docker container.

You can also directly provide your own configuration file by mounting it inside the container using the -v option:



@@ 59,7 60,7 @@ If you want to connect to the XMPP server running on the host machine, use the *
Volumes
-------

The database is stored in the /var/lib/biboumi/ directory. If you don’t bind a local directory to it, the database will be lost when the container is stopped. If you want to keep your database between each run, bind it with the -v option, like this: **-v /srv/biboumi/:/var/lib/biboumi**.
By default, a sqlite3 database is stored in the /var/lib/biboumi/ directory. If you don’t bind a local directory to it, the database will be lost when the container is stopped. If you want to keep your database between each run, bind it with the -v option, like this: **-v /srv/biboumi/:/var/lib/biboumi**.

Note: Due to a limitation in Docker, to be able to read and write into this database, make sure this mounted directory has the proper read and write permissions on the host: it can be owned by UID and GID 1000:1000, or use chmod to give permissions to everyone, for example.



@@ 67,3 68,25 @@ Note: Due to a limitation in Docker, to be able to read and write into this data
chown -R 1000:1000 database/
chmod 777 database/
```

Linking with a PostgreSQL container
-----------------------------------

If you want to use a PostgreSQL database, you need to either access the host database (run the biboumi container with --network=host), or link with a [postgresql docker image](https://hub.docker.com/_/postgres/).

To do that, start the PostgreSQL container like this:

```
docker run --name postgres postgres:latest
```

This will run a postgresql instance with a configured superuser named “postgres”, with no password and a database named “postgres” as well. If you want different values, please refer to the PostgreSQL’s image documentation.

Then start your biboumi container, by linking with this PostgreSQL container, and by specifying the correct db_name value (of course, also specify all the other options, like the XMPP hostname and password):

```
docker run --name biboumi \
    --link=postgres \
    -e BIBOUMI_DB_NAME=postgres://postgres@postgres/postgres \
    biboumi
```

M src/biboumi.h.cmake => src/biboumi.h.cmake +2 -0
@@ 6,6 6,8 @@
#cmakedefine BOTAN_FOUND
#cmakedefine GCRYPT_FOUND
#cmakedefine UDNS_FOUND
#cmakedefine PQ_FOUND
#cmakedefine SQLITE3_FOUND
#cmakedefine SOFTWARE_VERSION "${SOFTWARE_VERSION}"
#cmakedefine PROJECT_NAME "${PROJECT_NAME}"
#cmakedefine HAS_GET_TIME

M src/bridge/bridge.cpp => src/bridge/bridge.cpp +1 -0
@@ 1031,6 1031,7 @@ void Bridge::send_room_history(const std::string& hostname, std::string chan_nam
  (void)hostname;
  (void)chan_name;
  (void)resource;
  (void)history_limit;
#endif
}


M src/database/column.hpp => src/database/column.hpp +7 -2
@@ 13,5 13,10 @@ struct Column
    T value{};
};

struct Id: Column<std::size_t> { static constexpr auto name = "id_";
                                 static constexpr auto options = "PRIMARY KEY AUTOINCREMENT"; };
struct Id: Column<std::size_t> {
    static constexpr std::size_t unset_value = static_cast<std::size_t>(-1);
    static constexpr auto name = "id_";
    static constexpr auto options = "PRIMARY KEY";

    Id(): Column<std::size_t>(-1) {}
};

M src/database/count_query.hpp => src/database/count_query.hpp +5 -9
@@ 2,11 2,10 @@

#include <database/query.hpp>
#include <database/table.hpp>
#include <database/statement.hpp>

#include <string>

#include <sqlite3.h>

struct CountQuery: public Query
{
    CountQuery(std::string name):


@@ 15,20 14,17 @@ struct CountQuery: public Query
      this->body += std::move(name);
    }

    int64_t execute(sqlite3* db)
    int64_t execute(DatabaseEngine& db)
    {
      auto statement = this->prepare(db);
      auto statement = db.prepare(this->body);
      int64_t res = 0;
      if (sqlite3_step(statement.get()) == SQLITE_ROW)
        res = sqlite3_column_int64(statement.get(), 0);
      if (statement->step() != StepResult::Error)
        res = statement->get_column_int64(0);
      else
        {
          log_error("Count request didn’t return a result");
          return 0;
        }
      if (sqlite3_step(statement.get()) != SQLITE_DONE)
        log_warning("Count request returned more than one result.");

      return res;
    }
};

M src/database/database.cpp => src/database/database.cpp +39 -36
@@ 7,16 7,19 @@
#include <utils/time.hpp>

#include <config/config.hpp>
#include <database/sqlite3_engine.hpp>
#include <database/postgresql_engine.hpp>

#include <database/engine.hpp>
#include <database/index.hpp>

#include <sqlite3.h>
#include <memory>

sqlite3* Database::db;
Database::MucLogLineTable Database::muc_log_lines("MucLogLine_");
Database::GlobalOptionsTable Database::global_options("GlobalOptions_");
Database::IrcServerOptionsTable Database::irc_server_options("IrcServerOptions_");
Database::IrcChannelOptionsTable Database::irc_channel_options("IrcChannelOptions_");
std::unique_ptr<DatabaseEngine> Database::db;
Database::MucLogLineTable Database::muc_log_lines("muclogline_");
Database::GlobalOptionsTable Database::global_options("globaloptions_");
Database::IrcServerOptionsTable Database::irc_server_options("ircserveroptions_");
Database::IrcChannelOptionsTable Database::irc_channel_options("ircchanneloptions_");
Database::RosterTable Database::roster("roster");
std::map<Database::CacheKey, Database::EncodingIn::real_type> Database::encoding_in_cache{};



@@ 29,27 32,28 @@ void Database::open(const std::string& filename)
  // Try to open the specified database.
  // Close and replace the previous database pointer if it succeeded. If it did
  // not, just leave things untouched
  sqlite3* new_db;
  auto res = sqlite3_open_v2(filename.data(), &new_db, SQLITE_OPEN_READWRITE | SQLITE_OPEN_CREATE, nullptr);
  Database::close();
  if (res != SQLITE_OK)
    {
      log_error("Failed to open database file ", filename, ": ", sqlite3_errmsg(new_db));
      sqlite3_close(new_db);
      throw std::runtime_error("");
    }
  Database::db = new_db;
  Database::muc_log_lines.create(Database::db);
  Database::muc_log_lines.upgrade(Database::db);
  Database::global_options.create(Database::db);
  Database::global_options.upgrade(Database::db);
  Database::irc_server_options.create(Database::db);
  Database::irc_server_options.upgrade(Database::db);
  Database::irc_channel_options.create(Database::db);
  Database::irc_channel_options.upgrade(Database::db);
  Database::roster.create(Database::db);
  Database::roster.upgrade(Database::db);
  create_index<Database::Owner, Database::IrcChanName, Database::IrcServerName>(Database::db, "archive_index", Database::muc_log_lines.get_name());
  std::unique_ptr<DatabaseEngine> new_db;
  static const auto psql_prefix = "postgresql://"s;
  static const auto psql_prefix2 = "postgres://"s;
  if ((filename.substr(0, psql_prefix.size()) == psql_prefix) ||
      (filename.substr(0, psql_prefix2.size()) == psql_prefix2))
    new_db = PostgresqlEngine::open(filename);
  else
    new_db = Sqlite3Engine::open(filename);
  if (!new_db)
    return;
  Database::db = std::move(new_db);
  Database::muc_log_lines.create(*Database::db);
  Database::muc_log_lines.upgrade(*Database::db);
  Database::global_options.create(*Database::db);
  Database::global_options.upgrade(*Database::db);
  Database::irc_server_options.create(*Database::db);
  Database::irc_server_options.upgrade(*Database::db);
  Database::irc_channel_options.create(*Database::db);
  Database::irc_channel_options.upgrade(*Database::db);
  Database::roster.create(*Database::db);
  Database::roster.upgrade(*Database::db);
  create_index<Database::Owner, Database::IrcChanName, Database::IrcServerName>(*Database::db, "archive_index", Database::muc_log_lines.get_name());
}




@@ 59,7 63,7 @@ Database::GlobalOptions Database::get_global_options(const std::string& owner)
  request.where() << Owner{} << "=" << owner;

  Database::GlobalOptions options{Database::global_options.get_name()};
  auto result = request.execute(Database::db);
  auto result = request.execute(*Database::db);
  if (result.size() == 1)
    options = result.front();
  else


@@ 73,7 77,7 @@ Database::IrcServerOptions Database::get_irc_server_options(const std::string& o
  request.where() << Owner{} << "=" << owner << " and " << Server{} << "=" << server;

  Database::IrcServerOptions options{Database::irc_server_options.get_name()};
  auto result = request.execute(Database::db);
  auto result = request.execute(*Database::db);
  if (result.size() == 1)
    options = result.front();
  else


@@ 91,7 95,7 @@ Database::IrcChannelOptions Database::get_irc_channel_options(const std::string&
          " and " << Server{} << "=" << server <<\
          " and " << Channel{} << "=" << channel;
  Database::IrcChannelOptions options{Database::irc_channel_options.get_name()};
  auto result = request.execute(Database::db);
  auto result = request.execute(*Database::db);
  if (result.size() == 1)
    options = result.front();
  else


@@ 186,7 190,7 @@ std::vector<Database::MucLogLine> Database::get_muc_logs(const std::string& owne
  if (limit >= 0)
    request.limit() << limit;

  auto result = request.execute(Database::db);
  auto result = request.execute(*Database::db);

  return {result.crbegin(), result.crend()};
}


@@ 207,7 211,7 @@ void Database::delete_roster_item(const std::string& local, const std::string& r
  query << " WHERE " << Database::RemoteJid{} << "=" << remote << \
           " AND " << Database::LocalJid{} << "=" << local;

  query.execute(Database::db);
//  query.execute(*Database::db);
}

bool Database::has_roster_item(const std::string& local, const std::string& remote)


@@ 216,7 220,7 @@ bool Database::has_roster_item(const std::string& local, const std::string& remo
  query.where() << Database::LocalJid{} << "=" << local << \
        " and " << Database::RemoteJid{} << "=" << remote;

  auto res = query.execute(Database::db);
  auto res = query.execute(*Database::db);

  return !res.empty();
}


@@ 226,19 230,18 @@ std::vector<Database::RosterItem> Database::get_contact_list(const std::string& 
  auto query = Database::roster.select();
  query.where() << Database::LocalJid{} << "=" << local;

  return query.execute(Database::db);
  return query.execute(*Database::db);
}

std::vector<Database::RosterItem> Database::get_full_roster()
{
  auto query = Database::roster.select();

  return query.execute(Database::db);
  return query.execute(*Database::db);
}

void Database::close()
{
  sqlite3_close(Database::db);
  Database::db = nullptr;
}


M src/database/database.hpp => src/database/database.hpp +20 -13
@@ 7,6 7,8 @@
#include <database/column.hpp>
#include <database/count_query.hpp>

#include <database/engine.hpp>

#include <utils/optional_bool.hpp>

#include <chrono>


@@ 25,11 27,11 @@ class Database

  struct Owner: Column<std::string> { static constexpr auto name = "owner_"; };

  struct IrcChanName: Column<std::string> { static constexpr auto name = "ircChanName_"; };
  struct IrcChanName: Column<std::string> { static constexpr auto name = "ircchanname_"; };

  struct Channel: Column<std::string> { static constexpr auto name = "channel_"; };

  struct IrcServerName: Column<std::string> { static constexpr auto name = "ircServerName_"; };
  struct IrcServerName: Column<std::string> { static constexpr auto name = "ircservername_"; };

  struct Server: Column<std::string> { static constexpr auto name = "server_"; };



@@ 44,30 46,30 @@ class Database
  struct Ports: Column<std::string> { static constexpr auto name = "ports_";
    Ports(): Column<std::string>("6667") {} };

  struct TlsPorts: Column<std::string> { static constexpr auto name = "tlsPorts_";
  struct TlsPorts: Column<std::string> { static constexpr auto name = "tlsports_";
    TlsPorts(): Column<std::string>("6697;6670") {} };

  struct Username: Column<std::string> { static constexpr auto name = "username_"; };

  struct Realname: Column<std::string> { static constexpr auto name = "realname_"; };

  struct AfterConnectionCommand: Column<std::string> { static constexpr auto name = "afterConnectionCommand_"; };
  struct AfterConnectionCommand: Column<std::string> { static constexpr auto name = "afterconnectioncommand_"; };

  struct TrustedFingerprint: Column<std::string> { static constexpr auto name = "trustedFingerprint_"; };
  struct TrustedFingerprint: Column<std::string> { static constexpr auto name = "trustedfingerprint_"; };

  struct EncodingOut: Column<std::string> { static constexpr auto name = "encodingOut_"; };
  struct EncodingOut: Column<std::string> { static constexpr auto name = "encodingout_"; };

  struct EncodingIn: Column<std::string> { static constexpr auto name = "encodingIn_"; };
  struct EncodingIn: Column<std::string> { static constexpr auto name = "encodingin_"; };

  struct MaxHistoryLength: Column<int> { static constexpr auto name = "maxHistoryLength_";
  struct MaxHistoryLength: Column<int> { static constexpr auto name = "maxhistorylength_";
    MaxHistoryLength(): Column<int>(20) {} };

  struct RecordHistory: Column<bool> { static constexpr auto name = "recordHistory_";
  struct RecordHistory: Column<bool> { static constexpr auto name = "recordhistory_";
    RecordHistory(): Column<bool>(true) {}};

  struct RecordHistoryOptional: Column<OptionalBool> { static constexpr auto name = "recordHistory_"; };
  struct RecordHistoryOptional: Column<OptionalBool> { static constexpr auto name = "recordhistory_"; };

  struct VerifyCert: Column<bool> { static constexpr auto name = "verifyCert_";
  struct VerifyCert: Column<bool> { static constexpr auto name = "verifycert_";
    VerifyCert(): Column<bool>(true) {} };

  struct Persistent: Column<bool> { static constexpr auto name = "persistent_";


@@ 134,7 136,7 @@ class Database
  static int64_t count(const TableType& table)
  {
    CountQuery query{table.get_name()};
    return query.execute(Database::db);
    return query.execute(*Database::db);
  }

  static MucLogLineTable muc_log_lines;


@@ 142,7 144,7 @@ class Database
  static IrcServerOptionsTable irc_server_options;
  static IrcChannelOptionsTable irc_channel_options;
  static RosterTable roster;
  static sqlite3* db;
  static std::unique_ptr<DatabaseEngine> db;

  /**
   * Some caches, to avoid doing very frequent query requests for a few options.


@@ 177,6 179,11 @@ class Database
    Database::encoding_in_cache.clear();
  }

  static auto raw_exec(const std::string& query)
  {
    Database::db->raw_exec(query);
  }

 private:
  static std::string gen_uuid();
  static std::map<CacheKey, EncodingIn::real_type> encoding_in_cache;

A src/database/engine.hpp => src/database/engine.hpp +41 -0
@@ 0,0 1,41 @@
#pragma once

/**
 * Interface to provide non-portable behaviour, specific to each
 * database engine we want to support.
 *
 * Everything else (all portable stuf) should go outside of this class.
 */

#include <database/statement.hpp>

#include <memory>
#include <string>
#include <vector>
#include <tuple>
#include <set>

class DatabaseEngine
{
 public:

  DatabaseEngine() = default;
  virtual ~DatabaseEngine() = default;

  DatabaseEngine(const DatabaseEngine&) = delete;
  DatabaseEngine& operator=(const DatabaseEngine&) = delete;
  DatabaseEngine(DatabaseEngine&&) = delete;
  DatabaseEngine& operator=(DatabaseEngine&&) = delete;

  virtual std::set<std::string> get_all_columns_from_table(const std::string& table_name) = 0;
  virtual std::tuple<bool, std::string> raw_exec(const std::string& query) = 0;
  virtual std::unique_ptr<Statement> prepare(const std::string& query) = 0;
  virtual void extract_last_insert_rowid(Statement& statement) = 0;
  virtual std::string get_returning_id_sql_string(const std::string&)
  {
    return {};
  }
  virtual std::string id_column_type() = 0;

  int64_t last_inserted_rowid{-1};
};

M src/database/index.hpp => src/database/index.hpp +9 -13
@@ 1,6 1,6 @@
#pragma once

#include <sqlite3.h>
#include <database/engine.hpp>

#include <string>
#include <tuple>


@@ 25,18 25,14 @@ add_column_name(std::string& out)
}

template <typename... Columns>
void create_index(sqlite3* db, const std::string& name, const std::string& table)
void create_index(DatabaseEngine& db, const std::string& name, const std::string& table)
{
  std::string res{"CREATE INDEX IF NOT EXISTS "};
  res += name + " ON " + table + "(";
  add_column_name<0, Columns...>(res);
  res += ")";
  std::string query{"CREATE INDEX IF NOT EXISTS "};
  query += name + " ON " + table + "(";
  add_column_name<0, Columns...>(query);
  query += ")";

  char* error;
  const auto result = sqlite3_exec(db, res.data(), nullptr, nullptr, &error);
  if (result != SQLITE_OK)
    {
      log_error("Error executing query: ", error);
      sqlite3_free(error);
    }
  auto result = db.raw_exec(query);
  if (std::get<0>(result) == false)
    log_error("Error executing query: ", std::get<1>(result));
}

M src/database/insert_query.hpp => src/database/insert_query.hpp +54 -51
@@ 10,64 10,63 @@
#include <string>
#include <tuple>

#include <sqlite3.h>

template <int N, typename ColumnType, typename... T>
typename std::enable_if<!std::is_same<std::decay_t<ColumnType>, Id>::value, void>::type
actual_bind(Statement& statement, std::vector<std::string>& params, const std::tuple<T...>&)
{
  const auto value = params.front();
  params.erase(params.begin());
  if (sqlite3_bind_text(statement.get(), N + 1, value.data(), static_cast<int>(value.size()), SQLITE_TRANSIENT) != SQLITE_OK)
    log_error("Failed to bind ", value, " to param ", N);
}

template <int N, typename ColumnType, typename... T>
typename std::enable_if<std::is_same<std::decay_t<ColumnType>, Id>::value, void>::type
actual_bind(Statement& statement, std::vector<std::string>&, const std::tuple<T...>& columns)
template <std::size_t N=0, typename... T>
typename std::enable_if<N < sizeof...(T), void>::type
update_autoincrement_id(std::tuple<T...>& columns, Statement& statement)
{
  auto&& column = std::get<Id>(columns);
  if (column.value != 0)
  using ColumnType = typename std::decay<decltype(std::get<N>(columns))>::type;
  if (std::is_same<ColumnType, Id>::value)
    {
      if (sqlite3_bind_int64(statement.get(), N + 1, static_cast<sqlite3_int64>(column.value)) != SQLITE_OK)
        log_error("Failed to bind ", column.value, " to id.");
      log_debug("EXTRACTING LAST ID");
      auto&& column = std::get<Id>(columns);
    }
  else if (sqlite3_bind_null(statement.get(), N + 1) != SQLITE_OK)
    log_error("Failed to bind NULL to param ", N);
  update_autoincrement_id<N+1>(columns, statement);
}

template <std::size_t N=0, typename... T>
typename std::enable_if<N == sizeof...(T), void>::type
update_autoincrement_id(std::tuple<T...>&, Statement& statement)
{}

struct InsertQuery: public Query
{
  InsertQuery(const std::string& name):
      Query("INSERT OR REPLACE INTO ")
  template <typename... T>
  InsertQuery(const std::string& name, const std::tuple<T...>& columns):
      Query("INSERT INTO ")
  {
    this->body += name;
    this->insert_col_names(columns);
    this->insert_values(columns);
  }

  template <typename... T>
  void execute(const std::tuple<T...>& columns, sqlite3* db)
  void execute(DatabaseEngine& db, std::tuple<T...>& columns)
  {
    auto statement = this->prepare(db);
    {
      this->bind_param(columns, statement);
      if (sqlite3_step(statement.get()) != SQLITE_DONE)
        log_error("Failed to execute query: ", sqlite3_errmsg(db));
    }
    auto statement = db.prepare(this->body);
    this->bind_param(columns, *statement);

    if (statement->step() != StepResult::Error)
      db.extract_last_insert_rowid(*statement);
    else
      log_error("Failed to extract the rowid from the last INSERT");
  }

  template <int N=0, typename... T>
  typename std::enable_if<N < sizeof...(T), void>::type
  bind_param(const std::tuple<T...>& columns, Statement& statement)
  bind_param(const std::tuple<T...>& columns, Statement& statement, int index=1)
  {
    using ColumnType = typename std::remove_reference<decltype(std::get<N>(columns))>::type;
    auto&& column = std::get<N>(columns);
    using ColumnType = std::decay_t<decltype(column)>;

    actual_bind<N, ColumnType>(statement, this->params, columns);
    this->bind_param<N+1>(columns, statement);
    if (!std::is_same<ColumnType, Id>::value)
      actual_bind(statement, column.value, index++);

    this->bind_param<N+1>(columns, statement, index);
  }

  template <int N=0, typename... T>
  typename std::enable_if<N == sizeof...(T), void>::type
  bind_param(const std::tuple<T...>&, Statement&)
  bind_param(const std::tuple<T...>&, Statement&, int)
  {}

  template <typename... T>


@@ 80,18 79,21 @@ struct InsertQuery: public Query

  template <int N=0, typename... T>
  typename std::enable_if<N < sizeof...(T), void>::type
  insert_value(const std::tuple<T...>& columns)
  insert_value(const std::tuple<T...>& columns, int index=1)
  {
    this->body += "?";
    if (N != sizeof...(T) - 1)
      this->body += ",";
    this->body += " ";
    add_param(*this, std::get<N>(columns));
    this->insert_value<N+1>(columns);
    using ColumnType = std::decay_t<decltype(std::get<N>(columns))>;

    if (!std::is_same<ColumnType, Id>::value)
      {
        this->body += "$" + std::to_string(index++);
        if (N != sizeof...(T) - 1)
          this->body += ", ";
      }
    this->insert_value<N+1>(columns, index);
  }
  template <int N=0, typename... T>
  typename std::enable_if<N == sizeof...(T), void>::type
  insert_value(const std::tuple<T...>&)
  insert_value(const std::tuple<T...>&, const int)
  { }

  template <typename... T>


@@ 99,27 101,28 @@ struct InsertQuery: public Query
  {
    this->body += " (";
    this->insert_col_name(columns);
    this->body += ")\n";
    this->body += ")";
  }

  template <int N=0, typename... T>
  typename std::enable_if<N < sizeof...(T), void>::type
  insert_col_name(const std::tuple<T...>& columns)
  {
    using ColumnType = typename std::remove_reference<decltype(std::get<N>(columns))>::type;
    using ColumnType = std::decay_t<decltype(std::get<N>(columns))>;

    this->body += ColumnType::name;
    if (!std::is_same<ColumnType, Id>::value)
      {
        this->body += ColumnType::name;

    if (N < (sizeof...(T) - 1))
      this->body += ", ";
        if (N < (sizeof...(T) - 1))
          this->body += ", ";
      }

    this->insert_col_name<N+1>(columns);
  }

  template <int N=0, typename... T>
  typename std::enable_if<N == sizeof...(T), void>::type
  insert_col_name(const std::tuple<T...>&)
  {}


 private:
};

A src/database/postgresql_engine.cpp => src/database/postgresql_engine.cpp +88 -0
@@ 0,0 1,88 @@
#include <biboumi.h>
#ifdef PQ_FOUND

#include <utils/scopeguard.hpp>

#include <database/postgresql_engine.hpp>

#include <database/postgresql_statement.hpp>

#include <logger/logger.hpp>

PostgresqlEngine::PostgresqlEngine(PGconn*const conn):
    conn(conn)
{}

PostgresqlEngine::~PostgresqlEngine()
{
  PQfinish(this->conn);
}

std::unique_ptr<DatabaseEngine> PostgresqlEngine::open(const std::string& conninfo)
{
  log_debug("trying to open: ", conninfo);
  PGconn* con = PQconnectdb(conninfo.data());

  if (!con)
    {
      log_error("Failed to allocate a Postgresql connection");
      throw std::runtime_error("");
    }
  const auto status = PQstatus(con);
  if (status != CONNECTION_OK)
    {
      const char* errmsg = PQerrorMessage(con);
      log_error("Postgresql connection failed: ", errmsg);
      throw std::runtime_error("failed to open connection.");
    }
  return std::make_unique<PostgresqlEngine>(con);
}

std::set<std::string> PostgresqlEngine::get_all_columns_from_table(const std::string& table_name)
{
  const auto query = "SELECT column_name from information_schema.columns where table_name='" + table_name + "'";
  auto statement = this->prepare(query);
  std::set<std::string> columns;

  while (statement->step() == StepResult::Row)
    columns.insert(statement->get_column_text(0));

  log_debug("found ", columns.size(), " columns.");
  return columns;
}

std::tuple<bool, std::string> PostgresqlEngine::raw_exec(const std::string& query)
{
  log_debug("raw_exec:", query);
  PGresult* res = PQexec(this->conn, query.data());
  auto sg = utils::make_scope_guard([res](){
      PQclear(res);
  });

  auto res_status = PQresultStatus(res);
  if (res_status != PGRES_COMMAND_OK)
    return std::make_tuple(false, PQresultErrorMessage(res));
  return std::make_tuple(true, std::string{});
}

std::unique_ptr<Statement> PostgresqlEngine::prepare(const std::string& query)
{
  return std::make_unique<PostgresqlStatement>(query, this->conn);
}

void PostgresqlEngine::extract_last_insert_rowid(Statement& statement)
{
  this->last_inserted_rowid = statement.get_column_int64(0);
}

std::string PostgresqlEngine::get_returning_id_sql_string(const std::string& col_name)
{
  return " RETURNING " + col_name;
}

std::string PostgresqlEngine::id_column_type()
{
  return "SERIAL";
}

#endif

A src/database/postgresql_engine.hpp => src/database/postgresql_engine.hpp +48 -0
@@ 0,0 1,48 @@
#pragma once

#include <biboumi.h>
#include <string>
#include <stdexcept>
#include <memory>

#include <database/statement.hpp>
#include <database/engine.hpp>

#include <tuple>
#include <set>

#ifdef PQ_FOUND

#include <libpq-fe.h>

class PostgresqlEngine: public DatabaseEngine
{
 public:
  PostgresqlEngine(PGconn*const conn);

  ~PostgresqlEngine();

  static std::unique_ptr<DatabaseEngine> open(const std::string& string);

  std::set<std::string> get_all_columns_from_table(const std::string& table_name) override final;
  std::tuple<bool, std::string> raw_exec(const std::string& query) override final;
  std::unique_ptr<Statement> prepare(const std::string& query) override;
  void extract_last_insert_rowid(Statement& statement) override;
  std::string get_returning_id_sql_string(const std::string& col_name) override;
  std::string id_column_type() override;
private:
  PGconn* const conn;
};

#else

class PostgresqlEngine
{
public:
  static std::unique_ptr<DatabaseEngine> open(const std::string& string)
  {
    throw std::runtime_error("Cannot open postgresql database "s + string + ": biboumi is not compiled with libpq.");
  }
};

#endif

A src/database/postgresql_statement.hpp => src/database/postgresql_statement.hpp +132 -0
@@ 0,0 1,132 @@
#pragma once

#include <database/statement.hpp>

#include <logger/logger.hpp>

#include <libpq-fe.h>

class PostgresqlStatement: public Statement
{
 public:
  PostgresqlStatement(std::string body, PGconn*const conn):
      body(std::move(body)),
      conn(conn)
  {}
  ~PostgresqlStatement()
  {
    PQclear(this->result);
    this->result = nullptr;
  }
  PostgresqlStatement(const PostgresqlStatement&) = delete;
  PostgresqlStatement& operator=(const PostgresqlStatement&) = delete;
  PostgresqlStatement(PostgresqlStatement&& other) = delete;
  PostgresqlStatement& operator=(PostgresqlStatement&& other) = delete;

  StepResult step() override final
  {
    if (!this->executed)
      {
        this->current_tuple = 0;
        this->executed = true;
        if (!this->execute())
          return StepResult::Error;
      }
    else
      {
        this->current_tuple++;
      }
    if (this->current_tuple < PQntuples(this->result))
      return StepResult::Row;
    return StepResult::Done;
  }

  int64_t get_column_int64(const int col) override
  {
    const char* result = PQgetvalue(this->result, this->current_tuple, col);
    std::istringstream iss;
    iss.str(result);
    int64_t res;
    iss >> res;
    return res;
  }
  std::string get_column_text(const int col) override
  {
    const char* result = PQgetvalue(this->result, this->current_tuple, col);
    return result;
  }
  int get_column_int(const int col) override
  {
    const char* result = PQgetvalue(this->result, this->current_tuple, col);
    std::istringstream iss;
    iss.str(result);
    int res;
    iss >> res;
    return res;
  }

  void bind(std::vector<std::string> params) override
  {

    this->params = std::move(params);
  }

  bool bind_text(const int, const std::string& data) override
  {
    this->params.push_back(data);
    return true;
  }
  bool bind_int64(const int, const std::int64_t value) override
  {
    this->params.push_back(std::to_string(value));
    return true;
  }
  bool bind_null(const int) override
  {
    this->params.push_back("NULL");
    return true;
  }

 private:

private:
  bool execute()
  {
    std::vector<const char*> params;
    params.reserve(this->params.size());

    for (const auto& param: this->params)
      {
        log_debug("param:", param);
        params.push_back(param.data());
      }

    log_debug("body: ", body);
    const int param_size = static_cast<int>(this->params.size());
    this->result = PQexecParams(this->conn, this->body.data(),
                                param_size,
                                nullptr,
                                params.data(),
                                nullptr,
                                nullptr,
                                0);
    const auto status = PQresultStatus(this->result);
    if (status == PGRES_TUPLES_OK)
      {
        log_debug("PGRES_TUPLES_OK");
      }
    else if (status != PGRES_COMMAND_OK)
      {
        log_error("Failed to execute command: ", PQresultErrorMessage(this->result));
        return false;
      }
    return true;
  }

  bool executed{false};
  std::string body;
  PGconn*const conn;
  std::vector<std::string> params;
  PGresult* result{nullptr};
  int current_tuple{0};
};

M src/database/query.cpp => src/database/query.cpp +25 -4
@@ 1,9 1,29 @@
#include <database/query.hpp>
#include <database/column.hpp>

template <>
void add_param<Id>(Query&, const Id&)
{}
void actual_bind(Statement& statement, const std::string& value, int index)
{
  log_debug("binding string:", value, " to col ", index);
  statement.bind_text(index, value);
}

void actual_bind(Statement& statement, const std::size_t value, int index)
{
  log_debug("binding size_t:", value);
  statement.bind_int64(index, value);
}

void actual_bind(Statement& statement, const OptionalBool& value, int index)
{
  log_debug("binding optional_t:", value.to_string());
  if (!value.is_set)
    statement.bind_int64(index, 0);
  else if (value.value)
    statement.bind_int64(index, 1);
  else
    statement.bind_int64(index, -1);
}


void actual_add_param(Query& query, const std::string& val)
{


@@ 28,7 48,8 @@ Query& operator<<(Query& query, const char* str)

Query& operator<<(Query& query, const std::string& str)
{
  query.body += "?";
  query.body += "$" + std::to_string(query.current_param);
  query.current_param++;
  actual_add_param(query, str);
  return query;
}

M src/database/query.hpp => src/database/query.hpp +6 -33
@@ 9,54 9,27 @@
#include <vector>
#include <string>

#include <sqlite3.h>
void actual_bind(Statement& statement, const std::string& value, int index);
void actual_bind(Statement& statement, const std::size_t value, int index);
void actual_bind(Statement& statement, const OptionalBool& value, int index);

struct Query
{
    std::string body;
    std::vector<std::string> params;
    int current_param{1};

    Query(std::string str):
        body(std::move(str))
    {}

    Statement prepare(sqlite3* db)
    {
      sqlite3_stmt* stmt;
      auto res = sqlite3_prepare(db, this->body.data(), static_cast<int>(this->body.size()) + 1,
                                 &stmt, nullptr);
      if (res != SQLITE_OK)
        {
          log_error("Error preparing statement: ", sqlite3_errmsg(db));
          return nullptr;
        }
      Statement statement(stmt);
      int i = 1;
      for (const std::string& param: this->params)
        {
          if (sqlite3_bind_text(statement.get(), i, param.data(), static_cast<int>(param.size()), SQLITE_TRANSIENT) != SQLITE_OK)
            log_error("Failed to bind ", param, " to param ", i);
          i++;
        }

      return statement;
    }

    void execute(sqlite3* db)
    {
      auto statement = this->prepare(db);
      while (sqlite3_step(statement.get()) != SQLITE_DONE)
        ;
    }
};

template <typename ColumnType>
void add_param(Query& query, const ColumnType& column)
{
  std::cout << "add_param<ColumnType>" << std::endl;
  actual_add_param(query, column.value);
}
template <>
void add_param<Id>(Query& query, const Id& column);

template <typename T>
void actual_add_param(Query& query, const T& val)


@@ 81,7 54,7 @@ template <typename Integer>
typename std::enable_if<std::is_integral<Integer>::value, Query&>::type
operator<<(Query& query, const Integer& i)
{
  query.body += "?";
  query.body += "$" + std::to_string(query.current_param++);
  actual_add_param(query, i);
  return query;
}

M src/database/row.hpp => src/database/row.hpp +53 -54
@@ 1,72 1,71 @@
#pragma once

#include <database/insert_query.hpp>
#include <database/update_query.hpp>
#include <logger/logger.hpp>

#include <type_traits>

#include <sqlite3.h>
#include <utils/is_one_of.hpp>

template <typename ColumnType, typename... T>
typename std::enable_if<!std::is_same<std::decay_t<ColumnType>, Id>::value, void>::type
update_id(std::tuple<T...>&, sqlite3*)
{}
#include <type_traits>

template <typename ColumnType, typename... T>
typename std::enable_if<std::is_same<std::decay_t<ColumnType>, Id>::value, void>::type
update_id(std::tuple<T...>& columns, sqlite3* db)
template <typename... T>
struct Row
{
  auto&& column = std::get<ColumnType>(columns);
  auto res = sqlite3_last_insert_rowid(db);
  column.value = static_cast<Id::real_type>(res);
}
  Row(std::string name):
      table_name(std::move(name))
  {}

template <std::size_t N=0, typename... T>
typename std::enable_if<N < sizeof...(T), void>::type
update_autoincrement_id(std::tuple<T...>& columns, sqlite3* db)
{
  using ColumnType = typename std::remove_reference<decltype(std::get<N>(columns))>::type;
  update_id<ColumnType>(columns, db);
  update_autoincrement_id<N+1>(columns, db);
}
  template <typename Type>
  typename Type::real_type& col()
  {
    auto&& col = std::get<Type>(this->columns);
    return col.value;
  }

template <std::size_t N=0, typename... T>
typename std::enable_if<N == sizeof...(T), void>::type
update_autoincrement_id(std::tuple<T...>&, sqlite3*)
{}
  template <typename Type>
  const auto& col() const
  {
    auto&& col = std::get<Type>(this->columns);
    return col.value;
  }

template <typename... T>
struct Row
{
    Row(std::string name):
    table_name(std::move(name))
    {}
  template <bool Coucou=true>
  void save(std::unique_ptr<DatabaseEngine>& db,  typename std::enable_if<!is_one_of<Id, T...> && Coucou>::type* = nullptr)
  {
    this->insert(*db);
  }

    template <typename Type>
    typename Type::real_type& col()
    {
      auto&& col = std::get<Type>(this->columns);
      return col.value;
    }
  template <bool Coucou=true>
  void save(std::unique_ptr<DatabaseEngine>& db,  typename std::enable_if<is_one_of<Id, T...> && Coucou>::type* = nullptr)
  {
    const Id& id = std::get<Id>(this->columns);
    if (id.value == Id::unset_value)
      {
        this->insert(*db);
        std::get<Id>(this->columns).value = db->last_inserted_rowid;
      }
    else
      this->update(*db);
  }

    template <typename Type>
    const auto& col() const
    {
      auto&& col = std::get<Type>(this->columns);
      return col.value;
    }
 private:
  void insert(DatabaseEngine& db)
  {
    InsertQuery query(this->table_name, this->columns);
    // Ugly workaround for non portable stuff
    query.body += db.get_returning_id_sql_string(Id::name);
    query.execute(db, this->columns);
  }

    void save(sqlite3* db)
    {
      InsertQuery query(this->table_name);
      query.insert_col_names(this->columns);
      query.insert_values(this->columns);
  void update(DatabaseEngine& db)
  {
    UpdateQuery query(this->table_name, this->columns);

      query.execute(this->columns, db);
    query.execute(db, this->columns);
  }

      update_autoincrement_id(this->columns, db);
    }
public:
  std::tuple<T...> columns;
  std::string table_name;

    std::tuple<T...> columns;
    std::string table_name;
};

M src/database/select_query.hpp => src/database/select_query.hpp +15 -13
@@ 1,5 1,7 @@
#pragma once

#include <database/engine.hpp>

#include <database/statement.hpp>
#include <database/query.hpp>
#include <logger/logger.hpp>


@@ 10,32 12,27 @@
#include <vector>
#include <string>

#include <sqlite3.h>

using namespace std::string_literals;

template <typename T>
typename std::enable_if<std::is_integral<T>::value, sqlite3_int64>::type
typename std::enable_if<std::is_integral<T>::value, std::int64_t>::type
extract_row_value(Statement& statement, const int i)
{
  return sqlite3_column_int64(statement.get(), i);
  return statement.get_column_int64(i);
}

template <typename T>
typename std::enable_if<std::is_same<std::string, T>::value, T>::type
extract_row_value(Statement& statement, const int i)
{
  const auto size = sqlite3_column_bytes(statement.get(), i);
  const unsigned char* str = sqlite3_column_text(statement.get(), i);
  std::string result(reinterpret_cast<const char*>(str), static_cast<std::size_t>(size));
  return result;
  return statement.get_column_text(i);
}

template <typename T>
typename std::enable_if<std::is_same<OptionalBool, T>::value, T>::type
extract_row_value(Statement& statement, const int i)
{
  const auto integer = sqlite3_column_int(statement.get(), i);
  const auto integer = statement.get_column_int(i);
  OptionalBool result;
  if (integer > 0)
    result.set_value(true);


@@ 109,16 106,21 @@ struct SelectQuery: public Query
      return *this;
    }

    auto execute(sqlite3* db)
    auto execute(DatabaseEngine& db)
    {
      auto statement = this->prepare(db);
      std::vector<Row<T...>> rows;
      while (sqlite3_step(statement.get()) == SQLITE_ROW)

      auto statement = db.prepare(this->body);
      statement->bind(std::move(this->params));

      while (statement->step() == StepResult::Row)
        {
          log_debug("one result.");
          Row<T...> row(this->table_name);
          extract_row_values(row, statement);
          extract_row_values(row, *statement);
          rows.push_back(row);
        }

      return rows;
    }


A src/database/sqlite3_engine.cpp => src/database/sqlite3_engine.cpp +99 -0
@@ 0,0 1,99 @@
#include <biboumi.h>

#ifdef SQLITE3_FOUND

#include <database/sqlite3_engine.hpp>

#include <database/sqlite3_statement.hpp>

#include <utils/tolower.hpp>
#include <logger/logger.hpp>
#include <vector>

Sqlite3Engine::Sqlite3Engine(sqlite3* db):
    db(db)
{
}

Sqlite3Engine::~Sqlite3Engine()
{
  sqlite3_close(this->db);
}

std::set<std::string> Sqlite3Engine::get_all_columns_from_table(const std::string& table_name)
{
  std::set<std::string> result;
  char* errmsg;
  std::string query{"PRAGMA table_info(" + table_name + ")"};
  int res = sqlite3_exec(this->db, query.data(), [](void* param, int columns_nb, char** columns, char**) -> int {
    constexpr int name_column = 1;
    std::set<std::string>* result = static_cast<std::set<std::string>*>(param);
    if (name_column < columns_nb)
      result->insert(utils::tolower(columns[name_column]));
    return 0;
  }, &result, &errmsg);

  if (res != SQLITE_OK)
    {
      log_error("Error executing ", query, ": ", errmsg);
      sqlite3_free(errmsg);
    }

  log_debug("List of columns in table ", table_name, ":");
  for (const auto& c: result)
    log_debug(c);
  return result;
}

std::unique_ptr<DatabaseEngine> Sqlite3Engine::open(const std::string& filename)
{
  sqlite3* new_db;
  auto res = sqlite3_open_v2(filename.data(), &new_db, SQLITE_OPEN_READWRITE | SQLITE_OPEN_CREATE, nullptr);
  if (res != SQLITE_OK)
    {
      log_error("Failed to open database file ", filename, ": ", sqlite3_errmsg(new_db));
      sqlite3_close(new_db);
      throw std::runtime_error("");
    }
  return std::make_unique<Sqlite3Engine>(new_db);
}

std::tuple<bool, std::string> Sqlite3Engine::raw_exec(const std::string& query)
{
  char* error;
  const auto result = sqlite3_exec(db, query.data(), nullptr, nullptr, &error);
  if (result != SQLITE_OK)
    {
      std::string err_msg(error);
      sqlite3_free(error);
      return std::make_tuple(false, err_msg);
    }
  return std::make_tuple(true, std::string{});
}

std::unique_ptr<Statement> Sqlite3Engine::prepare(const std::string& query)
{
  sqlite3_stmt* stmt;
  log_debug("SQLITE3: ", query);
  auto res = sqlite3_prepare(db, query.data(), static_cast<int>(query.size()) + 1,
                             &stmt, nullptr);
  if (res != SQLITE_OK)
    {
      log_error("Error preparing statement: ", sqlite3_errmsg(db));
      return nullptr;
    }
  return std::make_unique<Sqlite3Statement>(stmt);
}

void Sqlite3Engine::extract_last_insert_rowid(Statement& statement)
{
  this->last_inserted_rowid = sqlite3_last_insert_rowid(this->db);
  log_debug("extracted inserted ID: ", this->last_inserted_rowid);
}

std::string Sqlite3Engine::id_column_type()
{
  return "INTEGER PRIMARY KEY AUTOINCREMENT";
}

#endif

A src/database/sqlite3_engine.hpp => src/database/sqlite3_engine.hpp +47 -0
@@ 0,0 1,47 @@
#pragma once

#include <database/engine.hpp>

#include <database/statement.hpp>

#include <memory>
#include <string>
#include <tuple>
#include <set>

#include <biboumi.h>

#ifdef SQLITE3_FOUND

#include <sqlite3.h>

class Sqlite3Engine: public DatabaseEngine
{
 public:
  Sqlite3Engine(sqlite3* db);

  ~Sqlite3Engine();

  static std::unique_ptr<DatabaseEngine> open(const std::string& string);

  std::set<std::string> get_all_columns_from_table(const std::string& table_name) override final;
  std::tuple<bool, std::string> raw_exec(const std::string& query) override final;
  std::unique_ptr<Statement> prepare(const std::string& query) override;
  void extract_last_insert_rowid(Statement& statement) override;
  std::string id_column_type() override;
private:
  sqlite3* const db;
};

#else

class Sqlite3Engine
{
public:
  static std::unique_ptr<DatabaseEngine> open(const std::string& string)
  {
    throw std::runtime_error("Cannot open sqlite3 database "s + string + ": biboumi is not compiled with sqlite3 lib.");
  }
};

#endif

A src/database/sqlite3_statement.hpp => src/database/sqlite3_statement.hpp +93 -0
@@ 0,0 1,93 @@
#pragma once

#include <database/statement.hpp>

#include <logger/logger.hpp>

#include <sqlite3.h>

class Sqlite3Statement: public Statement
{
 public:
  Sqlite3Statement(sqlite3_stmt* stmt):
      stmt(stmt) {}
  ~Sqlite3Statement()
  {
    sqlite3_finalize(this->stmt);
  }

  StepResult step() override final
  {
    auto res = sqlite3_step(this->get());
    log_debug("step: ", res);
    if (res == SQLITE_ROW)
      return StepResult::Row;
    else if (res == SQLITE_DONE)
      return StepResult::Done;
    else
      return StepResult::Error;
  }

  void bind(std::vector<std::string> params) override
  {
  int i = 1;
  for (const std::string& param: params)
    {
      if (sqlite3_bind_text(this->get(), i, param.data(), static_cast<int>(param.size()), SQLITE_TRANSIENT) != SQLITE_OK)
        log_error("Failed to bind ", param, " to param ", i);
      i++;
    }
  }

  int64_t get_column_int64(const int col) override
  {
    return sqlite3_column_int64(this->get(), col);
  }

  std::string get_column_text(const int col) override
  {
    const auto size = sqlite3_column_bytes(this->get(), col);
    const unsigned char* str = sqlite3_column_text(this->get(), col);
    std::string result(reinterpret_cast<const char*>(str), static_cast<std::size_t>(size));
    return result;
  }

  bool bind_text(const int pos, const std::string& data) override
  {
    return sqlite3_bind_text(this->get(), pos, data.data(), static_cast<int>(data.size()), SQLITE_TRANSIENT) == SQLITE_OK;
  }
  bool bind_int64(const int pos, const std::int64_t value) override
  {
    return sqlite3_bind_int64(this->get(), pos, static_cast<sqlite3_int64>(value)) == SQLITE_OK;
  }
  bool bind_null(const int pos) override
  {
    return sqlite3_bind_null(this->get(), pos) == SQLITE_OK;
  }
  int get_column_int(const int col) override
  {
    return sqlite3_column_int(this->get(), col);
  }

  Sqlite3Statement(const Sqlite3Statement&) = delete;
  Sqlite3Statement& operator=(const Sqlite3Statement&) = delete;
  Sqlite3Statement(Sqlite3Statement&& other):
      stmt(other.stmt)
  {
    other.stmt = nullptr;
  }
  Sqlite3Statement& operator=(Sqlite3Statement&& other)
  {
    this->stmt = other.stmt;
    other.stmt = nullptr;
    return *this;
  }
  sqlite3_stmt* get()
  {
    return this->stmt;
  }

 private:
  sqlite3_stmt* stmt;
  int last_step_result{SQLITE_OK};
};

M src/database/statement.hpp => src/database/statement.hpp +20 -26
@@ 1,35 1,29 @@
#pragma once

#include <sqlite3.h>
#include <cstdint>
#include <string>
#include <vector>

enum class StepResult
{
  Row,
  Done,
  Error,
};

class Statement
{
 public:
  Statement(sqlite3_stmt* stmt):
      stmt(stmt) {}
  ~Statement()
  {
    sqlite3_finalize(this->stmt);
  }
  virtual ~Statement() = default;
  virtual StepResult step() = 0;

  virtual void bind(std::vector<std::string> params) = 0;

  Statement(const Statement&) = delete;
  Statement& operator=(const Statement&) = delete;
  Statement(Statement&& other):
      stmt(other.stmt)
  {
    other.stmt = nullptr;
  }
  Statement& operator=(Statement&& other)
  {
    this->stmt = other.stmt;
    other.stmt = nullptr;
    return *this;
  }
  sqlite3_stmt* get()
  {
    return this->stmt;
  }
  virtual std::int64_t get_column_int64(const int col) = 0;
  virtual std::string get_column_text(const int col) = 0;
  virtual int get_column_int(const int col) = 0;

 private:
  sqlite3_stmt* stmt;
  virtual bool bind_text(const int pos, const std::string& data) = 0;
  virtual bool bind_int64(const int pos, const std::int64_t value) = 0;
  virtual bool bind_null(const int pos) = 0;
};

D src/database/table.cpp => src/database/table.cpp +0 -23
@@ 1,23 0,0 @@
#include <database/table.hpp>

std::set<std::string> get_all_columns_from_table(sqlite3* db, const std::string& table_name)
{
  std::set<std::string> result;
  char* errmsg;
  std::string query{"PRAGMA table_info(" + table_name + ")"};
  int res = sqlite3_exec(db, query.data(), [](void* param, int columns_nb, char** columns, char**) -> int {
    constexpr int name_column = 1;
    std::set<std::string>* result = static_cast<std::set<std::string>*>(param);
    if (name_column < columns_nb)
      result->insert(columns[name_column]);
    return 0;
  }, &result, &errmsg);

  if (res != SQLITE_OK)
    {
      log_error("Error executing ", query, ": ", errmsg);
      sqlite3_free(errmsg);
    }

  return result;
}

M src/database/table.hpp => src/database/table.hpp +48 -41
@@ 1,7 1,8 @@
#pragma once

#include <database/engine.hpp>

#include <database/select_query.hpp>
#include <database/type_to_sql.hpp>
#include <database/row.hpp>

#include <algorithm>


@@ 10,23 11,27 @@

using namespace std::string_literals;

std::set<std::string> get_all_columns_from_table(sqlite3* db, const std::string& table_name);
template <typename T>
std::string ToSQLType(DatabaseEngine& db)
{
  if (std::is_same<T, Id>::value)
    return db.id_column_type();
  else if (std::is_same<typename T::real_type, std::string>::value)
    return "TEXT";
  else
    return "INTEGER";
}

template <typename ColumnType>
void add_column_to_table(sqlite3* db, const std::string& table_name)
void add_column_to_table(DatabaseEngine& db, const std::string& table_name)
{
  const std::string name = ColumnType::name;
  std::string query{"ALTER TABLE " + table_name + " ADD " + ColumnType::name + " " + TypeToSQLType<typename ColumnType::real_type>::type};
  char* error;
  const auto result = sqlite3_exec(db, query.data(), nullptr, nullptr, &error);
  if (result != SQLITE_OK)
    {
      log_error("Error adding column ", name, " to table ", table_name, ": ",  error);
      sqlite3_free(error);
    }
  std::string query{"ALTER TABLE " + table_name + " ADD " + ColumnType::name + " " + ToSQLType<ColumnType>(db)};
  auto res = db.raw_exec(query);
  if (std::get<0>(res) == false)
    log_error("Error adding column ", name, " to table ", table_name, ": ",  std::get<1>(res));
}


template <typename ColumnType, decltype(ColumnType::options) = nullptr>
void append_option(std::string& s)
{


@@ 50,27 55,24 @@ class Table
      name(std::move(name))
  {}

  void upgrade(sqlite3* db)
  void upgrade(DatabaseEngine& db)
  {
    const auto existing_columns = get_all_columns_from_table(db, this->name);
    const auto existing_columns = db.get_all_columns_from_table(this->name);
    add_column_if_not_exists(db, existing_columns);
  }

  void create(sqlite3* db)
  void create(DatabaseEngine& db)
  {
    std::string res{"CREATE TABLE IF NOT EXISTS "};
    res += this->name;
    res += " (\n";
    this->add_column_create(res);
    res += ")";

    char* error;
    const auto result = sqlite3_exec(db, res.data(), nullptr, nullptr, &error);
    if (result != SQLITE_OK)
      {
        log_error("Error executing query: ", error);
        sqlite3_free(error);
      }
    std::string query{"CREATE TABLE IF NOT EXISTS "};
    query += this->name;
    query += " (\n";
    this->add_column_create(db, query);
    query += ")";

    log_debug("create:" , query);
    auto result = db.raw_exec(query);
    if (std::get<0>(result) == false)
      log_error("Error executing query: ", std::get<1>(result));
  }

  RowType row()


@@ 78,7 80,7 @@ class Table
    return {this->name};
  }

  SelectQuery<T...> select()
  auto select()
  {
    SelectQuery<T...> select(this->name);
    return select;


@@ 93,39 95,44 @@ class Table

  template <std::size_t N=0>
  typename std::enable_if<N < sizeof...(T), void>::type
  add_column_if_not_exists(sqlite3* db, const std::set<std::string>& existing_columns)
  add_column_if_not_exists(DatabaseEngine& db, const std::set<std::string>& existing_columns)
  {
    using ColumnType = typename std::remove_reference<decltype(std::get<N>(std::declval<ColumnTypes>()))>::type;
    if (existing_columns.count(ColumnType::name) != 1)
      {
        add_column_to_table<ColumnType>(db, this->name);
      }
    if (existing_columns.count(ColumnType::name) == 0)
      add_column_to_table<ColumnType>(db, this->name);
    add_column_if_not_exists<N+1>(db, existing_columns);
  }
  template <std::size_t N=0>
  typename std::enable_if<N == sizeof...(T), void>::type
  add_column_if_not_exists(sqlite3*, const std::set<std::string>&)
  add_column_if_not_exists(DatabaseEngine&, const std::set<std::string>&)
  {}

  template <std::size_t N=0>
  typename std::enable_if<N < sizeof...(T), void>::type
  add_column_create(std::string& str)
  add_column_create(DatabaseEngine& db, std::string& str)
  {
    using ColumnType = typename std::remove_reference<decltype(std::get<N>(std::declval<ColumnTypes>()))>::type;
    using RealType = typename ColumnType::real_type;
//    using RealType = typename ColumnType::real_type;
    str += ColumnType::name;
    str += " ";
    str += TypeToSQLType<RealType>::type;
    append_option<ColumnType>(str);
//    if (std::is_same<ColumnType, Id>::value)
//      {
//        str += "INTEGER PRIMARY KEY AUTOINCREMENT";
//      }
//    else
//      {
        str += ToSQLType<ColumnType>(db);
//        append_option<ColumnType>(str);
//      }
    if (N != sizeof...(T) - 1)
      str += ",";
    str += "\n";

    add_column_create<N+1>(str);
    add_column_create<N+1>(db, str);
  }
  template <std::size_t N=0>
  typename std::enable_if<N == sizeof...(T), void>::type
  add_column_create(std::string&)
  add_column_create(DatabaseEngine&, std::string&)
  { }

  const std::string name;

D src/database/type_to_sql.cpp => src/database/type_to_sql.cpp +0 -9
@@ 1,9 0,0 @@
#include <database/type_to_sql.hpp>

template <> const std::string TypeToSQLType<int>::type = "INTEGER";
template <> const std::string TypeToSQLType<std::size_t>::type = "INTEGER";
template <> const std::string TypeToSQLType<long>::type = "INTEGER";
template <> const std::string TypeToSQLType<long long>::type = "INTEGER";
template <> const std::string TypeToSQLType<bool>::type = "INTEGER";
template <> const std::string TypeToSQLType<std::string>::type = "TEXT";
template <> const std::string TypeToSQLType<OptionalBool>::type = "INTEGER";
\ No newline at end of file

D src/database/type_to_sql.hpp => src/database/type_to_sql.hpp +0 -16
@@ 1,16 0,0 @@
#pragma once

#include <utils/optional_bool.hpp>

#include <string>

template <typename T>
struct TypeToSQLType { static const std::string type; };

template <> const std::string TypeToSQLType<int>::type;
template <> const std::string TypeToSQLType<std::size_t>::type;
template <> const std::string TypeToSQLType<long>::type;
template <> const std::string TypeToSQLType<long long>::type;
template <> const std::string TypeToSQLType<bool>::type;
template <> const std::string TypeToSQLType<std::string>::type;
template <> const std::string TypeToSQLType<OptionalBool>::type;
\ No newline at end of file

A src/database/update_query.hpp => src/database/update_query.hpp +100 -0
@@ 0,0 1,100 @@
#pragma once

#include <database/query.hpp>
#include <database/engine.hpp>

using namespace std::string_literals;

template <class T, class... Tuple>
struct Index;

template <class T, class... Types>
struct Index<T, std::tuple<T, Types...>>
{
  static const std::size_t value = 0;
};

template <class T, class U, class... Types>
struct Index<T, std::tuple<U, Types...>>
{
  static const std::size_t value = Index<T, std::tuple<Types...>>::value + 1;
};

struct UpdateQuery: public Query
{
  template <typename... T>
  UpdateQuery(const std::string& name, const std::tuple<T...>& columns):
      Query("UPDATE ")
  {
    this->body += name;
    this->insert_col_names_and_values(columns);
  }

  template <typename... T>
  void insert_col_names_and_values(const std::tuple<T...>& columns)
  {
    this->body += " SET ";
    this->insert_col_name_and_value(columns);
    this->body += " WHERE "s + Id::name + "=$" + std::to_string(this->current_param);
  }

  template <int N=0, typename... T>
  typename std::enable_if<N < sizeof...(T), void>::type
  insert_col_name_and_value(const std::tuple<T...>& columns)
  {
    using ColumnType = std::decay_t<decltype(std::get<N>(columns))>;

    if (!std::is_same<ColumnType, Id>::value)
      {
        this->body += ColumnType::name + "=$"s + std::to_string(this->current_param);
        this->current_param++;

        if (N < (sizeof...(T) - 1))
          this->body += ", ";
      }

    this->insert_col_name_and_value<N+1>(columns);
  }
  template <int N=0, typename... T>
  typename std::enable_if<N == sizeof...(T), void>::type
  insert_col_name_and_value(const std::tuple<T...>&)
  {}


  template <typename... T>
  void execute(DatabaseEngine& db, const std::tuple<T...>& columns)
  {
    auto statement = db.prepare(this->body);
    this->bind_param(columns, *statement);
    this->bind_id(columns, *statement);

    statement->step();
  }

  template <int N=0, typename... T>
  typename std::enable_if<N < sizeof...(T), void>::type
  bind_param(const std::tuple<T...>& columns, Statement& statement, int index=1)
  {
    auto&& column = std::get<N>(columns);
    using ColumnType = std::decay_t<decltype(column)>;

    if (!std::is_same<ColumnType, Id>::value)
      actual_bind(statement, column.value, index++);

    this->bind_param<N+1>(columns, statement, index);
  }

  template <int N=0, typename... T>
  typename std::enable_if<N == sizeof...(T), void>::type
  bind_param(const std::tuple<T...>&, Statement&, int)
  {}

  template <typename... T>
  void bind_id(const std::tuple<T...>& columns, Statement& statement)
  {
    static constexpr auto index = Index<Id, std::tuple<T...>>::value;
    auto&& value = std::get<index>(columns);

    actual_bind(statement, value.value, sizeof...(T));
  }
};

M src/main.cpp => src/main.cpp +2 -1
@@ 88,7 88,8 @@ int main(int ac, char** av)
#ifdef USE_DATABASE
  try {
    open_database();
  } catch (...) {
  } catch (const std::exception& e) {
    log_error(e.what());
    return 1;
  }
#endif

A src/utils/is_one_of.hpp => src/utils/is_one_of.hpp +17 -0
@@ 0,0 1,17 @@
#pragma once

#include <type_traits>

template <typename...>
struct is_one_of_implem {
    static constexpr bool value = false;
};

template <typename F, typename S, typename... T>
struct is_one_of_implem<F, S, T...> {
    static constexpr bool value =
        std::is_same<F, S>::value || is_one_of_implem<F, T...>::value;
};

template<typename... T>
constexpr bool is_one_of = is_one_of_implem<T...>::value;

A src/utils/optional_bool.cpp => src/utils/optional_bool.cpp +8 -0
@@ 0,0 1,8 @@
#include <utils/optional_bool.hpp>


std::ostream& operator<<(std::ostream& os, const OptionalBool& o)
{
  os << o.to_string();
  return os;
}

M src/utils/optional_bool.hpp => src/utils/optional_bool.hpp +3 -1
@@ 20,7 20,7 @@ struct OptionalBool
    this->is_set = false;
  }

  std::string to_string()
  std::string to_string() const
  {
    if (this->is_set == false)
      return "unset";


@@ 33,3 33,5 @@ struct OptionalBool
  bool is_set{false};
  bool value{false};
};

std::ostream& operator<<(std::ostream& os, const OptionalBool& o);

M src/xmpp/biboumi_component.cpp => src/xmpp/biboumi_component.cpp +6 -0
@@ 1080,6 1080,9 @@ void BiboumiComponent::on_irc_client_connected(const std::string& irc_hostname, 
  const auto local_jid = irc_hostname + "@" + this->served_hostname;
  if (Database::has_roster_item(local_jid, jid))
    this->send_presence_to_contact(local_jid, jid, "");
#else
  (void)irc_hostname;
  (void)jid;
#endif
}



@@ 1089,6 1092,9 @@ void BiboumiComponent::on_irc_client_disconnected(const std::string& irc_hostnam
  const auto local_jid = irc_hostname + "@" + this->served_hostname;
  if (Database::has_roster_item(local_jid, jid))
    this->send_presence_to_contact(irc_hostname + "@" + this->served_hostname, jid, "unavailable");
#else
  (void)irc_hostname;
  (void)jid;
#endif
}


M tests/database.cpp => tests/database.cpp +27 -4
@@ 1,19 1,43 @@
#include "catch.hpp"

#include <biboumi.h>

#ifdef USE_DATABASE

#include <cstdlib>

#include <database/database.hpp>

#include <config/config.hpp>

TEST_CASE("Database")
{
#ifdef USE_DATABASE
  Database::open(":memory:");
#ifdef PQ_FOUND
  std::string postgresql_uri{"postgresql://"};
  const char* env_value = ::getenv("TEST_POSTGRES_URI");
  if (env_value != nullptr)
    Database::open("postgresql://"s + env_value);
  else
#endif
    Database::open(":memory:");

  Database::raw_exec("DELETE FROM " + Database::irc_server_options.get_name());
  Database::raw_exec("DELETE FROM " + Database::irc_channel_options.get_name());

  SECTION("Basic retrieve and update")
    {
      auto o = Database::get_irc_server_options("zouzou@example.com", "irc.example.com");
      CHECK(Database::count(Database::irc_server_options) == 0);
      o.save(Database::db);
      CHECK(Database::count(Database::irc_server_options) == 1);
      o.col<Database::Realname>() = "Different realname";
      CHECK(o.col<Database::Realname>() == "Different realname");
      o.save(Database::db);
      CHECK(o.col<Database::Realname>() == "Different realname");
      CHECK(Database::count(Database::irc_server_options) == 1);

      auto a = Database::get_irc_server_options("zouzou@example.com", "irc.example.com");
      CHECK(a.col<Database::Realname>() == "Different realname");
      auto b = Database::get_irc_server_options("moumou@example.com", "irc.example.com");

      // b does not yet exist in the db, the object is created but not yet


@@ 28,7 52,6 @@ TEST_CASE("Database")

  SECTION("channel options")
    {
      Config::set("db_name", ":memory:");
      auto o = Database::get_irc_channel_options("zouzou@example.com", "irc.example.com", "#foo");

      CHECK(o.col<Database::EncodingIn>() == "");


@@ 95,5 118,5 @@ TEST_CASE("Database")
    }

  Database::close();
#endif
}
#endif

M tests/utils.cpp => tests/utils.cpp +12 -0
@@ 11,6 11,7 @@
#include <utils/system.hpp>
#include <utils/scopeguard.hpp>
#include <utils/dirname.hpp>
#include <utils/is_one_of.hpp>

using namespace std::string_literals;



@@ 171,3 172,14 @@ TEST_CASE("dirname")
  CHECK(utils::dirname(".") == ".");
  CHECK(utils::dirname("./") == "./");
}

TEST_CASE("is_in")
{
  CHECK((is_one_of<int, float, std::string, int>) == true);
  CHECK((is_one_of<int, float, std::string>) == false);
  CHECK((is_one_of<int>) == false);
  CHECK((is_one_of<int, int>) == true);
  CHECK((is_one_of<bool, int>) == false);
  CHECK((is_one_of<bool, bool>) == true);
  CHECK((is_one_of<bool, bool, bool, bool, bool, int>) == true);
}