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15 Commits

Author SHA1 Message Date
kdeng00 a1edbeb164 Fixed issue of the configuration verification test failing 2020-02-15 17:37:51 -05:00
kdeng00 437a6b1453 Fixed issue with special characters not being recorded properly 2020-02-15 17:32:52 -05:00
Kun Deng f2d0947b36 Merge pull request #63 from kdeng00/dist_change
API is functional again after the dependency updates
2020-02-02 20:33:48 -05:00
kdeng00 b067882c09 API is functional again after the dependency updates 2020-02-02 20:32:09 -05:00
kdeng00 57f76ee4a4 api is functional after the dependency updates 2020-02-01 20:58:48 -05:00
kdeng00 e846989a7f Not finished updating dependencies. oatpp has changed 2020-01-30 19:30:21 -05:00
kdeng00 91ae3a908e Updated json dependency 2020-01-29 19:12:23 -05:00
kdeng00 a970ba207e updating dependencies and code refactoring for the new changes 2020-01-28 21:03:56 -05:00
kdeng00 979dd66842 Made it easier to build the bcrypt library 2019-11-17 13:55:01 -05:00
kdeng00 69f5a37eb3 Code cleanup 2019-11-17 13:33:58 -05:00
kdeng00 ca1fcb801d Added functionality to check if the song already exists when uploading 2019-11-13 20:22:29 -05:00
kdeng00 3b0f199dca forgout about one file 2019-11-12 23:03:42 -05:00
kdeng00 41ae06e19a Fixed bug when song upload HTTP endpoint returns a response of the uploading song with errors 2019-11-12 22:51:07 -05:00
kdeng00 9b4a0db67a Added albumArtist field memeber to Song model. Automatically apply disc value 1 for song's metadata that have an empty disc field. Switched from TagLib::FileRef to TagLib::MPEG::File 2019-11-04 22:26:03 -05:00
kdeng00 c7bbdfe581 Code clean up 2019-11-03 13:03:32 -05:00
83 changed files with 4653 additions and 4984 deletions
+1 -1
+1 -1
+10 -7
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@@ -80,6 +80,7 @@ set(HEADERS
include/type/Scopes.h
include/type/SongChanged.h
include/type/SongFilter.h
include/type/SongUpload.h
include/type/UserFilter.h
include/type/YearFilter.h
include/verify/Initialization.h
@@ -122,21 +123,23 @@ set(JWT_CPP_INCLUDE
${CMAKE_CURRENT_SOURCE_DIR}/3rdparty/jwt-cpp/include
)
set (ORM_DIR
${CMAKE_CURRENT_SOURCE_DIR}/3rdparty/ormpp
)
include(${CMAKE_BINARY_DIR}/conanbuildinfo.cmake)
conan_basic_setup()
find_library(BCRYPT bcrypt ${BCRYPTLIB})
#find_library(BCRYPT bcrypt ${BCRYPTLIB})
include_directories(include ${CPR_INCLUDE_DIRS} ${TAGLIB} ${TAGLIB_HEADERS} ${BCRYPTLIB}/)
include_directories(include ${CPR_INCLUDE_DIRS} ${TAGLIB} ${TAGLIB_HEADERS} ${BCRYPTLIB})
add_subdirectory(${CMAKE_CURRENT_SOURCE_DIR}/3rdparty/cpr)
add_subdirectory(${CMAKE_CURRENT_SOURCE_DIR}/3rdparty/taglib)
add_subdirectory(${CMAKE_CURRENT_SOURCE_DIR}/3rdparty/oatpp)
#add_subdirectory(${CMAKE_CURRENT_SOURCE_DIR}/3rdparty/libbcrypt)
add_library(bcrypt STATIC IMPORTED)
set_target_properties(bcrypt PROPERTIES IMPORTED_LOCATION
"${CMAKE_CURRENT_SOURCE_DIR}/3rdparty/libbcrypt/bcrypt.a"
)
configure_file(${CMAKE_CURRENT_SOURCE_DIR}/appsettings.json ${CMAKE_BINARY_DIR}/bin/appsettings.json COPYONLY)
configure_file(${CMAKE_CURRENT_SOURCE_DIR}/authcredentials.json ${CMAKE_BINARY_DIR}/bin/authcredentials.json COPYONLY)
@@ -146,4 +149,4 @@ configure_file(${CMAKE_CURRENT_SOURCE_DIR}/Images/Stock/CoverArt.png ${CMAKE_BIN
add_executable(icarus ${SOURCES} ${HEADERS})
target_include_directories(icarus PUBLIC ${JWT_CPP_INCLUDE})
target_link_libraries(icarus "-lstdc++fs" tag oatpp mysqlclient ${CONAN_LIBS} ${CPR_LIBRARIES} ${BCRYPT})
target_link_libraries(icarus "-lstdc++fs" tag oatpp mysqlclient ${CONAN_LIBS} ${CPR_LIBRARIES} bcrypt)
+1 -3
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@@ -53,7 +53,7 @@ Replace [domain] with the domain name of the created tenant. This can be found i
"client_secret": "Icankeepasecret"
```
For the sake of this section, I will not go over configuring the API to accept the signing algorithm since it has already been configured in the [Startip](Startup.cs).cs file. Click on permissions to create the permissions for the API.
Click on permissions to create the permissions for the API.
<h1 align "center">
<img src="Images/Configuration/configure_api.png" width=100%>
</h1>
@@ -151,8 +151,6 @@ From this point the database has been successfully created. Metadata and song fi
git clone --recursive https://github.com/kdeng00/icarus
cd 3rdparty/libbcrypt/
make
cp bcrypt.a libbcrypt.a
cp bcrypt.o libbcrypt.o
cd ../..
mkdir build
cd build
+1
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@@ -13,6 +13,7 @@ CREATE TABLE CoverArt (
CREATE TABLE Album (
AlbumId INT NOT NULL AUTO_INCREMENT,
Title TEXT NOT NULL,
Artist TEXT NOT NULL,
Year INT NOT NULL,
PRIMARY KEY (AlbumId)
+1 -1
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@@ -1,5 +1,5 @@
[requires]
jsonformoderncpp/3.7.0@vthiery/stable
jsonformoderncpp/3.7.3@vthiery/stable
[generators]
cmake
+14 -13
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@@ -4,23 +4,24 @@
#include <string>
#include "oatpp/core/data/stream/FileStream.hpp"
#include "oatpp/web/protocol/http/outgoing/ChunkedBody.hpp"
#include "oatpp/core/data/stream/Stream.hpp"
#include "oatpp/core/async/Coroutine.hpp"
//#include "oatpp/web/protocol/http/outgoing/ChunkedBody.hpp"
namespace callback {
class StreamCallback : public oatpp::data::stream::ReadCallback
{
public:
StreamCallback();
StreamCallback(const std::string&);
class StreamCallback : public oatpp::data::stream::ReadCallback {
public:
StreamCallback();
StreamCallback(const std::string&);
oatpp::data::v_io_size read(void*, oatpp::data::v_io_size);
private:
std::string m_songPath;
oatpp::v_io_size read(void*, v_buff_size, oatpp::async::Action&);
private:
std::string m_songPath;
long m_bytesRead;
long m_counter;
long m_fileSize;
};
long m_bytesRead;
long m_counter;
long m_fileSize;
};
}
#endif
+22 -19
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@@ -9,29 +9,32 @@
#include "oatpp/web/server/HttpConnectionHandler.hpp"
namespace component {
class AppComponent {
public:
OATPP_CREATE_COMPONENT(std::shared_ptr<oatpp::network::ServerConnectionProvider>,
serverConnectionProvider)([&] {
return oatpp::network::server::SimpleTCPConnectionProvider::
createShared(appPort());
}());
class AppComponent
{
public:
OATPP_CREATE_COMPONENT(std::shared_ptr<oatpp::network::ServerConnectionProvider>, serverConnectionProvider)([] {
return oatpp::network::server::SimpleTCPConnectionProvider::createShared(5002);
}());
OATPP_CREATE_COMPONENT(std::shared_ptr<oatpp::web::server::HttpRouter>, httpRouter)([] {
return oatpp::web::server::HttpRouter::createShared();
}());
OATPP_CREATE_COMPONENT(std::shared_ptr<oatpp::web::server::HttpRouter>, httpRouter)([] {
return oatpp::web::server::HttpRouter::createShared();
}());
OATPP_CREATE_COMPONENT(std::shared_ptr<oatpp::network::server::ConnectionHandler>,
serverConnectionHandler)([] {
OATPP_COMPONENT(std::shared_ptr<oatpp::web::server::HttpRouter>, router);
OATPP_CREATE_COMPONENT(std::shared_ptr<oatpp::network::server::ConnectionHandler>, serverConnectionHandler)([] {
OATPP_COMPONENT(std::shared_ptr<oatpp::web::server::HttpRouter>, router);
return oatpp::web::server::HttpConnectionHandler::createShared(router);
}());
return oatpp::web::server::HttpConnectionHandler::createShared(router);
}());
OATPP_CREATE_COMPONENT(std::shared_ptr<oatpp::data::mapping::ObjectMapper>, apiObjectMapper)([] {
return oatpp::parser::json::mapping::ObjectMapper::createShared();
}());
private:
};
OATPP_CREATE_COMPONENT(std::shared_ptr<oatpp::data::mapping::ObjectMapper>,
apiObjectMapper)([] {
return oatpp::parser::json::mapping::ObjectMapper::createShared();
}());
private:
constexpr int appPort() noexcept { return 5002; }
};
}
#endif
+49 -57
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@@ -19,6 +19,7 @@
#include "database/AlbumRepository.h"
#include "dto/AlbumDto.hpp"
#include "dto/conversion/DtoConversions.h"
#include "manager/AlbumManager.h"
#include "manager/TokenManager.h"
#include "model/Models.h"
@@ -28,75 +29,66 @@
namespace fs = std::filesystem;
namespace controller {
class AlbumController : public oatpp::web::server::api::ApiController
{
public:
AlbumController(std::string p, OATPP_COMPONENT(std::shared_ptr<ObjectMapper>, objectMapper))
: oatpp::web::server::api::ApiController(objectMapper), m_exe_path(p)
{ }
class AlbumController : public oatpp::web::server::api::ApiController {
public:
AlbumController(const model::BinaryPath& bConf,
OATPP_COMPONENT(std::shared_ptr<ObjectMapper>, objectMapper))
: oatpp::web::server::api::ApiController(objectMapper), m_bConf(bConf) { }
AlbumController(const model::BinaryPath& bConf, OATPP_COMPONENT(std::shared_ptr<ObjectMapper>, objectMapper))
: oatpp::web::server::api::ApiController(objectMapper), m_bConf(bConf)
{ }
#include OATPP_CODEGEN_BEGIN(ApiController)
#include OATPP_CODEGEN_BEGIN(ApiController)
// endpoint for retrieving all album records in json format
ENDPOINT("GET", "/api/v1/album", albumRecords,
REQUEST(std::shared_ptr<IncomingRequest>, request)) {
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth,
type::Scope::retrieveAlbum), Status::CODE_403, "Not allowed");
// endpoint for retrieving all album records in json format
ENDPOINT("GET", "/api/v1/album", albumRecords,
REQUEST(std::shared_ptr<IncomingRequest>, request))
{
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth, type::Scope::retrieveAlbum), Status::CODE_403, "Not allowed");
std::cout << "starting process of retrieving album\n";
database::AlbumRepository albRepo(m_bConf);
auto albsDb = albRepo.retrieveRecords();
auto albums = oatpp::data::mapping::type::
List<dto::AlbumDto::ObjectWrapper>::createShared();
std::cout << "starting process of retrieving album" << std::endl;
database::AlbumRepository albRepo(m_bConf);
auto albsDb = albRepo.retrieveRecords();
auto albums = oatpp::data::mapping::type::List<dto::AlbumDto::ObjectWrapper>::createShared();
for (auto& albDb : albsDb) {
auto alb = dto::conversion::DtoConversions::toAlbumDto(albDb);
for (auto& albDb : albsDb) {
auto alb = dto::AlbumDto::createShared();
alb->id = albDb.id;
alb->title = albDb.title.c_str();
alb->year = albDb.year;
albums->pushBack(alb);
}
albums->pushBack(alb);
}
return createDtoResponse(Status::CODE_200, albums);
}
return createDtoResponse(Status::CODE_200, albums);
}
// endpoint for retrieving single album record by the album id in json format
ENDPOINT("GET", "/api/v1/album/{id}", albumRecord,
REQUEST(std::shared_ptr<IncomingRequest>, request), PATH(Int32, id)) {
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth,
type::Scope::retrieveAlbum), Status::CODE_403, "Not allowed");
// endpoint for retrieving single album record by the album id in json format
ENDPOINT("GET", "/api/v1/album/{id}", albumRecord,
REQUEST(std::shared_ptr<IncomingRequest>, request), PATH(Int32, id)) {
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth, type::Scope::retrieveAlbum), Status::CODE_403, "Not allowed");
database::AlbumRepository albRepo(m_bConf);
model::Album albDb(id);
database::AlbumRepository albRepo(m_bConf);
model::Album albDb(id);
OATPP_ASSERT_HTTP(albRepo.doesAlbumExists(albDb,
type::AlbumFilter::id) , Status::CODE_403, "album does not exist");
OATPP_ASSERT_HTTP(albRepo.doesAlbumExists(albDb, type::AlbumFilter::id) , Status::CODE_403, "album does not exist");
std::cout << "album exists\n";
albDb = albRepo.retrieveRecord(albDb, type::AlbumFilter::id);
std::cout << "album exists" << std::endl;
albDb = albRepo.retrieveRecord(albDb, type::AlbumFilter::id);
auto album = dto::conversion::DtoConversions::toAlbumDto(albDb);
auto album = dto::AlbumDto::createShared();
album->id = albDb.id;
album->title = albDb.title.c_str();
album->year = albDb.year;
return createDtoResponse(Status::CODE_200, album);
}
return createDtoResponse(Status::CODE_200, album);
}
#include OATPP_CODEGEN_END(ApiController)
private:
std::string m_exe_path;
model::BinaryPath m_bConf;
};
#include OATPP_CODEGEN_END(ApiController)
private:
model::BinaryPath m_bConf;
};
}
#endif
+52 -55
View File
@@ -28,73 +28,70 @@
namespace fs = std::filesystem;
namespace controller {
class ArtistController : public oatpp::web::server::api::ApiController
{
public:
ArtistController(std::string p, OATPP_COMPONENT(std::shared_ptr<ObjectMapper>, objectMapper))
: oatpp::web::server::api::ApiController(objectMapper), m_exe_path(p)
{ }
class ArtistController : public oatpp::web::server::api::ApiController {
public:
ArtistController(const model::BinaryPath& bConf,
OATPP_COMPONENT(std::shared_ptr<ObjectMapper>, objectMapper))
: oatpp::web::server::api::ApiController(objectMapper), m_bConf(bConf) { }
ArtistController(const model::BinaryPath& bConf, OATPP_COMPONENT(std::shared_ptr<ObjectMapper>, objectMapper))
: oatpp::web::server::api::ApiController(objectMapper), m_bConf(bConf)
{ }
#include OATPP_CODEGEN_BEGIN(ApiController)
#include OATPP_CODEGEN_BEGIN(ApiController)
// endpoint for retrieving all artist records in json format
ENDPOINT("GET", "/api/v1/artist", artistRecords,
REQUEST(std::shared_ptr<IncomingRequest>, request)) {
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth,
type::Scope::retrieveArtist), Status::CODE_403, "Not allowed");
// endpoint for retrieving all artist records in json format
ENDPOINT("GET", "/api/v1/artist", artistRecords,
REQUEST(std::shared_ptr<IncomingRequest>, request))
{
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth, type::Scope::retrieveArtist), Status::CODE_403, "Not allowed");
std::cout << "starting process of retrieving artist\n";
database::ArtistRepository artRepo(m_bConf);
auto artsDb = artRepo.retrieveRecords();
auto artists = oatpp::data::mapping::type::
List<dto::ArtistDto::ObjectWrapper>::createShared();
std::cout << "starting process of retrieving artist" << std::endl;
database::ArtistRepository artRepo(m_bConf);
auto artsDb = artRepo.retrieveRecords();
auto artists = oatpp::data::mapping::type::List<dto::ArtistDto::ObjectWrapper>::createShared();
for (auto& artDb : artsDb) {
auto art = dto::ArtistDto::createShared();
art->id = artDb.id;
art->artist = artDb.artist.c_str();
for (auto& artDb : artsDb) {
auto art = dto::ArtistDto::createShared();
art->id = artDb.id;
art->artist = artDb.artist.c_str();
artists->pushBack(art);
}
artists->pushBack(art);
}
return createDtoResponse(Status::CODE_200, artists);
}
return createDtoResponse(Status::CODE_200, artists);
}
// endpoint for retrieving single artist record by the artist id in json format
ENDPOINT("GET", "/api/v1/artist/{id}", artistRecord,
REQUEST(std::shared_ptr<IncomingRequest>, request), PATH(Int32, id)) {
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth,
type::Scope::retrieveArtist), Status::CODE_403, "Not allowed");
// endpoint for retrieving single artist record by the artist id in json format
ENDPOINT("GET", "/api/v1/artist/{id}", artistRecord,
REQUEST(std::shared_ptr<IncomingRequest>, request), PATH(Int32, id)) {
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth, type::Scope::retrieveArtist), Status::CODE_403, "Not allowed");
database::ArtistRepository artRepo(m_bConf);
model::Artist artDb(id);
database::ArtistRepository artRepo(m_bConf);
model::Artist artDb(id);
OATPP_ASSERT_HTTP(artRepo.doesArtistExist(artDb,
type::ArtistFilter::id) , Status::CODE_403, "artist does not exist");
OATPP_ASSERT_HTTP(artRepo.doesArtistExist(artDb, type::ArtistFilter::id) , Status::CODE_403, "artist does not exist");
std::cout << "artist exist\n";
artDb = artRepo.retrieveRecord(artDb, type::ArtistFilter::id);
std::cout << "artist exist" << std::endl;
artDb = artRepo.retrieveRecord(artDb, type::ArtistFilter::id);
auto artist = dto::ArtistDto::createShared();
artist->id = artDb.id;
artist->artist = artDb.artist.c_str();
auto artist = dto::ArtistDto::createShared();
artist->id = artDb.id;
artist->artist = artDb.artist.c_str();
return createDtoResponse(Status::CODE_200, artist);
}
return createDtoResponse(Status::CODE_200, artist);
}
#include OATPP_CODEGEN_END(ApiController)
private:
std::string m_exe_path;
model::BinaryPath m_bConf;
};
#include OATPP_CODEGEN_END(ApiController)
private:
model::BinaryPath m_bConf;
};
}
#endif
+71 -73
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@@ -27,95 +27,93 @@
namespace fs = std::filesystem;
namespace controller {
class CoverArtController : public oatpp::web::server::api::ApiController
{
public:
CoverArtController(std::string p, OATPP_COMPONENT(std::shared_ptr<ObjectMapper>, objectMapper))
: oatpp::web::server::api::ApiController(objectMapper), m_exe_path(p)
{ }
class CoverArtController : public oatpp::web::server::api::ApiController {
public:
CoverArtController(const model::BinaryPath& bConf,
OATPP_COMPONENT(std::shared_ptr<ObjectMapper>, objectMapper))
: oatpp::web::server::api::ApiController(objectMapper), m_bConf(bConf) { }
CoverArtController(const model::BinaryPath& bConf, OATPP_COMPONENT(std::shared_ptr<ObjectMapper>, objectMapper))
: oatpp::web::server::api::ApiController(objectMapper), m_bConf(bConf)
{ }
#include OATPP_CODEGEN_BEGIN(ApiController)
#include OATPP_CODEGEN_BEGIN(ApiController)
// endpoint for retrieving all cover art records in json format
ENDPOINT("GET", "/api/v1/coverart", coverArtRecords,
REQUEST(std::shared_ptr<IncomingRequest>, request)) {
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth,
type::Scope::downloadCoverArt), Status::CODE_403, "Not allowed");
// endpoint for retrieving all cover art records in json format
ENDPOINT("GET", "/api/v1/coverart", coverArtRecords,
REQUEST(std::shared_ptr<IncomingRequest>, request))
{
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth, type::Scope::downloadCoverArt), Status::CODE_403, "Not allowed");
std::cout << "starting process of retrieving cover art\n";
database::CoverArtRepository covRepo(m_bConf);
auto covsDb = covRepo.retrieveRecords();
auto coverArts = oatpp::data::mapping::type::
List<dto::CoverArtDto::ObjectWrapper>::createShared();
std::cout << "starting process of retrieving cover art" << std::endl;
database::CoverArtRepository covRepo(m_bConf);
auto covsDb = covRepo.retrieveRecords();
auto coverArts = oatpp::data::mapping::type::List<dto::CoverArtDto::ObjectWrapper>::createShared();
for (auto& covDb : covsDb) {
auto cov = dto::CoverArtDto::createShared();
cov->id = covDb.id;
cov->songTitle = covDb.songTitle.c_str();
for (auto& covDb : covsDb) {
auto cov = dto::CoverArtDto::createShared();
cov->id = covDb.id;
cov->songTitle = covDb.songTitle.c_str();
coverArts->pushBack(cov);
}
coverArts->pushBack(cov);
}
return createDtoResponse(Status::CODE_200, coverArts);
}
return createDtoResponse(Status::CODE_200, coverArts);
}
// endpoint for retrieving single cover art record by the cover art id in json format
ENDPOINT("GET", "/api/v1/coverart/{id}", coverArtRecord,
REQUEST(std::shared_ptr<IncomingRequest>, request), PATH(Int32, id)) {
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth,
type::Scope::downloadCoverArt), Status::CODE_403, "Not allowed");
// endpoint for retrieving single cover art record by the cover art id in json format
ENDPOINT("GET", "/api/v1/coverart/{id}", coverArtRecord,
REQUEST(std::shared_ptr<IncomingRequest>, request), PATH(Int32, id)) {
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth, type::Scope::downloadCoverArt), Status::CODE_403, "Not allowed");
database::CoverArtRepository covRepo(m_bConf);
model::Cover covDb;
covDb.id = id;
database::CoverArtRepository covRepo(m_bConf);
model::Cover covDb;
covDb.id = id;
OATPP_ASSERT_HTTP(covRepo.doesCoverArtExist(covDb,
type::CoverFilter::id) , Status::CODE_403, "song does not exist");
OATPP_ASSERT_HTTP(covRepo.doesCoverArtExist(covDb, type::CoverFilter::id) , Status::CODE_403, "song does not exist");
std::cout << "cover art exists\n";
covDb = covRepo.retrieveRecord(covDb, type::CoverFilter::id);
std::cout << "cover art exists" << std::endl;
covDb = covRepo.retrieveRecord(covDb, type::CoverFilter::id);
auto coverArt = dto::CoverArtDto::createShared();
coverArt->id = covDb.id;
coverArt->songTitle = covDb.songTitle.c_str();
auto coverArt = dto::CoverArtDto::createShared();
coverArt->id = covDb.id;
coverArt->songTitle = covDb.songTitle.c_str();
return createDtoResponse(Status::CODE_200, coverArt);
}
return createDtoResponse(Status::CODE_200, coverArt);
}
ENDPOINT("GET", "/api/v1/coverart/download/{id}", downloadCoverArt,
REQUEST(std::shared_ptr<IncomingRequest>, request), PATH(Int32, id)) {
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth,
type::Scope::downloadCoverArt), Status::CODE_403, "Not allowed");
ENDPOINT("GET", "/api/v1/coverart/download/{id}", downloadCoverArt,
REQUEST(std::shared_ptr<IncomingRequest>, request), PATH(Int32, id)) {
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth, type::Scope::downloadCoverArt), Status::CODE_403, "Not allowed");
database::CoverArtRepository covRepo(m_bConf);
model::Cover covDb;
covDb.id = id;
covDb = covRepo.retrieveRecord(covDb, type::CoverFilter::id);
database::CoverArtRepository covRepo(m_bConf);
model::Cover covDb;
covDb.id = id;
covDb = covRepo.retrieveRecord(covDb, type::CoverFilter::id);
auto rawCover = oatpp::base::StrBuffer::loadFromFile(covDb.imagePath.c_str());
auto response = createResponse(Status::CODE_200, rawCover);
response->putHeader(Header::CONTENT_TYPE, "image/*");
auto rawCover = oatpp::base::StrBuffer::loadFromFile(covDb.imagePath.c_str());
auto response = createResponse(Status::CODE_200, rawCover);
response->putHeader(Header::CONTENT_TYPE, "image/*");
return response;
}
return response;
}
#include OATPP_CODEGEN_END(ApiController)
private:
std::string m_exe_path;
model::BinaryPath m_bConf;
};
#include OATPP_CODEGEN_END(ApiController)
private:
model::BinaryPath m_bConf;
};
}
#endif
+52 -55
View File
@@ -28,73 +28,70 @@
namespace fs = std::filesystem;
namespace controller {
class GenreController : public oatpp::web::server::api::ApiController
{
public:
GenreController(std::string p, OATPP_COMPONENT(std::shared_ptr<ObjectMapper>, objectMapper))
: oatpp::web::server::api::ApiController(objectMapper), m_exe_path(p)
{ }
class GenreController : public oatpp::web::server::api::ApiController {
public:
GenreController(const model::BinaryPath& bConf,
OATPP_COMPONENT(std::shared_ptr<ObjectMapper>, objectMapper))
: oatpp::web::server::api::ApiController(objectMapper), m_bConf(bConf) { }
GenreController(const model::BinaryPath& bConf, OATPP_COMPONENT(std::shared_ptr<ObjectMapper>, objectMapper))
: oatpp::web::server::api::ApiController(objectMapper), m_bConf(bConf)
{ }
#include OATPP_CODEGEN_BEGIN(ApiController)
#include OATPP_CODEGEN_BEGIN(ApiController)
// endpoint for retrieving all genre records in json format
ENDPOINT("GET", "/api/v1/genre", genreRecords,
REQUEST(std::shared_ptr<IncomingRequest>, request)) {
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth,
type::Scope::retrieveGenre), Status::CODE_403, "Not allowed");
// endpoint for retrieving all genre records in json format
ENDPOINT("GET", "/api/v1/genre", genreRecords,
REQUEST(std::shared_ptr<IncomingRequest>, request))
{
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth, type::Scope::retrieveGenre), Status::CODE_403, "Not allowed");
std::cout << "starting process of retrieving genre\n";
database::GenreRepository gnrRepo(m_bConf);
auto gnrsDb = gnrRepo.retrieveRecords();
auto genres = oatpp::data::mapping::type::
List<dto::GenreDto::ObjectWrapper>::createShared();
std::cout << "starting process of retrieving genre" << std::endl;
database::GenreRepository gnrRepo(m_bConf);
auto gnrsDb = gnrRepo.retrieveRecords();
auto genres = oatpp::data::mapping::type::List<dto::GenreDto::ObjectWrapper>::createShared();
for (auto& gnrDb : gnrsDb) {
auto gnr = dto::GenreDto::createShared();
gnr->id = gnrDb.id;
gnr->category = gnrDb.category.c_str();
for (auto& gnrDb : gnrsDb) {
auto gnr = dto::GenreDto::createShared();
gnr->id = gnrDb.id;
gnr->category = gnrDb.category.c_str();
genres->pushBack(gnr);
}
genres->pushBack(gnr);
}
return createDtoResponse(Status::CODE_200, genres);
}
return createDtoResponse(Status::CODE_200, genres);
}
// endpoint for retrieving single genre record by the genre id in json format
ENDPOINT("GET", "/api/v1/genre/{id}", genreRecord,
REQUEST(std::shared_ptr<IncomingRequest>, request), PATH(Int32, id)) {
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth,
type::Scope::retrieveGenre), Status::CODE_403, "Not allowed");
// endpoint for retrieving single genre record by the genre id in json format
ENDPOINT("GET", "/api/v1/genre/{id}", genreRecord,
REQUEST(std::shared_ptr<IncomingRequest>, request), PATH(Int32, id)) {
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth, type::Scope::retrieveGenre), Status::CODE_403, "Not allowed");
database::GenreRepository gnrRepo(m_bConf);
model::Genre gnrDb(id);
database::GenreRepository gnrRepo(m_bConf);
model::Genre gnrDb(id);
OATPP_ASSERT_HTTP(gnrRepo.doesGenreExist(gnrDb,
type::GenreFilter::id) , Status::CODE_403, "genre does not exist");
OATPP_ASSERT_HTTP(gnrRepo.doesGenreExist(gnrDb, type::GenreFilter::id) , Status::CODE_403, "genre does not exist");
std::cout << "genre exist\n";
gnrDb = gnrRepo.retrieveRecord(gnrDb, type::GenreFilter::id);
std::cout << "genre exist" << std::endl;
gnrDb = gnrRepo.retrieveRecord(gnrDb, type::GenreFilter::id);
auto genre = dto::GenreDto::createShared();
genre->id = gnrDb.id;
genre->category= gnrDb.category.c_str();
auto genre = dto::GenreDto::createShared();
genre->id = gnrDb.id;
genre->category= gnrDb.category.c_str();
return createDtoResponse(Status::CODE_200, genre);
}
return createDtoResponse(Status::CODE_200, genre);
}
#include OATPP_CODEGEN_END(ApiController)
private:
std::string m_exe_path;
model::BinaryPath m_bConf;
};
#include OATPP_CODEGEN_END(ApiController)
private:
model::BinaryPath m_bConf;
};
}
#endif
+27 -31
View File
@@ -16,46 +16,42 @@
#include "model/Models.h"
namespace controller {
class LoginController : public oatpp::web::server::api::ApiController {
public:
LoginController(std::string p, OATPP_COMPONENT(std::shared_ptr<ObjectMapper>, objectMapper))
: oatpp::web::server::api::ApiController(objectMapper), exe_path(p)
{ }
LoginController(const model::BinaryPath& bConf, OATPP_COMPONENT(std::shared_ptr<ObjectMapper>, objectMapper))
:oatpp::web::server::api::ApiController(objectMapper), m_bConf(bConf)
{ }
class LoginController : public oatpp::web::server::api::ApiController {
public:
LoginController(const model::BinaryPath& bConf,
OATPP_COMPONENT(std::shared_ptr<ObjectMapper>, objectMapper))
:oatpp::web::server::api::ApiController(objectMapper), m_bConf(bConf) { }
#include OATPP_CODEGEN_BEGIN(ApiController)
#include OATPP_CODEGEN_BEGIN(ApiController)
ENDPOINT("POST", "/api/v1/login", data, BODY_DTO(dto::UserDto::ObjectWrapper, usr)) {
OATPP_LOGI("icarus", "logging in");
ENDPOINT("POST", "/api/v1/login", data, BODY_DTO(dto::UserDto::ObjectWrapper, usr)) {
OATPP_LOGI("icarus", "logging in");
manager::UserManager usrMgr(m_bConf);
auto user = dto::conversion::DtoConversions::toUser(usr);
manager::UserManager usrMgr(m_bConf);
auto user = dto::conversion::DtoConversions::toUser(usr);
if (!usrMgr.doesUserExist(user) || !usrMgr.validatePassword(user)) {
auto logRes = dto::LoginResultDto::createShared();
logRes->message = "invalid credentials";
std::cout << "user does not exist" << std::endl;
return createDtoResponse(Status::CODE_401, logRes);
}
if (!usrMgr.doesUserExist(user) || !usrMgr.validatePassword(user)) {
auto logRes = dto::LoginResultDto::createShared();
logRes->message = "invalid credentials";
std::cout << "user does not exist\n";
return createDtoResponse(Status::CODE_401, logRes);
}
std::cout << "user exists" << std::endl;
std::cout << "user exists\n";
manager::TokenManager tok;
auto token = tok.retrieveToken(m_bConf);
manager::TokenManager tok;
auto token = tok.retrieveToken(m_bConf);
auto logRes = dto::conversion::DtoConversions::toLoginResultDto(user, token);
logRes->message = "Successful";
auto logRes = dto::conversion::DtoConversions::toLoginResultDto(user, token);
logRes->message = "Successful";
return createDtoResponse(Status::CODE_200, logRes);
}
return createDtoResponse(Status::CODE_200, logRes);
}
#include OATPP_CODEGEN_END(ApiController)
private:
std::string exe_path;
model::BinaryPath m_bConf;
};
#include OATPP_CODEGEN_END(ApiController)
private:
model::BinaryPath m_bConf;
};
}
#endif
+5 -2
View File
@@ -17,8 +17,8 @@ namespace controller {
class RegisterController : public oatpp::web::server::api::ApiController {
public:
RegisterController(const model::BinaryPath& bConf,
OATPP_COMPONENT(std::shared_ptr<ObjectMapper>, objectMapper)) :
oatpp::web::server::api::ApiController(objectMapper), m_bConf(bConf) { }
OATPP_COMPONENT(std::shared_ptr<ObjectMapper>, objectMapper)) :
oatpp::web::server::api::ApiController(objectMapper), m_bConf(bConf) { }
#include OATPP_CODEGEN_BEGIN(ApiController)
@@ -26,6 +26,9 @@ namespace controller {
BODY_DTO(dto::UserDto::ObjectWrapper, usr)) {
manager::UserManager usrMgr(m_bConf);
auto user = dto::conversion::DtoConversions::toUser(usr);
if (usrMgr.doesUserExist(user)) {
return createResponse(Status::CODE_401, "user already exists");
}
auto res = usrMgr.registerUser(user);
auto registerResult = dto::conversion::DtoConversions::toRegisterResultDto(res);
+173 -158
View File
@@ -9,13 +9,15 @@
#include <memory>
#include <vector>
#include <oatpp/core/async/Coroutine.hpp>
#include "oatpp/core/data/stream/ChunkedBuffer.hpp"
#include "oatpp/core/data/stream/FileStream.hpp"
#include "oatpp/core/base/StrBuffer.hpp"
#include "oatpp/core/macro/codegen.hpp"
#include "oatpp/core/macro/component.hpp"
#include "oatpp/web/mime/multipart/InMemoryPartReader.hpp"
#include "oatpp/web/mime/multipart/Reader.hpp"
#include "oatpp/web/protocol/http/outgoing/ChunkedBody.hpp"
#include "oatpp/web/protocol/http/outgoing/StreamingBody.hpp"
#include "oatpp/web/server/api/ApiController.hpp"
#include "callback/StreamCallback.h"
@@ -27,214 +29,227 @@
#include "model/Models.h"
#include "type/Scopes.h"
#include "type/SongFilter.h"
#include "type/SongUpload.h"
namespace fs = std::filesystem;
namespace controller {
class SongController : public oatpp::web::server::api::ApiController {
public:
SongController(std::string p, OATPP_COMPONENT(std::shared_ptr<ObjectMapper>, objectMapper))
: oatpp::web::server::api::ApiController(objectMapper), m_exe_path(p)
{ }
class SongController : public oatpp::web::server::api::ApiController {
public:
SongController(const model::BinaryPath& bConf, OATPP_COMPONENT(std::shared_ptr<ObjectMapper>, objectMapper))
: oatpp::web::server::api::ApiController(objectMapper), m_bConf(bConf) { }
SongController(const model::BinaryPath& bConf, OATPP_COMPONENT(std::shared_ptr<ObjectMapper>, objectMapper))
: oatpp::web::server::api::ApiController(objectMapper), m_bConf(bConf)
{ }
#include OATPP_CODEGEN_BEGIN(ApiController)
#include OATPP_CODEGEN_BEGIN(ApiController)
// endpoint for uploading a song
ENDPOINT("POST", "/api/v1/song/data", songUpload,
//AUTHORIZATION(std::shared_ptr<oatpp::web::server::handler::DefaultBearerAuthorizationObject>, authObject),
REQUEST(std::shared_ptr<IncomingRequest>, request)) {
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth,
type::Scope::upload), Status::CODE_403, "Not allowed");
// endpoint for uploading a song
ENDPOINT("POST", "/api/v1/song/data", songUpload,
REQUEST(std::shared_ptr<IncomingRequest>, request))
{
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth, type::Scope::upload), Status::CODE_403, "Not allowed");
auto mp =
std::make_shared<oatpp::web::mime::multipart::Multipart>
(request->getHeaders());
auto mp = std::make_shared<oatpp::web::mime::multipart::Multipart>(request->getHeaders());
oatpp::web::mime::multipart::Reader mp_reader(mp.get());
oatpp::web::mime::multipart::Reader mp_reader(mp.get());
mp_reader.setPartReader("file",
oatpp::web::mime::multipart::createInMemoryPartReader(m_dataSize));
mp_reader.setPartReader("file", oatpp::web::mime::multipart::createInMemoryPartReader(m_dataSize));
request->transferBody(&mp_reader);
request->transferBody(&mp_reader);
auto file = mp->getNamedPart("file");
auto file = mp->getNamedPart("file");
OATPP_ASSERT_HTTP(file, Status::CODE_400, "file is null");
OATPP_ASSERT_HTTP(file, Status::CODE_400, "file is null");
auto buff = std::make_unique<const char*>(file->getInMemoryData()->c_str());
auto buffSize = file->getKnownSize();
auto buff = std::unique_ptr<char>(new char[file->getKnownSize()]);
auto buffSize = file->getInputStream()->read(buff.get(), file->getKnownSize());
std::vector<unsigned char> data(*buff, *buff + buffSize);
std::vector<unsigned char> data(buff.get(), buff.get() + buffSize);
model::Song sng;
sng.data = std::move(data);
manager::SongManager songMgr(m_bConf);
const auto result = songMgr.saveSong(sng);
if (!result.first) {
switch (result.second) {
case type::SongUpload::AlreadyExist:
return createResponse(Status::CODE_400, "Song already exists");
default:
break;
}
}
model::Song sng;
sng.data = std::move(data);
manager::SongManager songMgr(m_bConf);
songMgr.saveSong(sng);
auto songDto = dto::conversion::DtoConversions::toSongDto(sng);
auto songDto = dto::conversion::DtoConversions::toSongDto(sng);
return createDtoResponse(Status::CODE_200, songDto);
}
return createDtoResponse(Status::CODE_200, songDto);
}
// endpoint for retrieving all song records in json format
ENDPOINT("GET", "/api/v1/song", songRecords,
REQUEST(std::shared_ptr<IncomingRequest>, request))
{
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth, type::Scope::retrieveSong), Status::CODE_403, "Not allowed");
// endpoint for retrieving all song records in json format
ENDPOINT("GET", "/api/v1/song", songRecords,
REQUEST(std::shared_ptr<IncomingRequest>, request)) {
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth, type::Scope::retrieveSong), Status::CODE_403, "Not allowed");
std::cout << "starting process of retrieving songs" << std::endl;
database::SongRepository songRepo(m_bConf);
auto songsDb = songRepo.retrieveRecords();
auto songs = oatpp::data::mapping::type::List<dto::SongDto::ObjectWrapper>::createShared();
std::cout << "starting process of retrieving songs\n";
database::SongRepository songRepo(m_bConf);
auto songsDb = songRepo.retrieveRecords();
auto songs = oatpp::data::mapping::type::List<dto::SongDto::ObjectWrapper>::createShared();
std::cout << "creating object to send" << std::endl;
for (auto& songDb : songsDb) {
auto song = dto::conversion::DtoConversions::toSongDto(songDb);
std::cout << "creating object to send\n";
for (auto& songDb : songsDb) {
auto song = dto::conversion::DtoConversions::toSongDto(songDb);
songs->pushBack(song);
}
songs->pushBack(song);
}
return createDtoResponse(Status::CODE_200, songs);
}
return createDtoResponse(Status::CODE_200, songs);
}
// endpoint for retrieving song record by the song id in json format
ENDPOINT("GET", "/api/v1/song/{id}", songRecord,
REQUEST(std::shared_ptr<IncomingRequest>, request), PATH(Int32, id)) {
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth, type::Scope::retrieveSong), Status::CODE_403, "Not allowed");
ENDPOINT("GET", "/api/v1/song/{id}", songRecord,
REQUEST(std::shared_ptr<IncomingRequest>, request), PATH(Int32, id)) {
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth, type::Scope::retrieveSong), Status::CODE_403, "Not allowed");
database::SongRepository songRepo(m_bConf);
model::Song songDb(id);
database::SongRepository songRepo(m_bConf);
model::Song songDb(id);
if (!songRepo.doesSongExist(songDb, type::SongFilter::id)) {
return songDoesNotExist();
}
if (!songRepo.doesSongExist(songDb, type::SongFilter::id)) {
return songDoesNotExist();
}
std::cout << "song exists" << std::endl;
songDb = songRepo.retrieveRecord(songDb, type::SongFilter::id);
std::cout << "song exists\n";
songDb = songRepo.retrieveRecord(songDb, type::SongFilter::id);
auto song = dto::conversion::DtoConversions::toSongDto(songDb);
auto song = dto::conversion::DtoConversions::toSongDto(songDb);
return createDtoResponse(Status::CODE_200, song);
}
return createDtoResponse(Status::CODE_200, song);
}
ENDPOINT("GET", "/api/v1/song/data/{id}", downloadSong,
REQUEST(std::shared_ptr<IncomingRequest>, request), PATH(Int32, id)) {
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth, type::Scope::download), Status::CODE_403, "Not allowed");
ENDPOINT("GET", "/api/v1/song/data/{id}", downloadSong,
REQUEST(std::shared_ptr<IncomingRequest>, request), PATH(Int32, id)) {
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth,
type::Scope::download), Status::CODE_403, "Not allowed");
database::SongRepository songRepo(m_bConf);
model::Song songDb(id);
if (!songRepo.doesSongExist(songDb, type::SongFilter::id)) {
return songDoesNotExist();
}
database::SongRepository songRepo(m_bConf);
model::Song songDb(id);
if (!songRepo.doesSongExist(songDb, type::SongFilter::id)) {
return songDoesNotExist();
}
songDb = songRepo.retrieveRecord(songDb, type::SongFilter::id);
songDb = songRepo.retrieveRecord(songDb, type::SongFilter::id);
auto rawSong = oatpp::base::StrBuffer::loadFromFile(songDb.songPath.c_str());
auto response = createResponse(Status::CODE_200, rawSong);
response->putHeader(Header::CONTENT_TYPE, "audio/mpeg");
auto rawSong = oatpp::base::StrBuffer::loadFromFile(songDb.songPath.c_str());
auto response = createResponse(Status::CODE_200, rawSong);
response->putHeader(Header::CONTENT_TYPE, "audio/mpeg");
return response;
}
return response;
}
ENDPOINT("UPDATE", "/api/v1/song/{id}", songUpdate,
REQUEST(std::shared_ptr<IncomingRequest>, request),
BODY_DTO(dto::SongDto::ObjectWrapper, songDto), PATH(Int32, id)) {
songDto->id = id;
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth, type::Scope::updateSong), Status::CODE_403, "Not allowed");
ENDPOINT("UPDATE", "/api/v1/song/{id}", songUpdate,
REQUEST(std::shared_ptr<IncomingRequest>, request),
BODY_DTO(dto::SongDto::ObjectWrapper, songDto), PATH(Int32, id)) {
songDto->id = id;
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth,
type::Scope::updateSong), Status::CODE_403, "Not allowed");
auto updatedSong = dto::conversion::DtoConversions::toSong(songDto);
manager::SongManager songMgr(m_bConf);
auto result = songMgr.updateSong(updatedSong);
if (!result) {
return songDoesNotExist();
}
auto updatedSong = dto::conversion::DtoConversions::toSong(songDto);
manager::SongManager songMgr(m_bConf);
auto result = songMgr.updateSong(updatedSong);
if (!result) {
return songDoesNotExist();
}
return createResponse(Status::CODE_200, "OK");
}
return createResponse(Status::CODE_200, "OK");
}
// endpoint to delete a song
ENDPOINT("DELETE", "api/v1/song/data/{id}", songDelete,
REQUEST(std::shared_ptr<IncomingRequest>, request), PATH(Int32, id)) {
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth, type::Scope::deleteSong), Status::CODE_403, "Not allowed");
// endpoint to delete a song
ENDPOINT("DELETE", "api/v1/song/data/{id}", songDelete,
REQUEST(std::shared_ptr<IncomingRequest>, request), PATH(Int32, id)) {
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth,
type::Scope::deleteSong), Status::CODE_403, "Not allowed");
model::Song song(id);
model::Song song(id);
manager::SongManager sngMgr(m_bConf);
auto result = sngMgr.deleteSong(song);
if (!result) {
return songDoesNotExist();
}
manager::SongManager sngMgr(m_bConf);
auto result = sngMgr.deleteSong(song);
if (!result) {
return songDoesNotExist();
}
return createResponse(Status::CODE_200, "OK");
}
return createResponse(Status::CODE_200, "OK");
}
// endpoint for streaming a song
ENDPOINT("GET", "/api/v1/song/stream/{id}", streamSong,
REQUEST(std::shared_ptr<IncomingRequest>, request), PATH(Int32, id)) {
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth, type::Scope::stream), Status::CODE_403, "Not allowed");
// endpoint for streaming a song
ENDPOINT("GET", "/api/v1/song/stream/{id}", streamSong,
REQUEST(std::shared_ptr<IncomingRequest>, request), PATH(Int32, id)) {
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth,
type::Scope::stream), Status::CODE_403, "Not allowed");
database::SongRepository songRepo(m_bConf);
model::Song songDb(id);
if (!songRepo.doesSongExist(songDb, type::SongFilter::id)) {
return songDoesNotExist();
}
database::SongRepository songRepo(m_bConf);
model::Song songDb(id);
if (!songRepo.doesSongExist(songDb, type::SongFilter::id)) {
return songDoesNotExist();
}
songDb = songRepo.retrieveRecord(songDb, type::SongFilter::id);
songDb = songRepo.retrieveRecord(songDb, type::SongFilter::id);
oatpp::data::v_io_size dSize = 1024;
auto dSize = 1024;
auto db = std::make_shared<oatpp::web::protocol::http::outgoing::ChunkedBody>(
std::make_shared<callback::StreamCallback>(songDb.songPath), nullptr, dSize);
auto callback = std::make_shared<callback::StreamCallback>(songDb.songPath);
auto db = std::make_shared<oatpp::web::protocol::http::outgoing::StreamingBody>(
callback
);
auto response = OutgoingResponse::createShared(Status::CODE_200, db);
response->putHeader(Header::CONNECTION, Header::Value::CONNECTION_KEEP_ALIVE);
response->putHeader(Header::CONTENT_TYPE, "audio/mpeg");
auto response = OutgoingResponse::createShared(Status::CODE_200, db);
response->putHeader(Header::CONNECTION, Header::Value::CONNECTION_KEEP_ALIVE);
response->putHeader(Header::CONTENT_TYPE, "audio/mpeg");
return response;
}
return response;
}
#include OATPP_CODEGEN_END(ApiController)
private:
std::shared_ptr<oatpp::web::protocol::http::outgoing::Response>
songDoesNotExist() {
#include OATPP_CODEGEN_END(ApiController)
private:
std::shared_ptr<oatpp::web::protocol::http::outgoing::Response>
songDoesNotExist() {
return createResponse(Status::CODE_404, "Song not found");
}
return createResponse(Status::CODE_404, "Song not found");
}
std::string m_exe_path;
model::BinaryPath m_bConf;
model::BinaryPath m_bConf;
const long m_dataSize = std::numeric_limits<long long int>::max();
};
const long m_dataSize = std::numeric_limits<long long int>::max();
};
}
#endif
+53 -55
View File
@@ -27,73 +27,71 @@
namespace fs = std::filesystem;
namespace controller {
class YearController : public oatpp::web::server::api::ApiController
{
public:
YearController(std::string p, OATPP_COMPONENT(std::shared_ptr<ObjectMapper>, objectMapper))
: oatpp::web::server::api::ApiController(objectMapper), m_exe_path(p)
{ }
class YearController : public oatpp::web::server::api::ApiController {
public:
YearController(const model::BinaryPath& bConf,
OATPP_COMPONENT(std::shared_ptr<ObjectMapper>, objectMapper))
: oatpp::web::server::api::ApiController(objectMapper), m_bConf(bConf) { }
YearController(const model::BinaryPath& bConf, OATPP_COMPONENT(std::shared_ptr<ObjectMapper>, objectMapper))
: oatpp::web::server::api::ApiController(objectMapper), m_bConf(bConf)
{ }
#include OATPP_CODEGEN_BEGIN(ApiController)
#include OATPP_CODEGEN_BEGIN(ApiController)
// endpoint for retrieving all year records in json format
ENDPOINT("GET", "/api/v1/year", yearRecords,
REQUEST(std::shared_ptr<IncomingRequest>, request)) {
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth,
type::Scope::retrieveYear), Status::CODE_403, "Not allowed");
// endpoint for retrieving all year records in json format
ENDPOINT("GET", "/api/v1/year", yearRecords,
REQUEST(std::shared_ptr<IncomingRequest>, request))
{
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth, type::Scope::retrieveYear), Status::CODE_403, "Not allowed");
std::cout << "starting process of retrieving year\n";
database::YearRepository yrRepo(m_bConf);
auto yrsDb = yrRepo.retrieveRecords();
auto yearRecs = oatpp::data::mapping::type::
List<dto::YearDto::ObjectWrapper>::createShared();
std::cout << "starting process of retrieving year" << std::endl;
database::YearRepository yrRepo(m_bConf);
auto yrsDb = yrRepo.retrieveRecords();
auto yearRecs = oatpp::data::mapping::type::List<dto::YearDto::ObjectWrapper>::createShared();
for (auto& yrDb : yrsDb) {
auto yr = dto::YearDto::createShared();
yr->id = yrDb.id;
yr->year = yrDb.year;
for (auto& yrDb : yrsDb) {
auto yr = dto::YearDto::createShared();
yr->id = yrDb.id;
yr->year = yrDb.year;
yearRecs->pushBack(yr);
}
yearRecs->pushBack(yr);
}
return createDtoResponse(Status::CODE_200, yearRecs);
}
return createDtoResponse(Status::CODE_200, yearRecs);
}
// endpoint for retrieving single year record by the year id in json format
ENDPOINT("GET", "/api/v1/year/{id}", yearRecord,
REQUEST(std::shared_ptr<IncomingRequest>, request), PATH(Int32, id)) {
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth,
type::Scope::retrieveYear), Status::CODE_403, "Not allowed");
// endpoint for retrieving single year record by the year id in json format
ENDPOINT("GET", "/api/v1/year/{id}", yearRecord,
REQUEST(std::shared_ptr<IncomingRequest>, request), PATH(Int32, id)) {
auto authHeader = request->getHeader("Authorization");
OATPP_ASSERT_HTTP(authHeader, Status::CODE_403, "Nope");
auto auth = authHeader->std_str();
manager::TokenManager tok;
OATPP_ASSERT_HTTP(tok.isTokenValid(auth, type::Scope::retrieveYear), Status::CODE_403, "Not allowed");
database::YearRepository yrRepo(m_bConf);
model::Year yrDb(id);
database::YearRepository yrRepo(m_bConf);
model::Year yrDb(id);
OATPP_ASSERT_HTTP(yrRepo.doesYearExist(yrDb,
type::YearFilter::id) , Status::CODE_403, "year does not exist");
OATPP_ASSERT_HTTP(yrRepo.doesYearExist(yrDb, type::YearFilter::id) , Status::CODE_403, "year does not exist");
std::cout << "year exist\n";
yrDb = yrRepo.retrieveRecord(yrDb, type::YearFilter::id);
std::cout << "year exist" << std::endl;
yrDb = yrRepo.retrieveRecord(yrDb, type::YearFilter::id);
auto year = dto::YearDto::createShared();
year->id = yrDb.id;
year->year= yrDb.year;
auto year = dto::YearDto::createShared();
year->id = yrDb.id;
year->year= yrDb.year;
return createDtoResponse(Status::CODE_200, year);
}
return createDtoResponse(Status::CODE_200, year);
}
#include OATPP_CODEGEN_END(ApiController)
private:
std::string m_exe_path;
model::BinaryPath m_bConf;
};
#include OATPP_CODEGEN_END(ApiController)
private:
model::BinaryPath m_bConf;
};
}
#endif
+10 -7
View File
@@ -1,6 +1,7 @@
#ifndef ALBUMREPOSITORY_H_
#define ALBUMREPOSITORY_H_
#include <memory>
#include <utility>
#include <vector>
@@ -8,10 +9,8 @@
#include "model/Models.h"
#include "type/AlbumFilter.h"
namespace database
{
class AlbumRepository : public BaseRepository
{
namespace database {
class AlbumRepository : public BaseRepository {
public:
AlbumRepository(const model::BinaryPath&);
@@ -30,9 +29,13 @@ namespace database
std::pair<model::Album, int> parseRecordWithSongCount(MYSQL_STMT*);
// TODO: after parseRecord(MYSQL_STMT*) is implemented remove
// parseRecord(MYSQL_RES*)
model::Album parseRecord(MYSQL_RES*);
std::shared_ptr<MYSQL_BIND> valueBind(model::Album&,
std::tuple<char*, char*>&);
std::shared_ptr<MYSQL_BIND> valueBindWithSongCount(model::Album&,
std::tuple<char*, char*>&, int&);
std::tuple<char*, char*> metadataBuffer();
model::Album parseRecord(MYSQL_STMT*);
};
}
+12 -8
View File
@@ -1,6 +1,7 @@
#ifndef ARTISTREPOSITORY_H_
#define ARTISTREPOSITORY_H_
#include <memory>
#include <utility>
#include <vector>
@@ -8,16 +9,15 @@
#include "model/Models.h"
#include "type/ArtistFilter.h"
namespace database
{
class ArtistRepository : public BaseRepository
{
namespace database {
class ArtistRepository : public BaseRepository {
public:
ArtistRepository(const model::BinaryPath&);
std::vector<model::Artist> retrieveRecords();
std::pair<model::Artist, int> retrieveRecordWithSongCount(model::Artist&, type::ArtistFilter);
std::pair<model::Artist, int> retrieveRecordWithSongCount(
model::Artist&, type::ArtistFilter);
model::Artist retrieveRecord(model::Artist&, type::ArtistFilter);
@@ -30,9 +30,13 @@ namespace database
std::pair<model::Artist, int> parseRecordWithSongCount(MYSQL_STMT*);
// TODO: After parseRecord(MYSQL_STMT*) is implemented
// remove parseRecord(MYSQL_RES*)
model::Artist parseRecord(MYSQL_RES*);
std::shared_ptr<MYSQL_BIND> valueBind(model::Artist&,
std::tuple<char*>&);
std::shared_ptr<MYSQL_BIND> valueBindWithSongCount(model::Artist&,
std::tuple<char*>&, int&);
std::tuple<char*> metadataBuffer();
model::Artist parseRecord(MYSQL_STMT*);
};
}
+3 -5
View File
@@ -7,12 +7,10 @@
#include "model/Models.h"
namespace database
{
class BaseRepository
{
namespace database {
class BaseRepository {
public:
BaseRepository();
BaseRepository() = default;
BaseRepository(const std::string&);
BaseRepository(const model::BinaryPath&);
+9 -9
View File
@@ -1,6 +1,7 @@
#ifndef COVERARTREPOSITORY_H_
#define COVERARTREPOSITORY_H_
#include <memory>
#include <vector>
#include <mysql/mysql.h>
@@ -9,12 +10,9 @@
#include "model/Models.h"
#include "type/CoverFilter.h"
namespace database
{
class CoverArtRepository : public BaseRepository
{
namespace database {
class CoverArtRepository : public BaseRepository {
public:
CoverArtRepository(const std::string&);
CoverArtRepository(const model::BinaryPath&);
std::vector<model::Cover> retrieveRecords();
@@ -23,15 +21,17 @@ namespace database
bool doesCoverArtExist(const model::Cover&, type::CoverFilter);
void deleteRecord(const model::Cover&);
void deleteRecord(const model::Cover&, type::CoverFilter = type::CoverFilter::id);
void saveRecord(const model::Cover&);
void updateRecord(const model::Cover&);
private:
std::vector<model::Cover> parseRecords(MYSQL_STMT*);
// TODO: After parseRecord(MYSQL_STMT*) is implemented
// remove parseRecord(MYSQL_RES*)
model::Cover parseRecord(MYSQL_RES*);
std::shared_ptr<MYSQL_BIND> valueBind(model::Cover&,
std::tuple<char*, char*>&);
std::tuple<char*, char*> metadataBuffer();
model::Cover parseRecord(MYSQL_STMT*);
};
}
+10 -7
View File
@@ -1,6 +1,7 @@
#ifndef GENREREPOSITORY_H_
#define GENREREPOSITORY_H_
#include <memory>
#include <utility>
#include <vector>
@@ -8,10 +9,8 @@
#include "model/Models.h"
#include "type/GenreFilter.h"
namespace database
{
class GenreRepository : public BaseRepository
{
namespace database {
class GenreRepository : public BaseRepository {
public:
GenreRepository(const model::BinaryPath&);
@@ -30,9 +29,13 @@ namespace database
std::pair<model::Genre, int> parseRecordWithSongCount(MYSQL_STMT*);
// TODO: After parseRecord(MYSQL_STMT*) is implemented
// remove parseRecord(MYSQL_RES*)
model::Genre parseRecord(MYSQL_RES*);
std::shared_ptr<MYSQL_BIND> valueBind(model::Genre&,
std::tuple<char*>&);
std::shared_ptr<MYSQL_BIND> valueBindWithSongCount(model::Genre&,
std::tuple<char*>&, int&);
std::tuple<char*> metadataBuffer();
model::Genre parseRecord(MYSQL_STMT*);
};
}
+10 -9
View File
@@ -2,6 +2,7 @@
#define SONGREPOSITORY_H_
#include <memory>
#include <utility>
#include <vector>
#include <mysql/mysql.h>
@@ -10,28 +11,28 @@
#include "model/Models.h"
#include "type/SongFilter.h"
namespace database
{
class SongRepository : public BaseRepository
{
namespace database {
class SongRepository : public BaseRepository {
public:
SongRepository(const std::string&);
SongRepository(const model::BinaryPath&);
std::vector<model::Song> retrieveRecords();
model::Song retrieveRecord(model::Song&, type::SongFilter);
model::Song retrieveRecord(const model::Song&, type::SongFilter = type::SongFilter::id);
bool doesSongExist(const model::Song&, type::SongFilter);
bool doesSongExist(const model::Song&, type::SongFilter = type::SongFilter::id);
bool deleteRecord(const model::Song&);
void saveRecord(const model::Song&);
void updateRecord(const model::Song&);
private:
std::vector<model::Song> parseRecords(MYSQL_RES*); // TODO: to be removed
std::shared_ptr<MYSQL_BIND> valueBind(model::Song&,
std::tuple<char*, char*, char*, char*, char*, char*>&);
std::tuple<char*, char*, char*, char*, char*, char*> metadataBuffer();
std::vector<model::Song> parseRecords(MYSQL_STMT*);
model::Song parseRecord(MYSQL_RES*); // TODO: to be removed
model::Song parseRecord(MYSQL_STMT*);
};
}
+37 -37
View File
@@ -11,48 +11,48 @@
#include "type/UserFilter.h"
namespace database {
class UserRepository : BaseRepository {
public:
UserRepository(const model::BinaryPath&);
class UserRepository : BaseRepository {
public:
UserRepository(const model::BinaryPath&);
model::User retrieveUserRecord(model::User&, type::UserFilter);
model::PassSec retrieverUserSaltRecord(model::PassSec&, type::SaltFilter);
model::User retrieveUserRecord(model::User&, type::UserFilter);
model::PassSec retrieverUserSaltRecord(model::PassSec&, type::SaltFilter);
bool doesUserRecordExist(const model::User&, type::UserFilter);
bool doesUserRecordExist(const model::User&, type::UserFilter);
void saveUserRecord(const model::User&);
void saveUserSalt(const model::PassSec&);
private:
struct UserLengths;
struct SaltLengths;
void saveUserRecord(const model::User&);
void saveUserSalt(const model::PassSec&);
private:
struct UserLengths;
struct SaltLengths;
struct UserLengths
{
unsigned long firstnameLength;
unsigned long lastnameLength;
unsigned long phoneLength;
unsigned long emailLength;
unsigned long usernameLength;
unsigned long passwordLength;
struct UserLengths {
unsigned long firstnameLength;
unsigned long lastnameLength;
unsigned long phoneLength;
unsigned long emailLength;
unsigned long usernameLength;
unsigned long passwordLength;
};
struct SaltLengths {
unsigned long saltLength;
};
std::shared_ptr<MYSQL_BIND> insertUserValues(const model::User&,
std::shared_ptr<UserLengths>);
std::shared_ptr<MYSQL_BIND> insertSaltValues(const model::PassSec&,
std::shared_ptr<SaltLengths>);
std::shared_ptr<MYSQL_BIND> valueBind(model::User&,
std::tuple<char*, char*, char*, char*, char*, char*>&);
std::shared_ptr<MYSQL_BIND> saltValueBind(model::PassSec&, char*);
std::shared_ptr<UserLengths> fetchUserLengths(const model::User&);
std::shared_ptr<SaltLengths> fetchSaltLengths(const model::PassSec&);
std::tuple<char*, char*, char*, char*, char*, char*> fetchUV();
model::User parseRecord(MYSQL_STMT*);
model::PassSec parseSaltRecord(MYSQL_STMT*);
};
struct SaltLengths
{
unsigned long saltLength;
};
std::shared_ptr<MYSQL_BIND> insertUserValues(const model::User&, std::shared_ptr<UserLengths>);
std::shared_ptr<MYSQL_BIND> insertSaltValues(const model::PassSec&, std::shared_ptr<SaltLengths>);
std::shared_ptr<MYSQL_BIND> valueBind(model::User&, std::tuple<char*, char*, char*, char*, char*, char*>&);
std::shared_ptr<MYSQL_BIND> saltValueBind(model::PassSec&, char*);
std::shared_ptr<UserLengths> fetchUserLengths(const model::User&);
std::shared_ptr<SaltLengths> fetchSaltLengths(const model::PassSec&);
std::tuple<char*, char*, char*, char*, char*, char*> fetchUV();
model::User parseRecord(MYSQL_STMT*);
model::PassSec parseSaltRecord(MYSQL_STMT*);
};
}
#endif
+12 -11
View File
@@ -1,6 +1,7 @@
#ifndef YEARREPOSITORY_H_
#define YEARREPOSITORY_H_
#include <memory>
#include <utility>
#include <vector>
@@ -8,31 +9,31 @@
#include "model/Models.h"
#include "type/YearFilter.h"
namespace database
{
class YearRepository : public BaseRepository
{
namespace database {
class YearRepository : public BaseRepository {
public:
YearRepository(const model::BinaryPath&);
std::vector<model::Year> retrieveRecords();
std::pair<model::Year, int> retrieveRecordWithSongCount(model::Year&, type::YearFilter);
std::pair<model::Year, int> retrieveRecordWithSongCount(model::Year&,
type::YearFilter = type::YearFilter::id);
model::Year retrieveRecord(model::Year&, type::YearFilter);
model::Year retrieveRecord(model::Year&, type::YearFilter = type::YearFilter::id);
bool doesYearExist(const model::Year&, type::YearFilter);
bool doesYearExist(const model::Year&, type::YearFilter = type::YearFilter::id);
void saveRecord(const model::Year&);
void deleteYear(const model::Year&, type::YearFilter);
void deleteYear(const model::Year&, type::YearFilter = type::YearFilter::id);
private:
std::vector<model::Year> parseRecords(MYSQL_STMT*);
std::pair<model::Year, int> parseRecordWithSongCount(MYSQL_STMT*);
// TODO: After parseRecord(MYSQL_STMT*) is implemented
// remove parseRecord(MYSQL_RES*)
model::Year parseRecord(MYSQL_RES*);
std::shared_ptr<MYSQL_BIND> valueBind(model::Year&);
std::shared_ptr<MYSQL_BIND> valueBindWithSongCount(model::Year&,
int&);
model::Year parseRecord(MYSQL_STMT*);
};
}
+3 -4
View File
@@ -4,16 +4,15 @@
#include "oatpp/core/data/mapping/type/Object.hpp"
#include "oatpp/core/macro/codegen.hpp"
namespace dto
{
namespace dto {
#include OATPP_CODEGEN_BEGIN(DTO)
class AlbumDto : public oatpp::data::mapping::type::Object
{
class AlbumDto : public oatpp::data::mapping::type::Object {
DTO_INIT(AlbumDto, Object)
DTO_FIELD(Int32, id);
DTO_FIELD(String, title);
DTO_FIELD(String, artist);
DTO_FIELD(Int32, year);
};
+2 -4
View File
@@ -4,12 +4,10 @@
#include "oatpp/core/data/mapping/type/Object.hpp"
#include "oatpp/core/macro/codegen.hpp"
namespace dto
{
namespace dto {
#include OATPP_CODEGEN_BEGIN(DTO)
class ArtistDto : public oatpp::data::mapping::type::Object
{
class ArtistDto : public oatpp::data::mapping::type::Object {
DTO_INIT(ArtistDto, Object)
DTO_FIELD(Int32, id);
+2 -4
View File
@@ -4,12 +4,10 @@
#include "oatpp/core/data/mapping/type/Object.hpp"
#include "oatpp/core/macro/codegen.hpp"
namespace dto
{
namespace dto {
#include OATPP_CODEGEN_BEGIN(DTO)
class CoverArtDto : public oatpp::data::mapping::type::Object
{
class CoverArtDto : public oatpp::data::mapping::type::Object {
DTO_INIT(CoverArtDto, Object)
DTO_FIELD(Int32, id);
+2 -4
View File
@@ -4,12 +4,10 @@
#include "oatpp/core/data/mapping/type/Object.hpp"
#include "oatpp/core/macro/codegen.hpp"
namespace dto
{
namespace dto {
#include OATPP_CODEGEN_BEGIN(DTO)
class GenreDto : public oatpp::data::mapping::type::Object
{
class GenreDto : public oatpp::data::mapping::type::Object {
DTO_INIT(GenreDto, Object)
DTO_FIELD(Int32, id);
+3 -4
View File
@@ -6,17 +6,16 @@
#include "model/Models.h"
namespace dto
{
namespace dto {
#include OATPP_CODEGEN_BEGIN(DTO)
class SongDto : public oatpp::data::mapping::type::Object
{
class SongDto : public oatpp::data::mapping::type::Object {
DTO_INIT(SongDto, Object)
DTO_FIELD(Int32, id);
DTO_FIELD(String, title);
DTO_FIELD(String, artist);
DTO_FIELD(String, album_artist);
DTO_FIELD(String, album);
DTO_FIELD(String, genre);
DTO_FIELD(Int32, track);
+2 -4
View File
@@ -4,12 +4,10 @@
#include "oatpp/core/data/mapping/type/Object.hpp"
#include "oatpp/core/macro/codegen.hpp"
namespace dto
{
namespace dto {
#include OATPP_CODEGEN_BEGIN(DTO)
class YearDto : public oatpp::data::mapping::type::Object
{
class YearDto : public oatpp::data::mapping::type::Object {
DTO_INIT(YearDto, Object)
DTO_FIELD(Int32, id);
+3
View File
@@ -1,6 +1,7 @@
#ifndef DTOCONVERSIONS_H_
#define DTOCONVERSIONS_H_
#include "dto/AlbumDto.hpp"
#include "dto/LoginResultDto.hpp"
#include "dto/SongDto.hpp"
#include "model/Models.h"
@@ -13,6 +14,8 @@ namespace dto { namespace conversion {
static dto::RegisterResultDto::ObjectWrapper toRegisterResultDto(
const model::RegisterResult&);
static dto::AlbumDto::ObjectWrapper toAlbumDto(const model::Album&);
static dto::SongDto::ObjectWrapper toSongDto(const model::Song&);
static model::Song toSong(dto::SongDto::ObjectWrapper&);
+2 -4
View File
@@ -3,10 +3,8 @@
#include "model/Models.h"
namespace manager
{
class AlbumManager
{
namespace manager {
class AlbumManager {
public:
AlbumManager(const model::BinaryPath&);
+2 -4
View File
@@ -3,10 +3,8 @@
#include "model/Models.h"
namespace manager
{
class ArtistManager
{
namespace manager {
class ArtistManager {
public:
ArtistManager(const model::BinaryPath&);
+2 -6
View File
@@ -6,12 +6,9 @@
#include "model/Models.h"
namespace manager
{
class CoverArtManager
{
namespace manager {
class CoverArtManager {
public:
CoverArtManager(const std::string&);
CoverArtManager(const model::BinaryPath& bConf);
model::Cover saveCover(const model::Song&);
@@ -25,7 +22,6 @@ namespace manager
std::string createImagePath(const model::Song&);
model::BinaryPath m_bConf;
std::string path;
};
}
+12 -6
View File
@@ -3,19 +3,21 @@
#include <string>
#include <string_view>
#include <filesystem>
#include <nlohmann/json.hpp>
#include "model/Models.h"
#include "type/PathType.h"
namespace manager
{
class DirectoryManager
{
namespace manager {
class DirectoryManager {
public:
static std::string createDirectoryProcess(model::Song, const std::string&);
static std::string createDirectoryProcess(const model::Song&, const model::BinaryPath&, type::PathType);
DirectoryManager() = default;
static std::string createDirectoryProcess(const model::Song&, const std::string&);
static std::string createDirectoryProcess(const model::Song&,
const model::BinaryPath&, type::PathType);
static std::string configPath(std::string_view);
static std::string configPath(const model::BinaryPath&);
static std::string contentOfPath(const std::string&);
@@ -30,6 +32,10 @@ namespace manager
void deleteCoverArtFile(const std::string&, const std::string&);
private:
std::filesystem::path relativeDiscSongPathFilesystem(const std::filesystem::path&,
const model::Song&);
std::string relativeDiscSongPath(const std::filesystem::path&, const model::Song&);
void deleteSong(const model::Song);
};
}
+2 -4
View File
@@ -3,10 +3,8 @@
#include "model/Models.h"
namespace manager
{
class GenreManager
{
namespace manager {
class GenreManager {
public:
GenreManager(const model::BinaryPath&);
+4 -6
View File
@@ -4,28 +4,27 @@
#include <iostream>
#include <map>
#include <string>
#include <utility>
#include <nlohmann/json.hpp>
#include "dto/SongDto.hpp"
#include "model/Models.h"
#include "type/SongChanged.h"
#include "type/SongUpload.h"
namespace manager {
class SongManager
{
class SongManager {
public:
SongManager(std::string&);
SongManager(const model::BinaryPath&);
std::pair<bool, type::SongUpload> saveSong(model::Song&);
bool didSongChange(const model::Song&, const model::Song&);
bool requiresFilesystemChange(const model::Song&, const model::Song&);
bool deleteSong(model::Song&);
bool updateSong(model::Song&);
void saveSong(model::Song&);
static void printSong(const model::Song&);
private:
std::map<type::SongChanged, bool> changesInSong(const model::Song&, const model::Song&);
@@ -44,7 +43,6 @@ namespace manager {
void modifySongOnFilesystem(model::Song&, const model::Song&);
model::BinaryPath m_bConf;
std::string exe_path;
};
}
+14 -15
View File
@@ -14,27 +14,26 @@
#include "type/Scopes.h"
namespace manager {
class TokenManager {
public:
TokenManager();
class TokenManager {
public:
TokenManager() = default;
model::Token retrieveToken(const model::BinaryPath&);
model::Token retrieveToken(const model::BinaryPath&);
bool isTokenValid(std::string&, type::Scope);
bool testAuth(const model::BinaryPath&);
private:
cpr::Response sendRequest(std::string_view, nlohmann::json&);
bool isTokenValid(std::string&, type::Scope);
bool testAuth(const model::BinaryPath&);
private:
cpr::Response sendRequest(std::string_view, nlohmann::json&);
nlohmann::json createTokenBody(const model::AuthCredentials&);
nlohmann::json createTokenBody(const model::AuthCredentials&);
model::AuthCredentials parseAuthCredentials(std::string_view);
model::AuthCredentials parseAuthCredentials(const model::BinaryPath&);
model::AuthCredentials parseAuthCredentials(const model::BinaryPath&);
std::vector<std::string> extractScopes(const jwt::decoded_jwt&&);
std::pair<bool, std::vector<std::string>> fetchAuthHeader(const std::string&);
std::vector<std::string> extractScopes(const jwt::decoded_jwt&&);
std::pair<bool, std::vector<std::string>> fetchAuthHeader(const std::string&);
bool tokenSupportsScope(const std::vector<std::string>&, const std::string&&);
};
bool tokenSupportsScope(const std::vector<std::string>&, const std::string&&);
};
}
#endif
+10 -10
View File
@@ -7,19 +7,19 @@
#include "model/Models.h"
namespace manager {
class UserManager {
public:
UserManager(const model::BinaryPath&);
class UserManager {
public:
UserManager(const model::BinaryPath&);
model::RegisterResult registerUser(model::User&);
model::RegisterResult registerUser(model::User&);
bool doesUserExist(const model::User&);
bool validatePassword(const model::User&);
bool doesUserExist(const model::User&);
bool validatePassword(const model::User&);
void printUser(const model::User&);
private:
model::BinaryPath m_bConf;
};
void printUser(const model::User&);
private:
model::BinaryPath m_bConf;
};
}
#endif
+2 -4
View File
@@ -3,10 +3,8 @@
#include "model/Models.h"
namespace manager
{
class YearManager
{
namespace manager {
class YearManager {
public:
YearManager(const model::BinaryPath&);
+144 -144
View File
@@ -5,172 +5,172 @@
#include <vector>
namespace model {
struct Song {
Song() = default;
Song(const int id) : id(id) { }
class Song {
public:
Song() = default;
Song(const int id) : id(id) { }
Song(const int id, const std::string& title, const std::string& artist,
const std::string& album, const std::string& albumArtist,
const std::string& genre, const int year, const int duration,
const int track, const int disc, const std::string songPath) :
id(id), title(title), artist(artist), album(album),
albumArtist(albumArtist), genre(genre), year(year),
duration(duration), track(track), disc(disc),
songPath(songPath) { }
int id;
std::string title;
std::string artist;
std::string album;
std::string genre;
int year;
int duration;
int track;
int disc;
std::string songPath;
std::vector<unsigned char> data;
int coverArtId;
int artistId;
int albumId;
int genreId;
int yearId;
};
int id;
std::string title;
std::string artist;
std::string album;
std::string albumArtist;
std::string genre;
int year;
int duration;
int track;
int disc;
std::string songPath;
std::vector<unsigned char> data;
int coverArtId;
int artistId;
int albumId;
int genreId;
int yearId;
};
struct Artist {
Artist() = default;
Artist(const Song& song)
{
id = song.artistId;
artist = song.artist;
}
Artist(const int id) : id(id) { }
class Artist {
public:
Artist() = default;
Artist(const Song& song) : id(song.artistId), artist(song.artist) { }
Artist(const int id) : id(id) { }
int id;
std::string artist;
};
int id;
std::string artist;
};
struct Album {
Album() = default;
Album(const Song& song)
{
id = song.albumId;
title = song.album;
year = song.year;
}
Album(const int id) : id(id) { }
class Album {
public:
Album() = default;
Album(const Song& song) :
id(song.albumId), title(song.album),artist(song.artist), year(song.year) { }
Album(const int id) : id(id) { }
int id;
std::string title;
int year;
std::vector<Song> songs;
};
int id;
std::string title;
std::string artist;
int year;
std::vector<Song> songs;
};
struct Genre {
Genre() = default;
Genre(const Song& song)
{
id = song.genreId;
category = song.genre;
}
Genre(const int id) : id(id) { }
class Genre {
public:
Genre() = default;
Genre(const Song& song) :
id(song.genreId), category(song.genre) { }
Genre(const int id) : id(id) { }
int id;
std::string category;
int id;
std::string category;
};
};
struct Year {
Year() = default;
Year(const Song& song)
{
id = song.yearId;
year = song.year;
}
Year(const int id) : id(id) { }
class Year {
public:
Year() = default;
Year(const Song& song) :
id(song.yearId), year(song.year) { }
Year(const int id) : id(id) { }
int id;
int year;
};
int id;
int year;
};
struct Cover {
Cover() = default;
Cover(const Song& song)
{
id = song.coverArtId;
songTitle = song.title;
}
Cover(const int id) : id(id) { }
class Cover {
public:
Cover() = default;
Cover(const Song& song) :
id(song.coverArtId), songTitle(song.title) { }
Cover(const int id) : id(id) { }
int id;
std::string songTitle;
std::string imagePath;
// Not being used but it should be
std::vector<unsigned char> data;
};
int id;
std::string songTitle;
std::string imagePath;
// Not being used but it should be
std::vector<unsigned char> data;
};
class Token {
public:
Token() = default;
Token(const std::string& accessToken) :
accessToken(accessToken) { }
Token(const std::string& accessToken, const std::string& tokenType,
const int expiration) :
accessToken(accessToken), tokenType(tokenType),
expiration(expiration) { }
class Token {
public:
Token() = default;
Token(const std::string& accessToken) :
accessToken(accessToken) { }
Token(const std::string& accessToken, const std::string& tokenType,
const int expiration) :
accessToken(accessToken), tokenType(tokenType),
expiration(expiration) { }
std::string accessToken;
int expiration;
std::string tokenType;
};
std::string accessToken;
int expiration;
std::string tokenType;
};
struct LoginResult {
int userId;
std::string username;
std::string accessToken;
std::string tokenType;
std::string message;
int expiration;
};
struct LoginResult {
int userId;
std::string username;
std::string accessToken;
std::string tokenType;
std::string message;
int expiration;
};
class RegisterResult {
public:
std::string username;
bool registered;
std::string message;
};
class RegisterResult {
public:
std::string username;
bool registered;
std::string message;
};
struct User {
int id;
std::string firstname;
std::string lastname;
std::string email;
std::string phone;
std::string username;
std::string password;
};
struct User {
int id;
std::string firstname;
std::string lastname;
std::string email;
std::string phone;
std::string username;
std::string password;
};
struct PassSec {
int id;
std::string hashPassword;
std::string salt;
int userId;
};
struct PassSec {
int id;
std::string hashPassword;
std::string salt;
int userId;
};
struct AuthCredentials {
std::string domain;
std::string apiIdentifier;
std::string clientId;
std::string clientSecret;
std::string uri;
std::string endpoint;
};
struct AuthCredentials {
std::string domain;
std::string apiIdentifier;
std::string clientId;
std::string clientSecret;
std::string uri;
std::string endpoint;
};
struct DatabaseConnection {
std::string server;
std::string username;
std::string password;
std::string database;
};
struct DatabaseConnection {
std::string server;
std::string username;
std::string password;
std::string database;
};
struct BinaryPath {
BinaryPath() = default;
BinaryPath(const char *p) : path(std::move(p)) { }
BinaryPath(std::string& p) : path(p) { }
BinaryPath(const std::string& p) : path(p) { }
class BinaryPath {
public:
BinaryPath() = default;
BinaryPath(const char *p) : path(p) { }
BinaryPath(const std::string& p) : path(p) { }
BinaryPath(const std::string&& p) : path(p) { }
std::string path;
};
std::string path;
};
}
#endif
+2 -4
View File
@@ -1,10 +1,8 @@
#ifndef ALBUMFILTER_H_
#define ALBUMFILTER_H_
namespace type
{
enum class AlbumFilter
{
namespace type {
enum class AlbumFilter {
id = 0,
title,
year
+2 -4
View File
@@ -1,10 +1,8 @@
#ifndef ARTISTFILTER_H_
#define ARTISTFILTER_H_
namespace type
{
enum class ArtistFilter
{
namespace type {
enum class ArtistFilter {
id = 0,
artist
};
+2 -4
View File
@@ -1,10 +1,8 @@
#ifndef COVERFILTER_H_
#define COVERFILTER_H_
namespace type
{
enum class CoverFilter
{
namespace type {
enum class CoverFilter {
id = 0,
songTitle,
imagePath
+2 -4
View File
@@ -1,10 +1,8 @@
#ifndef GENREFILTER_H_
#define GENREFILTER_H_
namespace type
{
enum class GenreFilter
{
namespace type {
enum class GenreFilter {
id = 0,
category
};
+2 -4
View File
@@ -1,10 +1,8 @@
#ifndef PATHTYPE_H_
#define PATHTYPE_H_
namespace type
{
enum PathType
{
namespace type {
enum PathType {
music = 0,
archive,
temp,
+1 -2
View File
@@ -2,8 +2,7 @@
#define SALTFILTER_H_
namespace type {
enum class SaltFilter
{
enum class SaltFilter {
id = 0,
salt,
userId
+2 -4
View File
@@ -1,10 +1,8 @@
#ifndef SCOPES_H_
#define SCOPES_H_
namespace type
{
enum class Scope
{
namespace type {
enum class Scope {
upload = 0,
download,
stream,
+2 -4
View File
@@ -1,10 +1,8 @@
#ifndef SONGCHANGED_H_
#define SONGCHANGED_H_
namespace type
{
enum SongChanged
{
namespace type {
enum SongChanged {
title = 0,
artist,
album,
+7 -5
View File
@@ -1,16 +1,18 @@
#ifndef SONGFILTER_H_
#define SONGFILTER_H_
namespace type
{
enum class SongFilter
{
namespace type {
enum class SongFilter {
id = 0,
title,
album,
artist,
albumArtist,
genre,
year
year,
titleAndArtist,
titleAlbArtistAlbum,
titleAlbArtistAlbumTrack
};
}
+12
View File
@@ -0,0 +1,12 @@
#ifndef SONGUPLOAD_H_
#define SONGUPLOAD_H_
namespace type {
enum class SongUpload {
Successful = 0,
AlreadyExist = 1,
Failed = 2
};
}
#endif
+1 -2
View File
@@ -2,8 +2,7 @@
#define USERFILTER_H_
namespace type {
enum class UserFilter
{
enum class UserFilter {
id = 0,
username
};
+2 -4
View File
@@ -1,10 +1,8 @@
#ifndef YEARFILTER_H_
#define YEARFILTER_H_
namespace type
{
enum class YearFilter
{
namespace type {
enum class YearFilter {
id = 0,
year
};
+2 -4
View File
@@ -13,10 +13,8 @@
#include <tpropertymap.h>
#include <id3v2tag.h>
namespace utility
{
class ImageFile : public TagLib::File
{
namespace utility {
class ImageFile : public TagLib::File {
public:
ImageFile(const char *file);
+17 -12
View File
@@ -4,23 +4,28 @@
#include <iostream>
#include <string>
#include <attachedpictureframe.h>
#include <textidentificationframe.h>
#include <fileref.h>
#include <mpegfile.h>
#include <tag.h>
#include "model/Models.h"
namespace utility {
class MetadataRetriever
{
public:
model::Song retrieveMetadata(std::string&);
class MetadataRetriever {
public:
model::Song retrieveMetadata(model::Song&);
model::Cover updateCoverArt(const model::Song&, model::Cover&, const std::string&);
model::Cover applyStockCoverArt(const model::Song&, model::Cover&, const std::string&);
model::Cover applyCoverArt(const model::Song&, model::Cover&);
model::Cover updateCoverArt(const model::Song&, model::Cover&, const std::string&);
model::Cover applyStockCoverArt(const model::Song&, model::Cover&, const std::string&);
model::Cover applyCoverArt(const model::Song&, model::Cover&);
bool songContainsCoverArt(const model::Song&);
bool songContainsCoverArt(const model::Song&);
void updateMetadata(model::Song&, const model::Song&);
private:
};
void updateMetadata(model::Song&, const model::Song&);
private:
};
}
#endif
+1 -1
View File
@@ -12,7 +12,7 @@ public:
bool isPasswordValid(const model::User&, const model::PassSec&);
private:
int saltSize();
constexpr int saltSize() noexcept;
};
}
+2 -4
View File
@@ -5,10 +5,8 @@
#include "model/Models.h"
namespace verify
{
class Initialization
{
namespace verify {
class Initialization {
public:
static bool skipVerification(const std::string&);
+3 -5
View File
@@ -23,8 +23,7 @@
namespace fs = std::filesystem;
void run(const model::BinaryPath& bConf)
{
void run(const model::BinaryPath& bConf) {
component::AppComponent component;
OATPP_COMPONENT(std::shared_ptr<oatpp::web::server::HttpRouter>, router);
@@ -58,8 +57,7 @@ void run(const model::BinaryPath& bConf)
server.run();
}
int main(int argc, char **argv)
{
int main(int argc, char **argv) {
oatpp::base::Environment::init();
model::BinaryPath bConf(std::move(argv[0]));
@@ -68,7 +66,7 @@ int main(int argc, char **argv)
if (!verify::Initialization::skipVerification(argv[1])) {
verify::Initialization::checkIcarus(bConf);
} else {
std::cout << "skiping verifyication" << std::endl;
std::cout << "skiping verifyication\n";
}
} else {
verify::Initialization::checkIcarus(bConf);
+27 -28
View File
@@ -5,40 +5,39 @@
#include <memory>
namespace callback {
StreamCallback::StreamCallback() :
m_counter(0) { }
StreamCallback::StreamCallback() : m_counter(0) { }
StreamCallback::StreamCallback(const std::string& songPath) :
m_songPath(songPath),
m_counter(0),
m_bytesRead(0)
{
// getting file size
std::ifstream song(m_songPath.c_str(), std::ios::binary | std::ios::in | std::ios::ate);
m_fileSize = song.tellg();
std::cout << "file size is " << m_fileSize << " bytes" << std::endl;
}
oatpp::data::v_io_size StreamCallback::read(void *buff, oatpp::data::v_io_size count)
{
if (m_counter >= m_fileSize) {
std::cout << "done streaming song" << std::endl;
return 0;
StreamCallback::StreamCallback(const std::string& songPath) :
m_songPath(songPath),
m_counter(0),
m_bytesRead(0) {
// getting file size
std::ifstream song(m_songPath.c_str(), std::ios::binary | std::ios::in | std::ios::ate);
m_fileSize = song.tellg();
std::cout << "file size is " << m_fileSize << " bytes\n";
}
std::fstream song(m_songPath.c_str(), std::ios::binary | std::ios::in);
song.seekg(m_counter);
std::unique_ptr<char[]> data(new char[count]);
song.read(data.get(), count);
std::memcpy(buff, data.get(), count);
oatpp::v_io_size StreamCallback::read(void *buff, v_buff_size count,
oatpp::async::Action& action) {
if (m_counter >= m_fileSize) {
std::cout << "done streaming song\n";
return 0;
}
m_counter += count;
std::fstream song(m_songPath.c_str(), std::ios::binary | std::ios::in);
song.seekg(m_counter);
song.close();
std::unique_ptr<char[]> data(new char[count]);
return count;
}
song.read(data.get(), count);
std::memcpy(buff, data.get(), count);
m_counter += count;
song.close();
return count;
}
}
+355 -413
View File
@@ -7,443 +7,385 @@
#include <string>
#include <cstring>
database::AlbumRepository::AlbumRepository(const model::BinaryPath& bConf)
: BaseRepository(bConf)
{ }
namespace database {
AlbumRepository::AlbumRepository(const model::BinaryPath& bConf) : BaseRepository(bConf) { }
std::vector<model::Album> database::AlbumRepository::retrieveRecords()
{
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
std::vector<model::Album> AlbumRepository::retrieveRecords() {
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
const std::string query = "SELECT * FROM Album";
mysql_stmt_prepare(stmt, query.c_str(), query.size());
mysql_stmt_execute(stmt);
const std::string query = "SELECT * FROM Album";
mysql_stmt_prepare(stmt, query.c_str(), query.size());
mysql_stmt_execute(stmt);
auto albums = parseRecords(stmt);
auto albums = parseRecords(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
mysql_stmt_close(stmt);
mysql_close(conn);
return albums;
}
std::pair<model::Album, int> database::AlbumRepository::retrieveRecordWithSongCount(model::Album& album, type::AlbumFilter filter = type::AlbumFilter::id)
{
std::cout << "retrieving album with song count" << std::endl;
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
MYSQL_BIND params[4];
std::memset(params, 0, sizeof(params));
qry << "SELECT alb.*, COUNT(*) AS SongCount FROM Album alb LEFT JOIN ";
qry << "Song sng ON alb.AlbumId=sng.AlbumId WHERE ";
switch (filter) {
case type::AlbumFilter::id:
qry << "sng.AlbumId = ?";
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&album.id;
params[0].length = 0;
params[0].is_null = 0;
break;
default:
break;
}
qry << " GROUP BY alb.AlbumId LIMIT 1";
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
auto albWSC = parseRecordWithSongCount(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
return albWSC;
}
model::Album database::AlbumRepository::retrieveRecord(model::Album& album, type::AlbumFilter filter)
{
std::cout << "retrieving album record" << std::endl;
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
MYSQL_BIND params[1];
memset(params, 0, sizeof(params));
qry << "SELECT alb.* FROM Album alb WHERE ";
auto titleLength = album.title.size();
switch (filter) {
case type::AlbumFilter::id:
qry << "alb.AlbumId = ?";
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&album.id;
params[0].length = 0;
params[0].is_null = 0;
break;
case type::AlbumFilter::title:
qry << "alb.Title = ?";
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = (char*)album.title.c_str();
params[0].length = &titleLength;
params[0].is_null = 0;
break;
default:
break;
return albums;
}
qry << " LIMIT 1";
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
std::pair<model::Album, int> AlbumRepository::retrieveRecordWithSongCount(model::Album& album,
type::AlbumFilter filter = type::AlbumFilter::id) {
std::cout << "retrieving album with song count\n";
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
album = parseRecord(stmt);
MYSQL_BIND params[1];
std::memset(params, 0, sizeof(params));
mysql_stmt_close(stmt);
mysql_close(conn);
qry << "SELECT alb.*, COUNT(*) AS SongCount FROM Album alb LEFT JOIN ";
qry << "Song sng ON alb.AlbumId=sng.AlbumId WHERE ";
std::cout << "done" << std::endl;
switch (filter) {
case type::AlbumFilter::id:
qry << "sng.AlbumId = ?";
return album;
}
bool database::AlbumRepository::doesAlbumExists(const model::Album& album, type::AlbumFilter filter)
{
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
MYSQL_BIND params[1];
memset(params, 0, sizeof(params));
std::stringstream qry;
qry << "SELECT * FROM Album WHERE ";
auto titleLength = album.title.size();
switch (filter) {
case type::AlbumFilter::id:
qry << "AlbumId = ?";
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&album.id;
params[0].length = 0;
params[0].is_null = 0;
break;
case type::AlbumFilter::title:
qry << "Title = ?";
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = (char*)album.title.c_str();
params[0].length = &titleLength;
params[0].is_null = 0;
break;
default:
break;
}
qry << " LIMIT 1";
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
std::cout << "the query has been performed" << std::endl;
::mysql_stmt_store_result(stmt);
auto rowCount = ::mysql_stmt_num_rows(stmt);
::mysql_stmt_close(stmt);
::mysql_close(conn);
return (rowCount > 0) ? true : false;
}
void database::AlbumRepository::saveAlbum(const model::Album& album)
{
std::cout << "beginning to insert album record" << std::endl;
auto conn = setupMysqlConnection();
MYSQL_STMT *stmt = mysql_stmt_init(conn);
const std::string query = "INSERT INTO Album(Title, Year) VALUES(?, ?)";
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
MYSQL_BIND params[2];
memset(params, 0, sizeof(params));
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = (char*)album.title.c_str();
auto titleLength = album.title.size();
params[0].length= &titleLength;
params[0].is_null = 0;
params[1].buffer_type = MYSQL_TYPE_LONG;
params[1].buffer = (char*)&album.year;
params[1].length = 0;
params[1].is_null = 0;
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
std::cout << "done inserting album record" << std::endl;
}
void database::AlbumRepository::deleteAlbum(const model::Album& album, type::AlbumFilter filter = type::AlbumFilter::id)
{
std::cout << "deleting album record" << std::endl;
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
MYSQL_BIND params[1];
std::memset(params, 0, sizeof(params));
qry << "DELETE FROM Album WHERE ";
switch (filter) {
case type::AlbumFilter::id:
qry << "AlbumId = ?";
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&album.id;
params[0].length = 0;
params[0].is_null = 0;
break;
default:
break;
}
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
std::cout << "execute delete query" << std::endl;
}
std::vector<model::Album> database::AlbumRepository::parseRecords(MYSQL_STMT* stmt)
{
std::cout << "parsing album record" << std::endl;
mysql_stmt_store_result(stmt);
std::vector<model::Album> albums;
albums.reserve(mysql_stmt_num_rows(stmt));
const auto valAmt = 3;
unsigned long len[valAmt];
my_bool nullRes[valAmt];
for (auto status = 0; status == 0; status = mysql_stmt_next_result(stmt)) {
if (mysql_stmt_field_count(stmt) > 0) {
model::Album alb;
auto res = mysql_stmt_result_metadata(stmt);
auto fields = mysql_fetch_fields(res);
const auto strLen = 1024;
MYSQL_BIND val[valAmt];
memset(val, 0, sizeof(val));
char title[strLen];
val[0].buffer_type = MYSQL_TYPE_LONG;
val[0].buffer = (char*)&alb.id;
val[0].length = &len[0];
val[0].is_null = &nullRes[0];
val[1].buffer_type = MYSQL_TYPE_STRING;
val[1].buffer = (char*)title;
val[1].buffer_length = strLen;
val[1].length = &len[1];
val[1].is_null = &nullRes[1];
val[2].buffer_type = MYSQL_TYPE_LONG;
val[2].buffer = (char*)&alb.year;
val[2].length = &len[2];
val[2].is_null = &nullRes[2];
status = mysql_stmt_bind_result(stmt, val);
while (true) {
std::cout << "fetching statement result" << std::endl;
status = mysql_stmt_fetch(stmt);
if (status == 1 || status == MYSQL_NO_DATA) {
break;
}
alb.title = title;
albums.push_back(std::move(alb));
}
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&album.id;
params[0].length = 0;
params[0].is_null = 0;
break;
default:
break;
}
std::cout << "fetching next result" << std::endl;
qry << " GROUP BY alb.AlbumId LIMIT 1";
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
auto albWSC = parseRecordWithSongCount(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
return albWSC;
}
return albums;
}
model::Album AlbumRepository::retrieveRecord(model::Album& album, type::AlbumFilter filter) {
std::cout << "retrieving album record\n";
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
// TODO: check to see if this is not used, if not then remove it
model::Album database::AlbumRepository::parseRecord(MYSQL_RES* results)
{
std::cout << "parsing album record" << std::endl;
model::Album album;
MYSQL_BIND params[1];
memset(params, 0, sizeof(params));
auto fieldNum = mysql_num_fields(results);
auto row = mysql_fetch_row(results);
qry << "SELECT alb.* FROM Album alb WHERE ";
for (auto i = 0; i != fieldNum; ++i) {
const std::string field(mysql_fetch_field(results)->name);
auto titleLength = album.title.size();
switch (filter) {
case type::AlbumFilter::id:
qry << "alb.AlbumId = ?";
if (field.compare("AlbumId") == 0) {
album.id = std::stoi(row[i]);
}
if (field.compare("Title") == 0) {
album.title = row[i];
}
if (field.compare("Year") == 0) {
album.year = std::stoi(row[i]);
}
}
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&album.id;
params[0].length = 0;
params[0].is_null = 0;
break;
case type::AlbumFilter::title:
qry << "alb.Title = ?";
return album;
}
std::pair<model::Album, int> database::AlbumRepository::parseRecordWithSongCount(MYSQL_STMT *stmt)
{
std::cout << "parsing album record with song count" << std::endl;
mysql_stmt_store_result(stmt);
auto rowCount = mysql_stmt_num_rows(stmt);
model::Album album;
int songCount = 0;
if (rowCount == 0) {
std::cout << "no results" << std::endl;
return std::make_pair(album, songCount);
}
if (mysql_stmt_field_count(stmt) == 0) {
std::cout << "field count is 0, must be an incorrect query" << std::endl;
return std::make_pair(model::Album(), 0);
}
auto res = mysql_stmt_result_metadata(stmt);
constexpr auto valAmt = 4;
constexpr auto strLen = 1024;
unsigned long len[valAmt];
my_bool nullRes[valAmt];
MYSQL_BIND val[valAmt];
std::memset(val, 0, sizeof(val));
char title[strLen];
val[0].buffer_type = MYSQL_TYPE_LONG;
val[0].buffer = (char*)&album.id;
val[0].length = &len[0];
val[0].is_null = &nullRes[0];
val[1].buffer_type = MYSQL_TYPE_STRING;
val[1].buffer = (char*)title;
val[1].buffer_length = strLen;
val[1].length = &len[1];
val[1].is_null = &nullRes[1];
val[2].buffer_type = MYSQL_TYPE_LONG;
val[2].buffer = (char*)&album.year;
val[2].length = &len[2];
val[2].is_null = &nullRes[2];
val[3].buffer_type = MYSQL_TYPE_LONG;
val[3].buffer = (char*)&songCount;
val[3].length = &len[3];
val[3].is_null = &nullRes[3];
auto status = mysql_stmt_bind_result(stmt, val);
status = mysql_stmt_fetch(stmt);
album.title = std::move(title);
std::cout << "done parsing album record with song count" << std::endl;
auto albWSC = std::make_pair(album, songCount);
return albWSC;
}
model::Album database::AlbumRepository::parseRecord(MYSQL_STMT *stmt)
{
std::cout << "parsing album record" << std::endl;
mysql_stmt_store_result(stmt);
auto rows = mysql_stmt_num_rows(stmt);
model::Album album;
auto status = 0;
auto time = 0;
auto valAmt = 3;
unsigned long len[valAmt];
my_bool nullRes[valAmt];
while (status == 0) {
if (mysql_stmt_field_count(stmt) > 0) {
auto res = mysql_stmt_result_metadata(stmt);
auto fields = mysql_fetch_fields(res);
auto strLen = 1024;
MYSQL_BIND val[valAmt];
memset(val, 0, sizeof(val));
char title[strLen];
val[0].buffer_type = MYSQL_TYPE_LONG;
val[0].buffer = (char*)&album.id;
val[0].length = &len[0];
val[0].is_null = &nullRes[0];
val[1].buffer_type = MYSQL_TYPE_STRING;
val[1].buffer = (char*)title;
val[1].buffer_length = strLen;
val[1].length = &len[1];
val[1].is_null = &nullRes[1];
val[2].buffer_type = MYSQL_TYPE_LONG;
val[2].buffer = (char*)&album.year;
val[2].length = &len[2];
val[2].is_null = &nullRes[2];
status = mysql_stmt_bind_result(stmt, val);
mysql_stmt_store_result(stmt);
status = mysql_stmt_fetch(stmt);
album.title = title;
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = (char*)album.title.c_str();
params[0].length = &titleLength;
params[0].is_null = 0;
break;
default:
break;
}
status = mysql_stmt_next_result(stmt);
qry << " LIMIT 1";
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
album = parseRecord(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
std::cout << "done\n";
return album;
}
std::cout << "done parsing album record" << std::endl;
bool AlbumRepository::doesAlbumExists(const model::Album& album, type::AlbumFilter filter) {
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
return album;
MYSQL_BIND params[1];
memset(params, 0, sizeof(params));
std::stringstream qry;
qry << "SELECT * FROM Album WHERE ";
auto titleLength = album.title.size();
switch (filter) {
case type::AlbumFilter::id:
qry << "AlbumId = ?";
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&album.id;
params[0].length = 0;
params[0].is_null = 0;
break;
case type::AlbumFilter::title:
qry << "Title = ?";
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = (char*)album.title.c_str();
params[0].length = &titleLength;
params[0].is_null = 0;
break;
default:
break;
}
qry << " LIMIT 1";
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
std::cout << "the query has been performed\n";
mysql_stmt_store_result(stmt);
auto rowCount = mysql_stmt_num_rows(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
return (rowCount > 0) ? true : false;
}
void AlbumRepository::saveAlbum(const model::Album& album) {
std::cout << "beginning to insert album record\n";
auto conn = setupMysqlConnection();
MYSQL_STMT *stmt = mysql_stmt_init(conn);
const std::string query = "INSERT INTO Album(Title, Artist, Year) VALUES(?, ?, ?)";
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
MYSQL_BIND params[3];
memset(params, 0, sizeof(params));
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = (char*)album.title.c_str();
auto titleLength = album.title.size();
params[0].length= &titleLength;
params[0].is_null = 0;
params[1].buffer_type = MYSQL_TYPE_STRING;
params[1].buffer = (char*)album.artist.c_str();
auto artistLength = album.artist.size();
params[1].length = &artistLength;
params[1].is_null = 0;
params[2].buffer_type = MYSQL_TYPE_LONG;
params[2].buffer = (char*)&album.year;
params[2].length = 0;
params[2].is_null = 0;
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
std::cout << "done inserting album record\n";
}
void AlbumRepository::deleteAlbum(const model::Album& album,
type::AlbumFilter filter = type::AlbumFilter::id) {
std::cout << "deleting album record\n";
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
MYSQL_BIND params[1];
std::memset(params, 0, sizeof(params));
qry << "DELETE FROM Album WHERE ";
switch (filter) {
case type::AlbumFilter::id:
qry << "AlbumId = ?";
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&album.id;
params[0].length = 0;
params[0].is_null = 0;
break;
default:
break;
}
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
std::cout << "execute delete query\n";
}
std::vector<model::Album> AlbumRepository::parseRecords(MYSQL_STMT* stmt) {
std::cout << "parsing album record\n";
mysql_stmt_store_result(stmt);
std::vector<model::Album> albums;
albums.reserve(mysql_stmt_num_rows(stmt));
const auto valAmt = 3;
unsigned long len[valAmt];
my_bool nullRes[valAmt];
for (auto status = 0; status == 0; status = mysql_stmt_next_result(stmt)) {
if (mysql_stmt_field_count(stmt) > 0) {
model::Album alb;
auto metaBuff = metadataBuffer();
auto bindedValues = valueBind(alb, metaBuff);
status = mysql_stmt_bind_result(stmt, bindedValues.get());
while (true) {
std::cout << "fetching statement result\n";
status = mysql_stmt_fetch(stmt);
if (status == 1 || status == MYSQL_NO_DATA) break;
alb.title = std::get<0>(metaBuff);
alb.artist = std::get<1>(metaBuff);
albums.push_back(std::move(alb));
}
}
std::cout << "fetching next result\n";
}
return albums;
}
std::pair<model::Album, int> AlbumRepository::parseRecordWithSongCount(MYSQL_STMT *stmt) {
std::cout << "parsing album record with song count\n";
mysql_stmt_store_result(stmt);
auto rowCount = mysql_stmt_num_rows(stmt);
model::Album album;
auto metaBuff = metadataBuffer();
int songCount = 0;
auto val = valueBindWithSongCount(album, metaBuff, songCount);
if (rowCount == 0) {
std::cout << "no results\n";
return std::make_pair(album, songCount);
}
auto status = mysql_stmt_bind_result(stmt, val.get());
status = mysql_stmt_fetch(stmt);
album.title = std::get<0>(metaBuff);
album.artist = std::get<1>(metaBuff);
std::cout << "done parsing album record with song count\n";
auto albWSC = std::make_pair(album, songCount);
return albWSC;
}
std::shared_ptr<MYSQL_BIND> AlbumRepository::valueBind(model::Album& album,
std::tuple<char*, char*>& metadata) {
constexpr auto wordLen = 1024;
constexpr auto valueCount = 4;
std::shared_ptr<MYSQL_BIND> values((MYSQL_BIND*) std::calloc(valueCount, sizeof(MYSQL_BIND)));
values.get()[0].buffer_type = MYSQL_TYPE_LONG;
values.get()[0].buffer = (char*)&album.id;
values.get()[1].buffer_type = MYSQL_TYPE_STRING;
values.get()[1].buffer = (char*)std::get<0>(metadata);
values.get()[1].buffer_length = wordLen;
values.get()[2].buffer_type = MYSQL_TYPE_STRING;
values.get()[2].buffer = (char*)std::get<1>(metadata);
values.get()[2].buffer_length = wordLen;
values.get()[3].buffer_type = MYSQL_TYPE_LONG;
values.get()[3].buffer = (char*)&album.year;
return values;
}
std::shared_ptr<MYSQL_BIND> AlbumRepository::valueBindWithSongCount(model::Album& album,
std::tuple<char*, char*>& metadata, int& songCount) {
constexpr auto wordLen = 1024;
constexpr auto valueCount = 5;
std::shared_ptr<MYSQL_BIND> values(
(MYSQL_BIND*) std::calloc(valueCount, sizeof(MYSQL_BIND)));
values.get()[0].buffer_type = MYSQL_TYPE_LONG;
values.get()[0].buffer = (char*)&album.id;
values.get()[1].buffer_type = MYSQL_TYPE_STRING;
values.get()[1].buffer = (char*)std::get<0>(metadata);
values.get()[1].buffer_length = wordLen;
values.get()[2].buffer_type = MYSQL_TYPE_STRING;
values.get()[2].buffer = (char*)std::get<1>(metadata);
values.get()[2].buffer_length = wordLen;
values.get()[3].buffer_type = MYSQL_TYPE_LONG;
values.get()[3].buffer = (char*)&album.year;
values.get()[4].buffer_type = MYSQL_TYPE_LONG;
values.get()[4].buffer = (char*)&songCount;
return values;
}
std::tuple<char*, char*> AlbumRepository::metadataBuffer() {
constexpr auto wordLen = 1024;
char title[wordLen];
char artist[wordLen];
return std::make_tuple(title, artist);
}
model::Album AlbumRepository::parseRecord(MYSQL_STMT *stmt)
{
std::cout << "parsing album record\n";
mysql_stmt_store_result(stmt);
auto rows = mysql_stmt_num_rows(stmt);
model::Album album;
auto metaBuff = metadataBuffer();
auto bindedValues = valueBind(album, metaBuff);
auto status = mysql_stmt_bind_result(stmt, bindedValues.get());
status = mysql_stmt_fetch(stmt);
album.title = std::get<0>(metaBuff);
album.artist = std::get<1>(metaBuff);
std::cout << "done parsing album record\n";
return album;
}
}
+315 -369
View File
@@ -6,410 +6,356 @@
#include <string>
#include <cstring>
database::ArtistRepository::ArtistRepository(const model::BinaryPath& binConf)
: BaseRepository(binConf)
{
}
namespace database {
ArtistRepository::ArtistRepository(const model::BinaryPath& binConf) :
BaseRepository(binConf) { }
std::vector<model::Artist> database::ArtistRepository::retrieveRecords()
{
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
const std::string query = "SELECT * FROM Artist";
std::vector<model::Artist> ArtistRepository::retrieveRecords() {
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
const std::string query = "SELECT * FROM Artist";
mysql_stmt_prepare(stmt, query.c_str(), query.size());
mysql_stmt_execute(stmt);
mysql_stmt_prepare(stmt, query.c_str(), query.size());
mysql_stmt_execute(stmt);
auto artists = parseRecords(stmt);
auto artists = parseRecords(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
mysql_stmt_close(stmt);
mysql_close(conn);
return artists;
}
std::pair<model::Artist, int> database::ArtistRepository::retrieveRecordWithSongCount(model::Artist& artist, type::ArtistFilter filter = type::ArtistFilter::id)
{
std::cout << "retrieving artist record with song count" << std::endl;
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
qry << "SELECT art.*, COUNT(*) AS SongCount FROM Artist art LEFT JOIN ";
qry << "Song sng ON art.ArtistId=sng.ArtistId WHERE ";
MYSQL_BIND params[1];
std::memset(params, 0, sizeof(params));
switch (filter) {
case type::ArtistFilter::id:
qry << "sng.ArtistId = ?";
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&artist.id;
params[0].length = 0;
params[0].is_null = 0;
break;
default:
break;
}
qry << " GROUP BY art.ArtistId LIMIT 1";
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
std::cout << "Artist record with song count query ";
std::cout << "has been performed" << std::endl;
auto artWSC = parseRecordWithSongCount(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
return artWSC;
}
model::Artist database::ArtistRepository::retrieveRecord(model::Artist& artist, type::ArtistFilter filter)
{
std::cout << "retrieving artist record" << std::endl;
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
qry << "SELECT art.* FROM Artist art WHERE ";
MYSQL_BIND params[1];
memset(params, 0, sizeof(params));
auto artistLength = artist.artist.size();
switch (filter) {
case type::ArtistFilter::id:
qry << "art.ArtistId = ?";
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&artist.id;
params[0].length = 0;
params[0].is_null = 0;
break;
case type::ArtistFilter::artist:
qry << "art.Artist = ?";
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = (char*)artist.artist.c_str();
params[0].length = &artistLength;
params[0].is_null = 0;
break;
default:
break;
}
qry << " LIMIT 1";
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
artist = parseRecord(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
std::cout << "retrieved record" << std::endl;
return artist;
}
bool database::ArtistRepository::doesArtistExist(const model::Artist& artist, type::ArtistFilter filter)
{
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
MYSQL_BIND params[1];
memset(params, 0, sizeof(params));
std::stringstream qry;
qry << "SELECT * FROM Artist WHERE ";
auto artistLength = artist.artist.size();
switch (filter) {
case type::ArtistFilter::id:
qry << "ArtistId = ?";
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&artist.id;
params[0].length = 0;
params[0].is_null = 0;
break;
case type::ArtistFilter::artist:
qry << "Artist = ?";
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = (char*)artist.artist.c_str();
params[0].length = &artistLength;
params[0].is_null = 0;
break;
default:
break;
}
qry << " LIMIT 1";
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
std::cout << "the query has been performed" << std::endl;
mysql_stmt_store_result(stmt);
auto rowCount = mysql_stmt_num_rows(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
return (rowCount > 0) ? true : false;
}
void database::ArtistRepository::saveRecord(const model::Artist& artist)
{
std::cout << "inserting artist record" << std::endl;
auto conn = setupMysqlConnection();
MYSQL_STMT *stmt = mysql_stmt_init(conn);
const std::string query = "INSERT INTO Artist(Artist) VALUES(?)";
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
MYSQL_BIND params[1];
memset(params, 0, sizeof(params));
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = (char*)artist.artist.c_str();
auto artistLength = artist.artist.size();
params[0].length = &artistLength;
params[0].is_null = 0;
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
std::cout<< "inserted artist record" << std::endl;
}
void database::ArtistRepository::deleteArtist(const model::Artist& artist, type::ArtistFilter filter = type::ArtistFilter::id) {
// TODO: implement this
std::cout << "delete Artist record" << std::endl;
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
qry << "DELETE FROM Artist WHERE ";
MYSQL_BIND params[1];
std::memset(params, 0, sizeof(params));
switch (filter) {
case type::ArtistFilter::id:
qry << "ArtistId = ?";
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&artist.id;
params[0].length = 0;
params[0].is_null = 0;
break;
default:
break;
}
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
std::cout << "deleted artist record" << std::endl;
}
std::vector<model::Artist> database::ArtistRepository::parseRecords(MYSQL_STMT *stmt)
{
mysql_stmt_store_result(stmt);
std::vector<model::Artist> artists;
artists.reserve(mysql_stmt_num_rows(stmt));
if (mysql_stmt_field_count(stmt) == 0) {
std::cout << "field count is 0" << std::endl;
return artists;
}
model::Artist art;
const auto valAmt = 2;
unsigned long len[valAmt];
my_bool nullRes[valAmt];
std::pair<model::Artist, int> ArtistRepository::retrieveRecordWithSongCount(
model::Artist& artist, type::ArtistFilter filter = type::ArtistFilter::id) {
std::cout << "retrieving artist record with song count\n";
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
auto res = mysql_stmt_result_metadata(stmt);
auto fields = mysql_fetch_fields(res);
const auto strLen = 1024;
qry << "SELECT art.*, COUNT(*) AS SongCount FROM Artist art LEFT JOIN ";
qry << "Song sng ON art.ArtistId=sng.ArtistId WHERE ";
char artist[strLen];
MYSQL_BIND params[1];
std::memset(params, 0, sizeof(params));
switch (filter) {
case type::ArtistFilter::id:
qry << "sng.ArtistId = ?";
MYSQL_BIND val[valAmt];
memset(val, 0, sizeof(val));
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&artist.id;
params[0].length = 0;
params[0].is_null = 0;
break;
default:
break;
}
val[0].buffer_type = MYSQL_TYPE_LONG;
val[0].buffer = (char*)&art.id;
val[0].length = &len[0];
val[0].is_null = &nullRes[0];
qry << " GROUP BY art.ArtistId LIMIT 1";
val[1].buffer_type = MYSQL_TYPE_STRING;
val[1].buffer = (char*)artist;
val[1].buffer_length = strLen;
val[1].length = &len[1];
val[1].is_null = &nullRes[1];
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
for (auto status = mysql_stmt_bind_result(stmt, val); status == 0; ) {
std::cout << "fetching statement result" << std::endl;
std::cout << "Artist record with song count query ";
std::cout << "has been performed\n";
auto artWSC = parseRecordWithSongCount(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
return artWSC;
}
model::Artist ArtistRepository::retrieveRecord(model::Artist& artist,
type::ArtistFilter filter) {
std::cout << "retrieving artist record\n";
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
qry << "SELECT art.* FROM Artist art WHERE ";
MYSQL_BIND params[1];
memset(params, 0, sizeof(params));
auto artistLength = artist.artist.size();
switch (filter) {
case type::ArtistFilter::id:
qry << "art.ArtistId = ?";
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&artist.id;
params[0].length = 0;
params[0].is_null = 0;
break;
case type::ArtistFilter::artist:
qry << "art.Artist = ?";
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = (char*)artist.artist.c_str();
params[0].length = &artistLength;
params[0].is_null = 0;
break;
default:
break;
}
qry << " LIMIT 1";
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
artist = parseRecord(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
std::cout << "retrieved record\n";
return artist;
}
bool ArtistRepository::doesArtistExist(const model::Artist& artist, type::ArtistFilter filter) {
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
MYSQL_BIND params[1];
memset(params, 0, sizeof(params));
std::stringstream qry;
qry << "SELECT * FROM Artist WHERE ";
auto artistLength = artist.artist.size();
switch (filter) {
case type::ArtistFilter::id:
qry << "ArtistId = ?";
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&artist.id;
params[0].length = 0;
params[0].is_null = 0;
break;
case type::ArtistFilter::artist:
qry << "Artist = ?";
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = (char*)artist.artist.c_str();
params[0].length = &artistLength;
params[0].is_null = 0;
break;
default:
break;
}
qry << " LIMIT 1";
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
std::cout << "the query has been performed\n";
mysql_stmt_store_result(stmt);
auto rowCount = mysql_stmt_num_rows(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
return (rowCount > 0) ? true : false;
}
void ArtistRepository::saveRecord(const model::Artist& artist) {
std::cout << "inserting artist record\n";
auto conn = setupMysqlConnection();
MYSQL_STMT *stmt = mysql_stmt_init(conn);
const std::string query = "INSERT INTO Artist(Artist) VALUES(?)";
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
MYSQL_BIND params[1];
memset(params, 0, sizeof(params));
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = (char*)artist.artist.c_str();
auto artistLength = artist.artist.size();
params[0].length = &artistLength;
params[0].is_null = 0;
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
std::cout<< "inserted artist record\n";
}
void ArtistRepository::deleteArtist(const model::Artist& artist,
type::ArtistFilter filter = type::ArtistFilter::id) {
std::cout << "delete Artist record\n";
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
qry << "DELETE FROM Artist WHERE ";
MYSQL_BIND params[1];
std::memset(params, 0, sizeof(params));
switch (filter) {
case type::ArtistFilter::id:
qry << "ArtistId = ?";
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&artist.id;
params[0].length = 0;
params[0].is_null = 0;
break;
default:
break;
}
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
std::cout << "deleted artist record\n";
}
std::vector<model::Artist> ArtistRepository::parseRecords(MYSQL_STMT *stmt) {
mysql_stmt_store_result(stmt);
std::vector<model::Artist> artists;
artists.reserve(mysql_stmt_num_rows(stmt));
constexpr auto valAmt = 2;
unsigned long len[valAmt];
my_bool nullRes[valAmt];
for (auto status = 0; status == 0; status = mysql_stmt_next_result(stmt)) {
if (mysql_stmt_field_count(stmt) > 0) {
model::Artist art;
auto metaBuff = metadataBuffer();
auto bindedValues = valueBind(art, metaBuff);
status = mysql_stmt_bind_result(stmt, bindedValues.get());
std::cout << "fetching statement result\n";
status = mysql_stmt_fetch(stmt);
if (status == 1 || status == MYSQL_NO_DATA) break;
art.artist = std::get<0>(metaBuff);
artists.push_back(art);
}
std::cout << "fetching next result\n";
}
return artists;
}
std::pair<model::Artist, int> ArtistRepository::parseRecordWithSongCount(MYSQL_STMT *stmt) {
std::cout << "parsing artist record with song count\n";
mysql_stmt_store_result(stmt);
const auto rowCount = mysql_stmt_num_rows(stmt);
model::Artist artist;
auto metaBuff = metadataBuffer();
auto songCount = 0;
auto val = valueBindWithSongCount(artist, metaBuff, songCount);
if (rowCount == 0) {
std::cout << "no results\n";
return std::make_pair(artist, songCount);
}
auto status = mysql_stmt_bind_result(stmt, val.get());
status = mysql_stmt_fetch(stmt);
if (status == 0) {
art.artist = artist;
artists.push_back(std::move(art));
}
artist.artist = std::get<0>(metaBuff);
std::cout << "done parsing album record with song count\n";
return std::make_pair(artist, songCount);
}
return artists;
}
std::shared_ptr<MYSQL_BIND> ArtistRepository::valueBind(model::Artist& artist,
std::tuple<char*>& metadata) {
constexpr auto valueCount = 2;
constexpr auto wordLen = 1024;
std::shared_ptr<MYSQL_BIND> values((MYSQL_BIND*)
std::calloc(valueCount, sizeof(MYSQL_BIND)));
model::Artist database::ArtistRepository::parseRecord(MYSQL_RES* results)
{
std::cout << "parsing artist record" << std::endl;
model::Artist artist;
values.get()[0].buffer_type = MYSQL_TYPE_LONG;
values.get()[0].buffer = (char*)&artist.id;
auto fieldNum = mysql_num_fields(results);
auto row = mysql_fetch_row(results);
values.get()[1].buffer_type = MYSQL_TYPE_STRING;
values.get()[1].buffer = (char*)std::get<0>(metadata);
values.get()[1].buffer_length = wordLen;
for (auto i = 0; i != fieldNum; ++i) {
const std::string field(mysql_fetch_field(results)->name);
if (field.compare("ArtistId") == 0) {
artist.id = std::stoi(row[i]);
}
if (field.compare("Artist") == 0) {
artist.artist = row[i];
}
return values;
}
std::cout << "parsed artist record" << std::endl;
std::shared_ptr<MYSQL_BIND> ArtistRepository::valueBindWithSongCount(model::Artist& artist,
std::tuple<char*>& metadata, int& songCount) {
constexpr auto valueCount = 3;
constexpr auto wordLen = 1024;
std::shared_ptr<MYSQL_BIND> values((MYSQL_BIND*)
std::calloc(valueCount, sizeof(MYSQL_BIND)));
return artist;
}
values.get()[0].buffer_type = MYSQL_TYPE_LONG;
values.get()[0].buffer = reinterpret_cast<char*>(&artist.id);
std::pair<model::Artist, int> database::ArtistRepository::parseRecordWithSongCount(MYSQL_STMT *stmt)
{
std::cout << "parsing artist record with song count" << std::endl;
mysql_stmt_store_result(stmt);
values.get()[1].buffer_type = MYSQL_TYPE_STRING;
values.get()[1].buffer = reinterpret_cast<char*>(std::get<0>(metadata));
values.get()[1].buffer_length = wordLen;
const auto strLen = 1024;
const auto valAmt = 3;
unsigned long len[valAmt];
my_bool nullRes[valAmt];
values.get()[2].buffer_type = MYSQL_TYPE_LONG;
values.get()[2].buffer = reinterpret_cast<char*>(&songCount);
model::Artist artist;
int songCount = 0;
if (mysql_stmt_num_rows(stmt) == 0) {
std::cout << "no results" << std::endl;
return std::make_pair(artist, songCount);
return values;
}
MYSQL_BIND params[valAmt];
std::memset(params, 0, sizeof(params));
char art[strLen];
std::tuple<char*> ArtistRepository::metadataBuffer() {
constexpr auto wordLen = 1024;
char artist[wordLen];
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&artist.id;
params[0].length = &len[0];
params[0].is_null = &nullRes[0];
params[1].buffer_type = MYSQL_TYPE_STRING;
params[1].buffer = (char*)art;
params[1].buffer_length = strLen;
params[1].length = &len[1];
params[1].is_null = &nullRes[1];
params[2].buffer_type = MYSQL_TYPE_LONG;
params[2].buffer = (char*)&songCount;
params[2].length = &len[2];
params[2].is_null = &nullRes[2];
mysql_stmt_bind_result(stmt, params);
mysql_stmt_fetch(stmt);
artist.artist = std::move(art);
std::cout << "parsed artist record with song count" << std::endl;
return std::make_pair(artist, songCount);
}
model::Artist database::ArtistRepository::parseRecord(MYSQL_STMT *stmt)
{
std::cout << "parsing artist record" << std::endl;
mysql_stmt_store_result(stmt);
model::Artist art;
auto status = 0;
auto time = 0;
auto valAmt = 2;
unsigned long len[valAmt];
my_bool nullRes[valAmt];
while (status == 0) {
if (mysql_stmt_field_count(stmt) > 0) {
auto res = mysql_stmt_result_metadata(stmt);
auto fields = mysql_fetch_fields(res);
auto strLen = 1024;
MYSQL_BIND val[valAmt];
memset(val, 0, sizeof(val));
char artist[strLen];
val[0].buffer_type = MYSQL_TYPE_LONG;
val[0].buffer = (char*)&art.id;
val[0].length = &len[0];
val[0].is_null = &nullRes[0];
val[1].buffer_type = MYSQL_TYPE_STRING;
val[1].buffer = (char*)&artist;
val[1].buffer_length = strLen;
val[1].length = &len[1];
val[1].is_null = &nullRes[1];
status = mysql_stmt_bind_result(stmt, val);
mysql_stmt_store_result(stmt);
status = mysql_stmt_fetch(stmt);
art.artist = artist;
}
status = mysql_stmt_next_result(stmt);
return std::make_tuple(artist);
}
std::cout << "done parsing artist record" << std::endl;
return art;
model::Artist ArtistRepository::parseRecord(MYSQL_STMT *stmt) {
std::cout << "parsing artist record\n";
mysql_stmt_store_result(stmt);
model::Artist art;
auto metaBuff = metadataBuffer();
auto bindedValues = valueBind(art, metaBuff);
auto status = mysql_stmt_bind_result(stmt, bindedValues.get());
status = mysql_stmt_fetch(stmt);
art.artist = std::get<0>(metaBuff);
std::cout << "done parsing artist record\n";
return art;
}
}
+64 -72
View File
@@ -6,91 +6,83 @@
#include "manager/DirectoryManager.h"
database::BaseRepository::BaseRepository()
{ }
database::BaseRepository::BaseRepository(const std::string& path) : path(path)
{
intitalizeDetails();
}
database::BaseRepository::BaseRepository(const model::BinaryPath& bConf)
{
initializeDetails(bConf);
}
bool database::BaseRepository::testConnection()
{
auto conn = mysql_init(nullptr);
if (!mysql_real_connect(conn, details.server.c_str(), details.username.c_str(),
details.password.c_str(), details.database.c_str(), 0,
nullptr, 0)) {
std::cout << "failed to connect to the database" << std::endl;
return false;
namespace database {
BaseRepository::BaseRepository(const std::string& path) : path(path) {
intitalizeDetails();
}
mysql_close(conn);
return true;
}
MYSQL* database::BaseRepository::setupMysqlConnection()
{
MYSQL *conn = mysql_init(nullptr);
if (!mysql_real_connect(conn, details.server.c_str(), details.username.c_str(),
details.password.c_str(), details.database.c_str(), 0, nullptr, 0)) {
std::cout << "connection error" << std::endl;
BaseRepository::BaseRepository(const model::BinaryPath& bConf) {
initializeDetails(bConf);
}
return conn;
}
MYSQL* database::BaseRepository::setupMysqlConnection(model::DatabaseConnection details)
{
MYSQL *connection = mysql_init(NULL);
bool BaseRepository::testConnection() {
auto conn = mysql_init(nullptr);
if (!mysql_real_connect(conn, details.server.c_str(), details.username.c_str(),
details.password.c_str(), details.database.c_str(), 0, nullptr, 0)) {
std::cout << "failed to connect to the database\n";
return false;
}
// connect to the database with the details attached.
if (!mysql_real_connect(connection,details.server.c_str(), details.username.c_str(), details.password.c_str(), details.database.c_str(), 0, NULL, 0)) {
printf("Conection error : %s\n", mysql_error(connection));
exit(1);
mysql_close(conn);
return true;
}
return connection;
}
MYSQL_RES* database::BaseRepository::performMysqlQuery(MYSQL *conn, const std::string& query)
{
// send the query to the database
if (mysql_query(conn, query.c_str()))
{
printf("MySQL query error : %s\n", mysql_error(conn));
exit(1);
}
MYSQL* BaseRepository::setupMysqlConnection() {
MYSQL *conn = mysql_init(nullptr);
return mysql_use_result(conn);
}
if (!mysql_real_connect(conn, details.server.c_str(), details.username.c_str(),
details.password.c_str(), details.database.c_str(), 0, nullptr, 0)) {
std::cout << "connection error\n";
}
return conn;
}
MYSQL* BaseRepository::setupMysqlConnection(model::DatabaseConnection details) {
MYSQL *connection = mysql_init(NULL);
// connect to the database with the details attached.
if (!mysql_real_connect(connection,details.server.c_str(), details.username.c_str(),
details.password.c_str(), details.database.c_str(), 0, NULL, 0)) {
std::cout << "Connection error: " << mysql_error(connection) << "\n";
std::exit(-1);
}
return connection;
}
void database::BaseRepository::intitalizeDetails()
{
auto databaseConfig = manager::DirectoryManager::databaseConfigContent(path);
MYSQL_RES* BaseRepository::performMysqlQuery(MYSQL *conn, const std::string& query) {
// send the query to the database
if (mysql_query(conn, query.c_str())) {
printf("MySQL query error : %s\n", mysql_error(conn));
std::cout << "MySQL query error : " << mysql_error(conn) << "\n";
std::exit(1);
}
return mysql_use_result(conn);
}
void BaseRepository::intitalizeDetails() {
auto databaseConfig = manager::DirectoryManager::databaseConfigContent(path);
details.database = databaseConfig["database"].get<std::string>();
details.password = databaseConfig["password"].get<std::string>();
details.server = databaseConfig["server"].get<std::string>();
details.username = databaseConfig["username"].get<std::string>();
}
void database::BaseRepository::initializeDetails(const model::BinaryPath& bConf)
{
auto databaseConfig = manager::DirectoryManager::databaseConfigContent(bConf);
details.database = databaseConfig["database"].get<std::string>();
details.password = databaseConfig["password"].get<std::string>();
details.server = databaseConfig["server"].get<std::string>();
details.username = databaseConfig["username"].get<std::string>();
}
void BaseRepository::initializeDetails(const model::BinaryPath& bConf)
{
auto databaseConfig = manager::DirectoryManager::databaseConfigContent(bConf);
details.database = databaseConfig["database"].get<std::string>();
details.server = databaseConfig["server"].get<std::string>();
details.username = databaseConfig["username"].get<std::string>();
details.password = databaseConfig["password"].get<std::string>();
details.database = databaseConfig["database"].get<std::string>();
details.server = databaseConfig["server"].get<std::string>();
details.username = databaseConfig["username"].get<std::string>();
details.password = databaseConfig["password"].get<std::string>();
std::cout << "retrieved database details" << std::endl;
std::cout << "retrieved database details\n";
}
}
+254 -302
View File
@@ -6,369 +6,321 @@
#include <string>
#include <cstring>
database::CoverArtRepository::CoverArtRepository(const std::string& path) : BaseRepository(path)
{ }
database::CoverArtRepository::CoverArtRepository(const model::BinaryPath& bConf) : BaseRepository(bConf)
{ }
namespace database {
CoverArtRepository::CoverArtRepository(const model::BinaryPath& bConf) :
BaseRepository(bConf) { }
std::vector<model::Cover> database::CoverArtRepository::retrieveRecords()
{
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
const std::string query = "SELECT * FROM CoverArt";
std::vector<model::Cover> CoverArtRepository::retrieveRecords() {
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
const std::string query = "SELECT * FROM CoverArt";
mysql_stmt_prepare(stmt, query.c_str(), query.size());
mysql_stmt_execute(stmt);
mysql_stmt_prepare(stmt, query.c_str(), query.size());
mysql_stmt_execute(stmt);
auto coverArts = parseRecords(stmt);
auto coverArts = parseRecords(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
mysql_stmt_close(stmt);
mysql_close(conn);
return coverArts;
}
model::Cover database::CoverArtRepository::retrieveRecord(model::Cover& cov, type::CoverFilter filter = type::CoverFilter::id)
{
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
qry << "SELECT * FROM CoverArt WHERE ";
MYSQL_BIND params[1];
memset(params, 0, sizeof(params));
auto songTitleLength = cov.songTitle.size();
switch (filter) {
case type::CoverFilter::id:
qry << "CoverArtId = ?";
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&cov.id;
params[0].length = 0;
params[0].is_null = 0;
break;
case type::CoverFilter::songTitle:
qry << "SongTitle = ?";
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = (char*)cov.songTitle.c_str();
params[0].length = &songTitleLength;
params[0].is_null = 0;
break;
default:
break;
return coverArts;
}
qry << " LIMIT 1";
model::Cover CoverArtRepository::retrieveRecord(model::Cover& cov,
type::CoverFilter filter = type::CoverFilter::id) {
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
const std::string query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
qry << "SELECT * FROM CoverArt WHERE ";
auto covDb = parseRecord(stmt);
MYSQL_BIND params[1];
memset(params, 0, sizeof(params));
mysql_stmt_close(stmt);
mysql_close(conn);
std::cout << "retrieved cover art record" << std::endl;
auto songTitleLength = cov.songTitle.size();
switch (filter) {
case type::CoverFilter::id:
qry << "CoverArtId = ?";
return covDb;
}
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&cov.id;
params[0].length = 0;
params[0].is_null = 0;
break;
case type::CoverFilter::songTitle:
qry << "SongTitle = ?";
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = (char*)cov.songTitle.c_str();
params[0].length = &songTitleLength;
params[0].is_null = 0;
break;
default:
break;
}
bool database::CoverArtRepository::doesCoverArtExist(const model::Cover& cover, type::CoverFilter filter)
{
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
qry << " LIMIT 1";
MYSQL_BIND params[1];
memset(params, 0, sizeof(params));
const std::string query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
std::stringstream qry;
qry << "SELECT * FROM CoverArt WHERE ";
auto covDb = parseRecord(stmt);
auto titleLength = cover.songTitle.size();
switch (filter) {
case type::CoverFilter::id:
qry << "CoverArtId = ?";
mysql_stmt_close(stmt);
mysql_close(conn);
std::cout << "retrieved cover art record\n";
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&cover.id;
params[0].length = 0;
params[0].is_null = 0;
break;
case type::CoverFilter::songTitle:
qry << "SongTitle = ?";
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = (char*)cover.songTitle.c_str();
params[0].length = &titleLength;
params[0].is_null = 0;
break;
default:
break;
return covDb;
}
qry << " LIMIT 1";
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
bool CoverArtRepository::doesCoverArtExist(const model::Cover& cover,
type::CoverFilter filter) {
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
std::cout << "the query has been performed" << std::endl;
MYSQL_BIND params[1];
memset(params, 0, sizeof(params));
mysql_stmt_store_result(stmt);
auto rowCount = mysql_stmt_num_rows(stmt);
std::stringstream qry;
qry << "SELECT * FROM CoverArt WHERE ";
mysql_stmt_close(stmt);
mysql_close(conn);
auto titleLength = cover.songTitle.size();
switch (filter) {
case type::CoverFilter::id:
qry << "CoverArtId = ?";
return (rowCount > 0) ? true : false;
}
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&cover.id;
params[0].length = 0;
params[0].is_null = 0;
break;
case type::CoverFilter::songTitle:
qry << "SongTitle = ?";
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = (char*)cover.songTitle.c_str();
params[0].length = &titleLength;
params[0].is_null = 0;
break;
default:
break;
}
qry << " LIMIT 1";
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
std::cout << "the query has been performed\n";
mysql_stmt_store_result(stmt);
auto rowCount = mysql_stmt_num_rows(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
return (rowCount > 0) ? true : false;
}
// TODO: change to prepared statement
void database::CoverArtRepository::deleteRecord(const model::Cover& cov)
{
auto conn = setupMysqlConnection();
const std::string query("DELETE FROM CoverArt WHERE CoverArtId = " + std::to_string(cov.id));
void CoverArtRepository::deleteRecord(const model::Cover& cov,
type::CoverFilter filter) {
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
std::cout << "delete CoverArt record\n";
std::stringstream qry;
qry << "DELETE FROM CoverArt WHERE ";
auto result = performMysqlQuery(conn, query);
MYSQL_BIND params[1];
std::memset(params, 0, sizeof(params));
mysql_close(conn);
}
switch (filter) {
case type::CoverFilter::id:
qry << "CoverArtId = ?";
void database::CoverArtRepository::saveRecord(const model::Cover& cov)
{
std::cout << "saving cover art record";
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&cov.id;
params[0].length = 0;
params[0].is_null = 0;
break;
default:
break;
}
MYSQL_BIND params[2];
memset(params, 0, sizeof(params));
my_bool isNull;
const auto query = qry.str();
const std::string query = "INSERT INTO CoverArt(SongTitle, ImagePath) VALUES(?, ?)";
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
mysql_stmt_close(stmt);
mysql_close(conn);
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = (char*)cov.songTitle.c_str();
auto songTitleLength = cov.songTitle.size();
params[0].length = &songTitleLength;
params[0].is_null = 0;
std::cout << "deleted CoverArt record\n";
}
params[1].buffer_type = MYSQL_TYPE_STRING;
params[1].buffer = (char*)cov.imagePath.c_str();
auto imagePathLength = cov.imagePath.size();
params[1].length = &imagePathLength;
params[1].is_null = 0;
void CoverArtRepository::saveRecord(const model::Cover& cov) {
std::cout << "saving cover art record";
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
MYSQL_BIND params[2];
memset(params, 0, sizeof(params));
my_bool isNull;
mysql_stmt_close(stmt);
mysql_close(conn);
const std::string query = "INSERT INTO CoverArt(SongTitle, ImagePath) VALUES(?, ?)";
std::cout << "saved cover art record" << std::endl;
}
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
void database::CoverArtRepository::updateRecord(const model::Cover& cover)
{
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = (char*)cov.songTitle.c_str();
auto songTitleLength = cov.songTitle.size();
params[0].length = &songTitleLength;
params[0].is_null = 0;
qry << "UPDATE CoverArt SET ";
qry << "SongTitle = ?, ";
qry << "ImagePath = ? ";
qry << "WHERE CoverArtId = ?";
params[1].buffer_type = MYSQL_TYPE_STRING;
params[1].buffer = (char*)cov.imagePath.c_str();
auto imagePathLength = cov.imagePath.size();
params[1].length = &imagePathLength;
params[1].is_null = 0;
MYSQL_BIND params[3];
memset(params, 0, sizeof(params));
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
auto songTitleLength = cover.songTitle.size();
auto imagePathLength = cover.imagePath.size();
mysql_stmt_close(stmt);
mysql_close(conn);
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = (char*)cover.songTitle.c_str();
params[0].length = &songTitleLength;
params[0].is_null = 0;
std::cout << "saved cover art record\n";
}
params[1].buffer_type = MYSQL_TYPE_STRING;
params[1].buffer = (char*)cover.imagePath.c_str();
params[1].length = &imagePathLength;
params[1].is_null = 0;
void CoverArtRepository::updateRecord(const model::Cover& cover) {
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
params[2].buffer_type = MYSQL_TYPE_LONG;
params[2].buffer = (char*)&cover.id;
params[2].length = 0;
params[2].is_null = 0;
qry << "UPDATE CoverArt SET ";
qry << "SongTitle = ?, ";
qry << "ImagePath = ? ";
qry << "WHERE CoverArtId = ?";
const std::string query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
MYSQL_BIND params[3];
memset(params, 0, sizeof(params));
mysql_stmt_close(stmt);
mysql_close(conn);
auto songTitleLength = cover.songTitle.size();
auto imagePathLength = cover.imagePath.size();
std::cout << "updated cover art record" << std::endl;
}
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = (char*)cover.songTitle.c_str();
params[0].length = &songTitleLength;
params[0].is_null = 0;
params[1].buffer_type = MYSQL_TYPE_STRING;
params[1].buffer = (char*)cover.imagePath.c_str();
params[1].length = &imagePathLength;
params[1].is_null = 0;
params[2].buffer_type = MYSQL_TYPE_LONG;
params[2].buffer = (char*)&cover.id;
params[2].length = 0;
params[2].is_null = 0;
const std::string query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
std::cout << "updated cover art record\n";
}
std::vector<model::Cover> database::CoverArtRepository::parseRecords(MYSQL_STMT *stmt)
{
mysql_stmt_store_result(stmt);
auto rowCount = mysql_stmt_num_rows(stmt);
std::cout << "number of results " << rowCount << std::endl;
std::vector<model::Cover> CoverArtRepository::parseRecords(MYSQL_STMT *stmt) {
mysql_stmt_store_result(stmt);
const auto rowCount = mysql_stmt_num_rows(stmt);
std::cout << "number of results " << rowCount << "\n";
std::vector<model::Cover> coverArts;
coverArts.reserve(rowCount);
std::vector<model::Cover> coverArts;
coverArts.reserve(rowCount);
const auto valAmt = 3;
unsigned long len[valAmt];
my_bool nullRes[valAmt];
constexpr auto valAmt = 3;
for (auto status = 0; status == 0; status = mysql_stmt_next_result(stmt)) {
if (mysql_stmt_field_count(stmt) > 0) {
model::Cover coverArt;
auto res = mysql_stmt_result_metadata(stmt);
auto fields = mysql_fetch_fields(res);
auto strLen = 1024;
for (auto status = 0; status == 0; status = mysql_stmt_next_result(stmt)) {
if (mysql_stmt_field_count(stmt) > 0) {
model::Cover cover;
auto metaBuff = metadataBuffer();
auto bindedValues = valueBind(cover, metaBuff);
status = mysql_stmt_bind_result(stmt, bindedValues.get());
MYSQL_BIND val[valAmt];
memset(val, 0, sizeof(val));
char songTitle[strLen];
char imagePath[strLen];
val[0].buffer_type = MYSQL_TYPE_LONG;
val[0].buffer = (char*)&coverArt.id;
val[0].length = &len[0];
val[0].is_null = &nullRes[0];
val[1].buffer_type = MYSQL_TYPE_STRING;
val[1].buffer = (char*)songTitle;
val[1].buffer_length = strLen;
val[1].length = &len[1];
val[1].is_null = &nullRes[1];
val[2].buffer_type = MYSQL_TYPE_STRING;
val[2].buffer = (char*)imagePath;
val[2].buffer_length = strLen;
val[2].length = &len[2];
val[2].is_null = &nullRes[2];
status = mysql_stmt_bind_result(stmt, val);
while (true) {
std::cout << "fetching statement result" << std::endl;
std::cout << "fetching statement result\n";
status = mysql_stmt_fetch(stmt);
if (status == 1 || status == MYSQL_NO_DATA) {
break;
}
if (status == 1 || status == MYSQL_NO_DATA) break;
coverArt.songTitle = songTitle;
coverArt.imagePath = imagePath;
coverArts.push_back(std::move(coverArt));
cover.songTitle = std::get<0>(metaBuff);
cover.imagePath = std::get<1>(metaBuff);
coverArts.push_back(cover);
}
}
std::cout << "fetching next result" << std::endl;
}
return coverArts;
}
model::Cover database::CoverArtRepository::parseRecord(MYSQL_RES *results)
{
std::cout << "parsing record" << std::endl;
model::Cover cov;
auto fieldNum = mysql_num_fields(results);
MYSQL_ROW row = mysql_fetch_row(results);
for (auto i = 0; i != fieldNum; ++i) {
switch (i) {
case 0:
cov.id = std::stoi(row[i]);
break;
case 1:
cov.songTitle = row[i];
break;
case 2:
cov.imagePath = row[i];
break;
}
}
std::cout << "done parsing record" << std::endl;
return cov;
}
model::Cover database::CoverArtRepository::parseRecord(MYSQL_STMT *stmt)
{
std::cout << "parsing cover art record" << std::endl;
mysql_stmt_store_result(stmt);
model::Cover cover;
auto status = 0;
auto time = 0;
auto valAmt = 3;
unsigned long len[valAmt];
my_bool nullRes[valAmt];
while (status == 0) {
if (mysql_stmt_field_count(stmt) > 0) {
auto res = mysql_stmt_result_metadata(stmt);
auto fields = mysql_fetch_fields(res);
auto strLen = 1024;
MYSQL_BIND val[valAmt];
memset(val, 0, sizeof(val));
char songTitle[strLen];
char imagePath[strLen];
val[0].buffer_type = MYSQL_TYPE_LONG;
val[0].buffer = (char*)&cover.id;
val[0].length = &len[0];
val[0].is_null = &nullRes[0];
val[1].buffer_type = MYSQL_TYPE_STRING;
val[1].buffer = (char*)&songTitle;
val[1].buffer_length = strLen;
val[1].length = &len[1];
val[1].is_null = &nullRes[1];
val[2].buffer_type = MYSQL_TYPE_STRING;
val[2].buffer = (char*)&imagePath;
val[2].buffer_length = strLen;
val[2].length = &len[2];
val[2].is_null = &nullRes[2];
status = mysql_stmt_bind_result(stmt, val);
mysql_stmt_store_result(stmt);
status = mysql_stmt_fetch(stmt);
cover.songTitle = songTitle;
cover.imagePath = imagePath;
std::cout << "fetching next result\n";
}
status = mysql_stmt_next_result(stmt);
return coverArts;
}
std::cout << "done parsing cover art record" << std::endl;
return cover;
std::shared_ptr<MYSQL_BIND> CoverArtRepository::valueBind(model::Cover& cover,
std::tuple<char*, char*>& metadata) {
constexpr auto valueCount = 3;
constexpr auto wordLen = 1024;
std::shared_ptr<MYSQL_BIND> values((MYSQL_BIND*)
std::calloc(valueCount, sizeof(MYSQL_BIND)));
values.get()[0].buffer_type = MYSQL_TYPE_LONG;
values.get()[0].buffer = reinterpret_cast<char*>(&cover.id);
values.get()[1].buffer_type = MYSQL_TYPE_STRING;
values.get()[1].buffer = reinterpret_cast<char*>(std::get<0>(metadata));
values.get()[1].buffer_length = wordLen;
values.get()[2].buffer_type = MYSQL_TYPE_STRING;
values.get()[2].buffer = reinterpret_cast<char*>(std::get<1>(metadata));
values.get()[2].buffer_length = wordLen;
return values;
}
std::tuple<char*, char*> CoverArtRepository::metadataBuffer() {
constexpr auto wordLen = 1024;
char songTitle[wordLen];
char imagePath[wordLen];
return std::make_pair(songTitle, imagePath);
}
model::Cover CoverArtRepository::parseRecord(MYSQL_STMT *stmt) {
std::cout << "parsing cover art record\n";
mysql_stmt_store_result(stmt);
model::Cover cover;
auto metaBuff = metadataBuffer();
auto bindedValues = valueBind(cover, metaBuff);
auto status = mysql_stmt_bind_result(stmt, bindedValues.get());
status = mysql_stmt_fetch(stmt);
cover.songTitle = std::get<0>(metaBuff);
cover.imagePath = std::get<1>(metaBuff);
std::cout << "done parsing cover art record\n";
return cover;
}
}
+319 -323
View File
@@ -5,355 +5,351 @@
#include <sstream>
#include <cstring>
database::GenreRepository::GenreRepository(const model::BinaryPath& bConf)
: BaseRepository(bConf)
{ }
namespace database {
GenreRepository::GenreRepository(const model::BinaryPath& bConf) : BaseRepository(bConf) { }
std::vector<model::Genre> database::GenreRepository::retrieveRecords()
{
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
const std::string query = "SELECT * FROM Genre";
std::vector<model::Genre> GenreRepository::retrieveRecords() {
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
const std::string query = "SELECT * FROM Genre";
mysql_stmt_prepare(stmt, query.c_str(), query.size());
mysql_stmt_execute(stmt);
mysql_stmt_prepare(stmt, query.c_str(), query.size());
mysql_stmt_execute(stmt);
auto genres = parseRecords(stmt);
auto genres = parseRecords(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
mysql_stmt_close(stmt);
mysql_close(conn);
return genres;
}
std::pair<model::Genre, int> database::GenreRepository::retrieveRecordWithSongCount(model::Genre& genre, type::GenreFilter filter = type::GenreFilter::id)
{
std::cout << "retrieving genre record with song count" << std::endl;
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
qry << "SELECT gnr.*, COUNT(*) AS SongCount FROM Genre gnr LEFT JOIN ";
qry << "Song sng ON gnr.GenreId=sng.GenreId WHERE ";
MYSQL_BIND params[1];
std::memset(params, 0, sizeof(params));
switch (filter) {
case type::GenreFilter::id:
qry << "sng.GenreId = ?";
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&genre.id;
params[0].length = 0;
params[0].is_null = 0;
break;
default:
break;
return genres;
}
qry << " GROUP BY gnr.GenreId LIMIT 1";
std::pair<model::Genre, int> GenreRepository::retrieveRecordWithSongCount(
model::Genre& genre, type::GenreFilter filter = type::GenreFilter::id) {
std::cout << "retrieving genre record with song count\n";
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
const auto query = qry.str();
qry << "SELECT gnr.*, COUNT(*) AS SongCount FROM Genre gnr LEFT JOIN ";
qry << "Song sng ON gnr.GenreId=sng.GenreId WHERE ";
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
MYSQL_BIND params[1];
std::memset(params, 0, sizeof(params));
auto gnrWSC = parseRecordWithSongCount(stmt);
switch (filter) {
case type::GenreFilter::id:
qry << "sng.GenreId = ?";
mysql_stmt_close(stmt);
mysql_close(conn);
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&genre.id;
params[0].length = 0;
params[0].is_null = 0;
break;
default:
break;
}
std::cout << "retrieved genre record with song count" << std::endl;
qry << " GROUP BY gnr.GenreId LIMIT 1";
return gnrWSC;
}
const auto query = qry.str();
model::Genre database::GenreRepository::retrieveRecord(model::Genre& genre, type::GenreFilter filter)
{
// TODO: change to prepared statement
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
auto gnrWSC = parseRecordWithSongCount(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
std::cout << "retrieved genre record with song count\n";
return gnrWSC;
}
model::Genre GenreRepository::retrieveRecord(model::Genre& genre, type::GenreFilter filter) {
std::cout << "retrieving genre record\n";
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
qry << "SELECT gnr.* FROM Genre gnr WHERE ";
MYSQL_BIND params[1];
std::memset(params, 0, sizeof(params));
auto categoryLength = genre.category.size();
switch (filter) {
case type::GenreFilter::id:
qry << "gnr.GenreId = ?";
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = reinterpret_cast<char*>(&genre.id);
params[0].length = 0;
params[0].is_null = 0;
break;
case type::GenreFilter::category:
qry << "gnr.Category = ?";
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = const_cast<char*>(genre.category.c_str());
params[0].length = &categoryLength;
params[0].is_null = 0;
break;
default:
break;
}
qry << " ORDER BY GenreId DESC LIMIT 1";
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
genre = parseRecord(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
std::cout << "retrieved record\n";
return genre;
}
bool GenreRepository::doesGenreExist(const model::Genre& genre, type::GenreFilter filter) {
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
std::stringstream qry;
qry << "SELECT * FROM Genre WHERE ";
MYSQL_BIND params[1];
memset(params, 0, sizeof(params));
auto categoryLength = genre.category.size();
switch (filter) {
case type::GenreFilter::id:
qry << "GenreId = ?";
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&genre.id;
params[0].length = 0;
params[0].is_null = 0;
break;
case type::GenreFilter::category:
qry << "Category = ?";
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = (char*)genre.category.c_str();
params[0].length = &categoryLength;
params[0].is_null = 0;
break;
default:
break;
}
qry << " LIMIT 1";
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
std::cout << "the query has been performed\n";
mysql_stmt_store_result(stmt);
auto rowCount = mysql_stmt_num_rows(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
return (rowCount > 0) ? true : false;
}
void GenreRepository::saveRecord(const model::Genre& genre) {
std::cout << "inserting genre record\n";
auto conn = setupMysqlConnection();
MYSQL_STMT *stmt = mysql_stmt_init(conn);
const std::string query("INSERT INTO Genre(Category) VALUES(?)");
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
MYSQL_BIND params[1];
memset(params, 0, sizeof(params));
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = (char*)genre.category.c_str();
auto categoryLength = genre.category.size();
params[0].length = &categoryLength;
params[0].is_null = 0;
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
std::cout << "inserted record\n";
}
void GenreRepository::deleteRecord(const model::Genre& genre,
type::GenreFilter filter = type::GenreFilter::id) {
std::cout << "deleting genre record\n";
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
qry << "DELETE FROM Genre WHERE ";
MYSQL_BIND params[1];
std::memset(params, 0, sizeof(params));
switch (filter) {
case type::GenreFilter::id:
qry << "GenreId = ?";
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&genre.id;
params[0].length = 0;
params[0].is_null = 0;
break;
default:
break;
}
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
std::cout << "deleted genre record\n";
}
std::vector<model::Genre> GenreRepository::parseRecords(MYSQL_STMT *stmt) {
mysql_stmt_store_result(stmt);
std::vector<model::Genre> genres;
genres.reserve(mysql_stmt_num_rows(stmt));
constexpr auto valAmt = 2;
for (auto status = 0; status == 0; status = mysql_stmt_next_result(stmt)) {
if (mysql_stmt_field_count(stmt) > 0) {
model::Genre genre;
auto metaBuff = metadataBuffer();
auto bindedValues = valueBind(genre, metaBuff);
status = mysql_stmt_bind_result(stmt, bindedValues.get());
std::cout << "fetching statement result\n";
status = mysql_stmt_fetch(stmt);
if (status == 1 || status == MYSQL_NO_DATA) break;
genre.category = std::get<0>(metaBuff);
genres.push_back(genre);
}
std::cout << "fetching statement result\n";
}
return genres;
}
std::pair<model::Genre, int> GenreRepository::parseRecordWithSongCount(MYSQL_STMT *stmt) {
std::cout << "parsing genre record with song count\n";
mysql_stmt_store_result(stmt);
const auto rowCount = mysql_stmt_num_rows(stmt);
model::Genre genre;
int songCount = 0;
auto metaBuff = metadataBuffer();
auto val = valueBindWithSongCount(genre, metaBuff, songCount);
if (rowCount == 0) {
std::cout << "no results\n";
return std::make_pair(genre, songCount);
}
auto status = mysql_stmt_bind_result(stmt, val.get());
status = mysql_stmt_fetch(stmt);
genre.category = std::get<0>(metaBuff);
std::cout << "parsed genre record with song count\n";
return std::make_pair(genre, songCount);
}
std::shared_ptr<MYSQL_BIND> GenreRepository::valueBind(model::Genre& genre,
std::tuple<char*>& metadata) {
constexpr auto valueCount = 2;
constexpr auto wordLen = 1024;
std::shared_ptr<MYSQL_BIND> values((MYSQL_BIND*)
std::calloc(valueCount, sizeof(MYSQL_BIND)));
values.get()[0].buffer_type = MYSQL_TYPE_LONG;
values.get()[0].buffer = reinterpret_cast<char*>(&genre.id);
values.get()[1].buffer_type = MYSQL_TYPE_STRING;
values.get()[1].buffer = reinterpret_cast<char*>(std::get<0>(metadata));
values.get()[1].buffer_length = wordLen;
return values;
}
std::cout << "retrieving genre record" << std::endl;
std::stringstream qry;
auto conn = setupMysqlConnection();
qry << "SELECT gnr.* FROM Genre gnr WHERE ";
std::shared_ptr<MYSQL_BIND> GenreRepository::valueBindWithSongCount(model::Genre& genre,
std::tuple<char*>& metadata, int& songCount) {
constexpr auto valueCount = 3;
constexpr auto wordLen = 1024;
std::shared_ptr<MYSQL_BIND> values((MYSQL_BIND*)
std::calloc(valueCount, sizeof(MYSQL_BIND)));
std::unique_ptr<char*> param;
switch (filter) {
case type::GenreFilter::id:
qry << "gnr.GenreId = " << genre.id;
break;
case type::GenreFilter::category:
param = std::make_unique<char*>(new char[genre.category.size()]);
mysql_real_escape_string(conn, *param, genre.category.c_str(), genre.category.size());
qry << "gnr.Category ='" << *param << "'";
break;
default:
break;
values.get()[0].buffer_type = MYSQL_TYPE_LONG;
values.get()[0].buffer = reinterpret_cast<char*>(&genre.id);
values.get()[1].buffer_type = MYSQL_TYPE_STRING;
values.get()[1].buffer = reinterpret_cast<char*>(std::get<0>(metadata));
values.get()[1].buffer_length = wordLen;
values.get()[2].buffer_type = MYSQL_TYPE_LONG;
values.get()[2].buffer = reinterpret_cast<char*>(&songCount);
return values;
}
qry << " ORDER BY GenreId DESC LIMIT 1";
const auto query = qry.str();
auto results = performMysqlQuery(conn, query);
std::tuple<char*> GenreRepository::metadataBuffer() {
constexpr auto wordLen = 1024;
char category[wordLen];
genre = parseRecord(results);
mysql_close(conn);
std::cout << "retrieved record" << std::endl;
return genre;
}
bool database::GenreRepository::doesGenreExist(const model::Genre& genre, type::GenreFilter filter)
{
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
std::stringstream qry;
qry << "SELECT * FROM Genre WHERE ";
MYSQL_BIND params[1];
memset(params, 0, sizeof(params));
auto categoryLength = genre.category.size();
switch (filter) {
case type::GenreFilter::id:
qry << "GenreId = ?";
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&genre.id;
params[0].length = 0;
params[0].is_null = 0;
break;
case type::GenreFilter::category:
qry << "Category = ?";
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = (char*)genre.category.c_str();
params[0].length = &categoryLength;
params[0].is_null = 0;
break;
default:
break;
return std::make_tuple(category);
}
qry << " LIMIT 1";
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
model::Genre GenreRepository::parseRecord(MYSQL_STMT *stmt) {
std::cout << "parsing genre record\n";
mysql_stmt_store_result(stmt);
std::cout << "the query has been performed" << std::endl;
mysql_stmt_store_result(stmt);
auto rowCount = mysql_stmt_num_rows(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
return (rowCount > 0) ? true : false;
}
void database::GenreRepository::saveRecord(const model::Genre& genre)
{
std::cout << "inserting genre record" << std::endl;
auto conn = setupMysqlConnection();
MYSQL_STMT *stmt = mysql_stmt_init(conn);
const std::string query("INSERT INTO Genre(Category) VALUES(?)");
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
MYSQL_BIND params[1];
memset(params, 0, sizeof(params));
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = (char*)genre.category.c_str();
auto categoryLength = genre.category.size();
params[0].length = &categoryLength;
params[0].is_null = 0;
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
std::cout << "inserted record" << std::endl;
}
void database::GenreRepository::deleteRecord(const model::Genre& genre, type::GenreFilter filter = type::GenreFilter::id)
{
// TODO: implement this
std::cout << "deleting genre record" << std::endl;
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
qry << "DELETE FROM Genre WHERE ";
MYSQL_BIND params[1];
std::memset(params, 0, sizeof(params));
switch (filter) {
case type::GenreFilter::id:
qry << "GenreId = ?";
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&genre.id;
params[0].length = 0;
params[0].is_null = 0;
break;
default:
break;
}
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
std::cout << "deleted genre record" << std::endl;
}
std::vector<model::Genre> database::GenreRepository::parseRecords(MYSQL_STMT *stmt)
{
mysql_stmt_store_result(stmt);
std::vector<model::Genre> genres;
genres.reserve(mysql_stmt_num_rows(stmt));
if (mysql_stmt_field_count(stmt) == 0) {
std::cout << "field count is 0" << std::endl;
return genres;
}
model::Genre gnr;
const auto valAmt = 2;
unsigned long len[valAmt];
my_bool nullRes[valAmt];
auto res = mysql_stmt_result_metadata(stmt);
auto fields = mysql_fetch_fields(res);
const auto strLen = 1024;
char category[strLen];
MYSQL_BIND val[valAmt];
memset(val, 0, sizeof(val));
val[0].buffer_type = MYSQL_TYPE_LONG;
val[0].buffer = (char*)&gnr.id;
val[0].length = &len[0];
val[0].is_null = &nullRes[0];
val[1].buffer_type = MYSQL_TYPE_STRING;
val[1].buffer = (char*)category;
val[1].buffer_length = strLen;
val[1].length = &len[1];
val[1].is_null = &nullRes[1];
for (auto status = mysql_stmt_bind_result(stmt, val); status == 0;) {
std::cout << "fetching statement result" << std::endl;
model::Genre genre;
auto metaBuff = metadataBuffer();
auto bindedValues = valueBind(genre, metaBuff);
auto status = mysql_stmt_bind_result(stmt, bindedValues.get());
status = mysql_stmt_fetch(stmt);
if (status == 0) {
gnr.category = category;
genres.push_back(std::move(gnr));
}
genre.category = std::get<0>(metaBuff);
std::cout << "done parsing genre record\n";
return genre;
}
return genres;
}
std::pair<model::Genre, int> database::GenreRepository::parseRecordWithSongCount(MYSQL_STMT *stmt)
{
std::cout << "parsing genre record with song count" << std::endl;
mysql_stmt_store_result(stmt);
const auto strLen = 1024;
const auto valAmt = 3;
unsigned long len[valAmt];
my_bool nullRes[valAmt];
model::Genre genre;
int songCount = 0;
if (mysql_stmt_num_rows(stmt) == 0) {
std::cout << "no results" << std::endl;
return std::make_pair(genre, songCount);
}
MYSQL_BIND val[valAmt];
std::memset(val, 0, sizeof(val));
char category[strLen] ;
val[0].buffer_type = MYSQL_TYPE_LONG;
val[0].buffer = (char*)&genre.id;
val[0].length = &len[0];
val[0].is_null = &nullRes[0];
val[1].buffer_type = MYSQL_TYPE_STRING;
val[1].buffer = (char*)category;
val[1].buffer_length = strLen;
val[1].length = &len[1];
val[1].is_null = &nullRes[1];
val[2].buffer_type = MYSQL_TYPE_LONG;
val[2].buffer = (char*)&songCount;
val[2].length = &len[2];
val[2].is_null = &nullRes[2];
mysql_stmt_bind_result(stmt, val);
mysql_stmt_fetch(stmt);
genre.category = std::move(category);
std::cout << "parsed genre record with song count" << std::endl;
return std::make_pair(genre, songCount);
}
model::Genre database::GenreRepository::parseRecord(MYSQL_RES* results)
{
std::cout << "parsing genre record" << std::endl;
model::Genre genre;
auto fieldNum = mysql_num_fields(results);
auto row = mysql_fetch_row(results);
for (auto i =0; i != fieldNum; ++i) {
const std::string field(mysql_fetch_field(results)->name);
if (field.compare("GenreId") == 0) {
genre.id = std::stoi(row[i]);
}
if (field.compare("Category") == 0) {
genre.category = row[i];
}
}
std::cout << "parsed genre record" << std::endl;
return genre;
}
model::Genre database::GenreRepository::parseRecord(MYSQL_STMT *stmt)
{
// TODO: implement this
model::Genre genre;
return genre;
}
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@@ -7,351 +7,349 @@
namespace database {
UserRepository::UserRepository(const model::BinaryPath& bConf) : BaseRepository(bConf) { }
UserRepository::UserRepository(const model::BinaryPath& bConf) : BaseRepository(bConf) { }
model::User UserRepository::retrieveUserRecord(model::User& user,
type::UserFilter filter = type::UserFilter::username)
{
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
model::User UserRepository::retrieveUserRecord(model::User& user,
type::UserFilter filter = type::UserFilter::username) {
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
qry << "SELECT * FROM User WHERE ";
qry << "SELECT * FROM User WHERE ";
MYSQL_BIND params[1];
std::memset(params, 0, sizeof(params));
MYSQL_BIND params[1];
std::memset(params, 0, sizeof(params));
auto userLength = user.username.size();
switch (filter) {
case type::UserFilter::id:
break;
case type::UserFilter::username:
qry << "Username = ?";
auto userLength = user.username.size();
switch (filter) {
case type::UserFilter::id:
qry << "UserId = ?";
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = (char*)user.username.c_str();
params[0].length = &userLength;
params[0].is_null = 0;
break;
default:
break;
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&user.id;
params[0].length = nullptr;
params[0].is_null = 0;
break;
case type::UserFilter::username:
qry << "Username = ?";
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = (char*)user.username.c_str();
params[0].length = &userLength;
params[0].is_null = 0;
break;
default:
break;
}
qry << " LIMIT 1";
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
user = parseRecord(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
return user;
}
qry << " LIMIT 1";
model::PassSec UserRepository::retrieverUserSaltRecord(model::PassSec& userSec,
type::SaltFilter filter) {
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
qry << "SELECT * FROM Salt WHERE ";
user = parseRecord(stmt);
MYSQL_BIND params[1];
std::memset(params, 0, sizeof(params));
mysql_stmt_close(stmt);
mysql_close(conn);
switch (filter) {
case type::SaltFilter::userId:
qry << "UserId = ?";
return user;
}
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&userSec.userId;
params[0].length = 0;
params[0].is_null = 0;
break;
default:
break;
}
model::PassSec UserRepository::retrieverUserSaltRecord(model::PassSec& userSec, type::SaltFilter filter)
{
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
qry << " LIMIT 1";
qry << "SELECT * FROM Salt WHERE ";
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
MYSQL_BIND params[1];
std::memset(params, 0, sizeof(params));
userSec = parseSaltRecord(stmt);
switch (filter) {
case type::SaltFilter::userId:
qry << "UserId = ?";
mysql_stmt_close(stmt);
mysql_close(conn);
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&userSec.userId;
params[0].length = 0;
params[0].is_null = 0;
break;
default:
break;
return userSec;
}
qry << " LIMIT 1";
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
bool UserRepository::doesUserRecordExist(const model::User& user, type::UserFilter filter) {
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
userSec = parseSaltRecord(stmt);
qry << "SELECT * FROM User WHERE ";
mysql_stmt_close(stmt);
mysql_close(conn);
MYSQL_BIND params[1];
std::memset(params, 0, sizeof(params));
return userSec;
}
auto userLength = user.username.size();
switch (filter) {
case type::UserFilter::username:
qry << "Username = ?";
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = (char*)user.username.c_str();
params[0].length = &userLength;
params[0].is_null = 0;
break;
default:
break;
}
bool UserRepository::doesUserRecordExist(const model::User& user, type::UserFilter filter)
{
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
qry << " LIMIT 1";
qry << "SELECT * FROM User WHERE ";
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
MYSQL_BIND params[1];
std::memset(params, 0, sizeof(params));
mysql_stmt_store_result(stmt);
const auto rowCount = mysql_stmt_num_rows(stmt);
auto userLength = user.username.size();
switch (filter) {
case type::UserFilter::username:
qry << "Username = ?";
mysql_stmt_close(stmt);
mysql_close(conn);
params[0].buffer_type = MYSQL_TYPE_STRING;
params[0].buffer = (char*)user.username.c_str();
params[0].length = &userLength;
params[0].is_null = 0;
break;
default:
break;
return (rowCount > 0) ? true : false;
}
qry << " LIMIT 1";
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
void UserRepository::saveUserRecord(const model::User& user) {
std::cout << "inserting user record\n";
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
mysql_stmt_store_result(stmt);
const auto rowCount = mysql_stmt_num_rows(stmt);
std::stringstream qry;
qry << "INSERT INTO User(Firstname, Lastname, Phone, Email, Username, Password) ";
qry << "VALUES(?, ?, ?, ?, ?, ?)";
mysql_stmt_close(stmt);
mysql_close(conn);
const auto query = qry.str();
auto sizes = fetchUserLengths(user);
auto params = insertUserValues(user, sizes);
return (rowCount > 0) ? true : false;
}
void UserRepository::saveUserRecord(const model::User& user)
{
std::cout << "inserting user record" << std::endl;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params.get());
status = mysql_stmt_execute(stmt);
std::stringstream qry;
qry << "INSERT INTO User(Firstname, Lastname, Phone, Email, Username, Password) ";
qry << "VALUES(?, ?, ?, ?, ?, ?)";
mysql_stmt_close(stmt);
mysql_close(conn);
}
const auto query = qry.str();
void UserRepository::saveUserSalt(const model::PassSec& userSec) {
std::cout << "inserting user salt record\n";
auto sizes = fetchUserLengths(user);
auto params = insertUserValues(user, sizes);
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params.get());
status = mysql_stmt_execute(stmt);
std::stringstream qry;
qry << "INSERT INTO Salt(Salt, UserId) VALUES(?,?)";
mysql_stmt_close(stmt);
mysql_close(conn);
}
const auto query = qry.str();
void UserRepository::saveUserSalt(const model::PassSec& userSec)
{
std::cout << "inserting user salt record" << std::endl;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
auto sizes = fetchSaltLengths(userSec);
auto values = insertSaltValues(userSec, sizes);
std::stringstream qry;
qry << "INSERT INTO Salt(Salt, UserId) VALUES(?,?)";
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, values.get());
status = mysql_stmt_execute(stmt);
const auto query = qry.str();
auto sizes = fetchSaltLengths(userSec);
auto values = insertSaltValues(userSec, sizes);
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, values.get());
status = mysql_stmt_execute(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
}
mysql_stmt_close(stmt);
mysql_close(conn);
}
std::shared_ptr<MYSQL_BIND> UserRepository::insertUserValues(const model::User& user,
std::shared_ptr<UserRepository::UserLengths> lengths)
{
std::shared_ptr<MYSQL_BIND> values((MYSQL_BIND*) std::calloc(6, sizeof(MYSQL_BIND)));
std::shared_ptr<MYSQL_BIND> UserRepository::insertUserValues(const model::User& user,
std::shared_ptr<UserRepository::UserLengths> lengths) {
std::shared_ptr<MYSQL_BIND> values((MYSQL_BIND*) std::calloc(6, sizeof(MYSQL_BIND)));
values.get()[0].buffer_type = MYSQL_TYPE_STRING;
values.get()[0].buffer = (char*)user.firstname.c_str();
values.get()[0].length = &(lengths->firstnameLength);
values.get()[0].is_null = 0;
values.get()[0].buffer_type = MYSQL_TYPE_STRING;
values.get()[0].buffer = (char*)user.firstname.c_str();
values.get()[0].length = &(lengths->firstnameLength);
values.get()[0].is_null = 0;
values.get()[1].buffer_type = MYSQL_TYPE_STRING;
values.get()[1].buffer = (char*)user.lastname.c_str();
values.get()[1].length = &(lengths->lastnameLength);
values.get()[1].is_null = 0;
values.get()[1].buffer_type = MYSQL_TYPE_STRING;
values.get()[1].buffer = (char*)user.lastname.c_str();
values.get()[1].length = &(lengths->lastnameLength);
values.get()[1].is_null = 0;
values.get()[2].buffer_type = MYSQL_TYPE_STRING;
values.get()[2].buffer = (char*)user.phone.c_str();
values.get()[2].length = &(lengths->phoneLength);
values.get()[2].is_null = 0;
values.get()[2].buffer_type = MYSQL_TYPE_STRING;
values.get()[2].buffer = (char*)user.phone.c_str();
values.get()[2].length = &(lengths->phoneLength);
values.get()[2].is_null = 0;
values.get()[3].buffer_type = MYSQL_TYPE_STRING;
values.get()[3].buffer = (char*)user.email.c_str();
values.get()[3].length = &(lengths->emailLength);
values.get()[3].is_null = 0;
values.get()[3].buffer_type = MYSQL_TYPE_STRING;
values.get()[3].buffer = (char*)user.email.c_str();
values.get()[3].length = &(lengths->emailLength);
values.get()[3].is_null = 0;
values.get()[4].buffer_type = MYSQL_TYPE_STRING;
values.get()[4].buffer = (char*)user.username.c_str();
values.get()[4].length = &(lengths->usernameLength);
values.get()[4].is_null = 0;
values.get()[4].buffer_type = MYSQL_TYPE_STRING;
values.get()[4].buffer = (char*)user.username.c_str();
values.get()[4].length = &(lengths->usernameLength);
values.get()[4].is_null = 0;
values.get()[5].buffer_type = MYSQL_TYPE_STRING;
values.get()[5].buffer = (char*)user.password.c_str();
values.get()[5].length = &(lengths->passwordLength);
values.get()[5].is_null = 0;
values.get()[5].buffer_type = MYSQL_TYPE_STRING;
values.get()[5].buffer = (char*)user.password.c_str();
values.get()[5].length = &(lengths->passwordLength);
values.get()[5].is_null = 0;
return values;
}
return values;
}
std::shared_ptr<MYSQL_BIND> UserRepository::insertSaltValues(const model::PassSec& passSec,
std::shared_ptr<UserRepository::SaltLengths> lengths)
{
std::shared_ptr<MYSQL_BIND> values((MYSQL_BIND*) std::calloc(6, sizeof(MYSQL_BIND)));
std::shared_ptr<MYSQL_BIND> UserRepository::insertSaltValues(const model::PassSec& passSec,
std::shared_ptr<UserRepository::SaltLengths> lengths) {
std::shared_ptr<MYSQL_BIND> values((MYSQL_BIND*) std::calloc(6, sizeof(MYSQL_BIND)));
values.get()[0].buffer_type = MYSQL_TYPE_STRING;
values.get()[0].buffer = (char*)passSec.hashPassword.c_str();
values.get()[0].length = &(lengths->saltLength);
values.get()[0].buffer_type = MYSQL_TYPE_STRING;
values.get()[0].buffer = (char*)passSec.hashPassword.c_str();
values.get()[0].length = &(lengths->saltLength);
values.get()[1].buffer_type = MYSQL_TYPE_LONG;
values.get()[1].buffer = (char*)&passSec.userId;
values.get()[1].buffer_type = MYSQL_TYPE_LONG;
values.get()[1].buffer = (char*)&passSec.userId;
return values;
}
return values;
}
std::shared_ptr<MYSQL_BIND> UserRepository::valueBind(model::User& user,
std::tuple<char*, char*, char*, char*, char*, char*>& us) {
std::shared_ptr<MYSQL_BIND> values((MYSQL_BIND*) std::calloc(7, sizeof(MYSQL_BIND)));
constexpr auto strLen = 1024;
std::shared_ptr<MYSQL_BIND> UserRepository::valueBind(model::User& user,
std::tuple<char*, char*, char*, char*, char*, char*>& us)
{
std::shared_ptr<MYSQL_BIND> values((MYSQL_BIND*) std::calloc(7, sizeof(MYSQL_BIND)));
constexpr auto strLen = 1024;
values.get()[0].buffer_type = MYSQL_TYPE_LONG;
values.get()[0].buffer = (char*)&user.id;
values.get()[0].buffer_type = MYSQL_TYPE_LONG;
values.get()[0].buffer = (char*)&user.id;
values.get()[1].buffer_type = MYSQL_TYPE_STRING;
values.get()[1].buffer = (char*)std::get<0>(us);
values.get()[1].buffer_length = strLen;
values.get()[1].buffer_type = MYSQL_TYPE_STRING;
values.get()[1].buffer = (char*)std::get<0>(us);
values.get()[1].buffer_length = strLen;
values.get()[2].buffer_type = MYSQL_TYPE_STRING;
values.get()[2].buffer = (char*)std::get<1>(us);
values.get()[2].buffer_length = strLen;
values.get()[2].buffer_type = MYSQL_TYPE_STRING;
values.get()[2].buffer = (char*)std::get<1>(us);
values.get()[2].buffer_length = strLen;
values.get()[3].buffer_type = MYSQL_TYPE_STRING;
values.get()[3].buffer = (char*)std::get<2>(us);
values.get()[3].buffer_length = strLen;
values.get()[3].buffer_type = MYSQL_TYPE_STRING;
values.get()[3].buffer = (char*)std::get<2>(us);
values.get()[3].buffer_length = strLen;
values.get()[4].buffer_type = MYSQL_TYPE_STRING;
values.get()[4].buffer = (char*)std::get<3>(us);
values.get()[4].buffer_length = strLen;
values.get()[4].buffer_type = MYSQL_TYPE_STRING;
values.get()[4].buffer = (char*)std::get<3>(us);
values.get()[4].buffer_length = strLen;
values.get()[5].buffer_type = MYSQL_TYPE_STRING;
values.get()[5].buffer = (char*)std::get<4>(us);
values.get()[5].buffer_length = strLen;
values.get()[5].buffer_type = MYSQL_TYPE_STRING;
values.get()[5].buffer = (char*)std::get<4>(us);
values.get()[5].buffer_length = strLen;
values.get()[6].buffer_type = MYSQL_TYPE_STRING;
values.get()[6].buffer = (char*)std::get<5>(us);
values.get()[6].buffer_length = strLen;
values.get()[6].buffer_type = MYSQL_TYPE_STRING;
values.get()[6].buffer = (char*)std::get<5>(us);
values.get()[6].buffer_length = strLen;
return values;
}
return values;
}
std::shared_ptr<MYSQL_BIND> UserRepository::saltValueBind(model::PassSec& userSalt, char *salt)
{
std::shared_ptr<MYSQL_BIND> values((MYSQL_BIND*) std::calloc(3, sizeof(MYSQL_BIND)));
constexpr auto strLen = 1024;
std::shared_ptr<MYSQL_BIND> UserRepository::saltValueBind(model::PassSec& userSalt,
char *salt) {
std::shared_ptr<MYSQL_BIND> values((MYSQL_BIND*) std::calloc(3, sizeof(MYSQL_BIND)));
constexpr auto strLen = 1024;
values.get()[0].buffer_type = MYSQL_TYPE_LONG;
values.get()[0].buffer = (char*)&userSalt.id;
values.get()[0].buffer_type = MYSQL_TYPE_LONG;
values.get()[0].buffer = (char*)&userSalt.id;
values.get()[1].buffer_type = MYSQL_TYPE_STRING;
values.get()[1].buffer = (char*)salt;
values.get()[1].buffer_length = strLen;
values.get()[1].buffer_type = MYSQL_TYPE_STRING;
values.get()[1].buffer = (char*)salt;
values.get()[1].buffer_length = strLen;
values.get()[2].buffer_type = MYSQL_TYPE_LONG;
values.get()[2].buffer = (char*)&userSalt.userId;
values.get()[2].buffer_type = MYSQL_TYPE_LONG;
values.get()[2].buffer = (char*)&userSalt.userId;
return values;
}
return values;
}
std::shared_ptr<UserRepository::UserLengths> UserRepository::fetchUserLengths(const model::User& user)
{
auto userLen = std::make_shared<UserLengths>();
userLen->firstnameLength = user.firstname.size();
userLen->lastnameLength = user.lastname.size();
userLen->phoneLength = user.phone.size();
userLen->emailLength = user.email.size();
userLen->usernameLength = user.username.size();
userLen->passwordLength = user.password.size();
std::shared_ptr<UserRepository::UserLengths> UserRepository::fetchUserLengths(
const model::User& user) {
auto userLen = std::make_shared<UserLengths>();
userLen->firstnameLength = user.firstname.size();
userLen->lastnameLength = user.lastname.size();
userLen->phoneLength = user.phone.size();
userLen->emailLength = user.email.size();
userLen->usernameLength = user.username.size();
userLen->passwordLength = user.password.size();
return userLen;
}
return userLen;
}
std::shared_ptr<UserRepository::SaltLengths> UserRepository::fetchSaltLengths(const model::PassSec& passSec)
{
auto saltLen = std::make_shared<SaltLengths>();
saltLen->saltLength = passSec.salt.size();
std::shared_ptr<UserRepository::SaltLengths> UserRepository::fetchSaltLengths(
const model::PassSec& passSec) {
auto saltLen = std::make_shared<SaltLengths>();
saltLen->saltLength = passSec.salt.size();
return saltLen;
}
return saltLen;
}
std::tuple<char*, char*, char*, char*, char*, char*> UserRepository::fetchUV()
{
char firstname[1024];
char lastname[1024];
char phone[1024];
char email[1024];
char username[1024];
char password[1024];
std::tuple<char*, char*, char*, char*, char*, char*> UserRepository::fetchUV() {
char firstname[1024];
char lastname[1024];
char phone[1024];
char email[1024];
char username[1024];
char password[1024];
return std::make_tuple(firstname, lastname, phone, email, username, password);
}
return std::make_tuple(firstname, lastname, phone, email, username, password);
}
model::User UserRepository::parseRecord(MYSQL_STMT *stmt)
{
model::User user;
auto usv = fetchUV();
model::User UserRepository::parseRecord(MYSQL_STMT *stmt) {
model::User user;
auto usv = fetchUV();
auto bindedValues = valueBind(user, usv);
auto status = mysql_stmt_bind_result(stmt, bindedValues.get());
status = mysql_stmt_fetch(stmt);
auto bindedValues = valueBind(user, usv);
auto status = mysql_stmt_bind_result(stmt, bindedValues.get());
status = mysql_stmt_fetch(stmt);
user.firstname = std::get<0>(usv);
user.lastname = std::get<1>(usv);
user.email = std::get<2>(usv);
user.phone = std::get<3>(usv);
user.username = std::get<4>(usv);
user.password = std::get<5>(usv);
user.firstname = std::get<0>(usv);
user.lastname = std::get<1>(usv);
user.email = std::get<2>(usv);
user.phone = std::get<3>(usv);
user.username = std::get<4>(usv);
user.password = std::get<5>(usv);
return user;
}
model::PassSec UserRepository::parseSaltRecord(MYSQL_STMT* stmt)
{
model::PassSec userSalt;
char saltKey[1024];
auto bindedValues = saltValueBind(userSalt, saltKey);
auto status = mysql_stmt_bind_result(stmt, bindedValues.get());
status = mysql_stmt_fetch(stmt);
userSalt.salt = saltKey;
return userSalt;
}
return user;
}
model::PassSec UserRepository::parseSaltRecord(MYSQL_STMT* stmt) {
model::PassSec userSalt;
char saltKey[1024];
auto bindedValues = saltValueBind(userSalt, saltKey);
auto status = mysql_stmt_bind_result(stmt, bindedValues.get());
status = mysql_stmt_fetch(stmt);
userSalt.salt = saltKey;
return userSalt;
}
}
+272 -272
View File
@@ -6,337 +6,337 @@
#include <string>
#include <cstring>
database::YearRepository::YearRepository(const model::BinaryPath& bConf)
: BaseRepository(bConf)
{ }
namespace database {
YearRepository::YearRepository(const model::BinaryPath& bConf) : BaseRepository(bConf) { }
std::vector<model::Year> database::YearRepository::retrieveRecords()
{
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
const std::string query = "SELECT * FROM Year";
std::vector<model::Year> YearRepository::retrieveRecords() {
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
const std::string query = "SELECT * FROM Year";
mysql_stmt_prepare(stmt, query.c_str(), query.size());
mysql_stmt_execute(stmt);
mysql_stmt_prepare(stmt, query.c_str(), query.size());
mysql_stmt_execute(stmt);
auto yearRecs = parseRecords(stmt);
auto yearRecs = parseRecords(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
mysql_stmt_close(stmt);
mysql_close(conn);
return yearRecs;
}
std::pair<model::Year, int> database::YearRepository::retrieveRecordWithSongCount(model::Year& year, type::YearFilter filter = type::YearFilter::id)
{
std::cout << "retrieving year record with song count" << std::endl;
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
qry << "SELECT yr.*, COUNT(*) AS SongCount FROM Year yr LEFT JOIN ";
qry << "Song sng ON yr.YearId=sng.YearId WHERE ";
MYSQL_BIND params[1];
std::memset(params, 0, sizeof(params));
switch (filter) {
case type::YearFilter::id:
qry << "sng.YearId = ?";
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&year.id;
params[0].length = 0;
params[0].is_null = 0;
break;
default:
break;
return yearRecs;
}
qry << " GROUP BY yr.YearId LIMIT 1";
std::pair<model::Year, int> YearRepository::retrieveRecordWithSongCount(model::Year& year,
type::YearFilter filter) {
std::cout << "retrieving year record with song count\n";
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
const auto query = qry.str();
qry << "SELECT yr.*, COUNT(*) AS SongCount FROM Year yr LEFT JOIN ";
qry << "Song sng ON yr.YearId=sng.YearId WHERE ";
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
MYSQL_BIND params[1];
std::memset(params, 0, sizeof(params));
auto yearWSC = parseRecordWithSongCount(stmt);
switch (filter) {
case type::YearFilter::id:
qry << "sng.YearId = ?";
mysql_stmt_close(stmt);
mysql_close(conn);
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&year.id;
params[0].length = 0;
params[0].is_null = 0;
break;
default:
break;
}
std::cout << "retrieved year record with song count" << std::endl;
qry << " GROUP BY yr.YearId LIMIT 1";
return yearWSC;
}
const auto query = qry.str();
model::Year database::YearRepository::retrieveRecord(model::Year& year, type::YearFilter filter)
{
// TODO: switch to prepared statements
std::cout << "retrieving year record" << std::endl;
std::stringstream qry;
auto conn = setupMysqlConnection();
qry << "SELECT yr.* FROM Year yr WHERE ";
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
switch (filter) {
case type::YearFilter::id:
qry << "yr.YearId = " << year.id;
break;
case type::YearFilter::year:
qry << "yr.Year = " << year.year;
break;
default:
break;
auto yearWSC = parseRecordWithSongCount(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
std::cout << "retrieved year record with song count\n";
return yearWSC;
}
qry << " ORDER BY yr.YearId DESC LIMIT 1";
model::Year YearRepository::retrieveRecord(model::Year& year, type::YearFilter filter) {
std::cout << "retrieving year record\n";
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
qry << "SELECT yr.* FROM Year yr WHERE ";
const auto query = qry.str();
auto results = performMysqlQuery(conn, query);
MYSQL_BIND params[1];
std::memset(params, 0, sizeof(0));
year = parseRecord(results);
switch (filter) {
case type::YearFilter::id:
qry << "yr.YearId = ?";
mysql_close(conn);
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = reinterpret_cast<char*>(&year.id);
params[0].length = 0;
params[0].is_null = 0;
break;
case type::YearFilter::year:
qry << "yr.Year = ?";
std::cout << "retrieved record" << std::endl;
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = reinterpret_cast<char*>(&year.year);
params[0].length = 0;
params[0].is_null = 0;
break;
default:
break;
}
return year;
}
qry << " ORDER BY yr.YearId DESC LIMIT 1";
bool database::YearRepository::doesYearExist(const model::Year& year, type::YearFilter filter)
{
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
const auto query = qry.str();
std::stringstream qry;
qry << "SELECT * FROM Year WHERE ";
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
MYSQL_BIND params[1];
memset(params, 0, sizeof(params));
year = parseRecord(stmt);
switch (filter) {
case type::YearFilter::id:
qry << "YearId = ?";
mysql_stmt_close(stmt);
mysql_close(conn);
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&year.id;
params[0].length = 0;
params[0].is_null = 0;
break;
case type::YearFilter::year:
qry << "Year = ?";
std::cout << "retrieved record\n";
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&year.year;
params[0].length = 0;
params[0].is_null = 0;
break;
default:
break;
return year;
}
qry << " LIMIT 1";
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
bool YearRepository::doesYearExist(const model::Year& year, type::YearFilter filter) {
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
std::cout << "the query has been performed" << std::endl;
std::stringstream qry;
qry << "SELECT * FROM Year WHERE ";
mysql_stmt_store_result(stmt);
auto rowCount = mysql_stmt_num_rows(stmt);
MYSQL_BIND params[1];
memset(params, 0, sizeof(params));
mysql_stmt_close(stmt);
mysql_close(conn);
switch (filter) {
case type::YearFilter::id:
qry << "YearId = ?";
return (rowCount > 0) ? true : false;
}
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&year.id;
params[0].length = 0;
params[0].is_null = 0;
break;
case type::YearFilter::year:
qry << "Year = ?";
void database::YearRepository::saveRecord(const model::Year& year)
{
std::cout << "saving year record" << std::endl;
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&year.year;
params[0].length = 0;
params[0].is_null = 0;
break;
default:
break;
}
auto conn = setupMysqlConnection();
MYSQL_STMT *stmt = mysql_stmt_init(conn);
qry << " LIMIT 1";
const std::string query("INSERT INTO Year(Year) VALUES(?)");
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
std::cout << "the query has been performed\n";
MYSQL_BIND params[1];
memset(params, 0 , sizeof(params));
mysql_stmt_store_result(stmt);
auto rowCount = mysql_stmt_num_rows(stmt);
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&year.year;
params[0].length = 0;
params[0].is_null = 0;
mysql_stmt_close(stmt);
mysql_close(conn);
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
std::cout << "saved record" << std::endl;
}
void database::YearRepository::deleteYear(const model::Year& year, type::YearFilter filter = type::YearFilter::id)
{
std::cout << "deleting year record" << std::endl;
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
qry << "DELETE FROM Year WHERE ";
MYSQL_BIND params[1];
std::memset(params, 0, sizeof(params));
switch (filter) {
case type::YearFilter::id:
qry << "YearId = ?";
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&year.id;
params[0].length = 0;
params[0].is_null = 0;
break;
default:
break;
return (rowCount > 0) ? true : false;
}
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
void YearRepository::saveRecord(const model::Year& year) {
std::cout << "saving year record\n";
mysql_stmt_close(stmt);
mysql_close(conn);
auto conn = setupMysqlConnection();
MYSQL_STMT *stmt = mysql_stmt_init(conn);
std::cout << "deleted year record" << std::endl;
}
const std::string query("INSERT INTO Year(Year) VALUES(?)");
std::vector<model::Year> database::YearRepository::parseRecords(MYSQL_STMT *stmt)
{
mysql_stmt_store_result(stmt);
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
std::vector<model::Year> yearRecs;
yearRecs.reserve(mysql_stmt_num_rows(stmt));
MYSQL_BIND params[1];
memset(params, 0 , sizeof(params));
if (mysql_stmt_field_count(stmt) == 0) {
std::cout << "field count is 0" << std::endl;
return yearRecs;
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&year.year;
params[0].length = 0;
params[0].is_null = 0;
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
std::cout << "saved record\n";
}
model::Year yearRec;
const auto valAmt = 2;
unsigned long len[valAmt];
my_bool nullRes[valAmt];
void YearRepository::deleteYear(const model::Year& year,
type::YearFilter filter) {
std::cout << "deleting year record\n";
std::stringstream qry;
auto conn = setupMysqlConnection();
auto stmt = mysql_stmt_init(conn);
auto res = mysql_stmt_result_metadata(stmt);
qry << "DELETE FROM Year WHERE ";
MYSQL_BIND val[valAmt];
memset(val, 0, sizeof(val));
MYSQL_BIND params[1];
std::memset(params, 0, sizeof(params));
val[0].buffer_type = MYSQL_TYPE_LONG;
val[0].buffer = (char*)&yearRec.id;
val[0].length = &len[0];
val[0].is_null = &nullRes[0];
switch (filter) {
case type::YearFilter::id:
qry << "YearId = ?";
val[1].buffer_type = MYSQL_TYPE_LONG;
val[1].buffer = (char*)&yearRec.year;
val[1].length = &len[1];
val[1].is_null = &nullRes[1];
params[0].buffer_type = MYSQL_TYPE_LONG;
params[0].buffer = (char*)&year.id;
params[0].length = 0;
params[0].is_null = 0;
break;
default:
break;
}
for (auto status = mysql_stmt_bind_result(stmt, val); status == 0;) {
std::cout << "fetching statement result" << std::endl;
const auto query = qry.str();
auto status = mysql_stmt_prepare(stmt, query.c_str(), query.size());
status = mysql_stmt_bind_param(stmt, params);
status = mysql_stmt_execute(stmt);
mysql_stmt_close(stmt);
mysql_close(conn);
std::cout << "deleted year record\n";
}
std::vector<model::Year> YearRepository::parseRecords(MYSQL_STMT *stmt) {
mysql_stmt_store_result(stmt);
const auto rowCount = mysql_stmt_num_rows(stmt);
std::vector<model::Year> yearRecs;
yearRecs.reserve(rowCount);
if (mysql_stmt_field_count(stmt) == 0) {
std::cout << "field count is 0\n";
return yearRecs;
}
const auto valAmt = 2;
unsigned long len[valAmt];
my_bool nullRes[valAmt];
for (auto status = 0; status == 0; status = mysql_stmt_next_result(stmt)) {
if (mysql_stmt_field_count(stmt) > 0) {
model::Year yearRec;
std::cout << "fetching statement result\n";
auto bindedValues = valueBind(yearRec);
status = mysql_stmt_bind_result(stmt, bindedValues.get());
status = mysql_stmt_fetch(stmt);
if (status == 1 || status == MYSQL_NO_DATA) break;
yearRecs.push_back(yearRec);
}
std::cout << "fetching next result\n";
}
return yearRecs;
}
std::pair<model::Year, int> YearRepository::parseRecordWithSongCount(MYSQL_STMT *stmt) {
std::cout << "parsing year record\n";
mysql_stmt_store_result(stmt);
model::Year year;
int songCount = 0;
if (mysql_stmt_num_rows(stmt) == 0) {
std::cout << "no results\n";
return std::make_pair(year, songCount);
}
auto val = valueBindWithSongCount(year, songCount);
auto status = mysql_stmt_bind_result(stmt, val.get());
status = mysql_stmt_fetch(stmt);
std::cout << "parsed year record from the database\n";
return std::make_pair(year, songCount);
}
std::shared_ptr<MYSQL_BIND> YearRepository::valueBind(model::Year& year) {
constexpr auto valueCount = 2;
std::shared_ptr<MYSQL_BIND> values((MYSQL_BIND*)
std::calloc(valueCount, sizeof(MYSQL_BIND)));
values.get()[0].buffer_type = MYSQL_TYPE_LONG;
values.get()[0].buffer = reinterpret_cast<char*>(&year.id);
values.get()[1].buffer_type = MYSQL_TYPE_LONG;
values.get()[1].buffer = reinterpret_cast<char*>(&year.year);
return values;
}
std::shared_ptr<MYSQL_BIND> YearRepository::valueBindWithSongCount(model::Year& year,
int& songCount) {
constexpr auto valueCount = 3;
std::shared_ptr<MYSQL_BIND> values((MYSQL_BIND*)
std::calloc(valueCount, sizeof(MYSQL_BIND)));
values.get()[0].buffer_type = MYSQL_TYPE_LONG;
values.get()[0].buffer = reinterpret_cast<char*>(&year.id);
values.get()[1].buffer_type = MYSQL_TYPE_LONG;
values.get()[1].buffer = reinterpret_cast<char*>(&year.year);
values.get()[2].buffer_type = MYSQL_TYPE_LONG;
values.get()[2].buffer = reinterpret_cast<char*>(&songCount);
return values;
}
model::Year YearRepository::parseRecord(MYSQL_STMT *stmt) {
std::cout << "parsing year record\n";
mysql_stmt_store_result(stmt);
model::Year year;
auto bindedValues = valueBind(year);
auto status = mysql_stmt_bind_result(stmt, bindedValues.get());
status = mysql_stmt_fetch(stmt);
if (status == 0) {
yearRecs.push_back(std::move(yearRec));
}
std::cout << "done parsing year record\n";
return year;
}
return yearRecs;
}
std::pair<model::Year, int> database::YearRepository::parseRecordWithSongCount(MYSQL_STMT *stmt)
{
std::cout << "parsing year record" << std::endl;
mysql_stmt_store_result(stmt);
constexpr auto valAmt = 3;
unsigned long len[valAmt];
my_bool nullRes[valAmt];
model::Year year;
int songCount = 0;
if (mysql_stmt_num_rows(stmt) == 0) {
std::cout << "no results" << std::endl;
return std::make_pair(year, songCount);
}
MYSQL_BIND val[valAmt];
std::memset(val, 0, sizeof(val));
val[0].buffer_type = MYSQL_TYPE_LONG;
val[0].buffer = (char*)&year.id;
val[0].length = &len[0];
val[0].is_null = &nullRes[0];
val[1].buffer_type = MYSQL_TYPE_LONG;
val[1].buffer = (char*)&year.year;
val[1].length = &len[1];
val[1].is_null = &nullRes[1];
val[2].buffer_type = MYSQL_TYPE_LONG;
val[2].buffer = (char*)&songCount;
val[2].length = &len[2];
val[2].is_null = &nullRes[2];
mysql_stmt_bind_result(stmt, val);
mysql_stmt_fetch(stmt);
std::cout << "parsed year record from the database" << std::endl;
return std::make_pair(year, songCount);
}
model::Year database::YearRepository::parseRecord(MYSQL_RES *results)
{
std::cout << "parsing year record" << std::endl;
model::Year year;
auto fieldNum = mysql_num_fields(results);
auto row = mysql_fetch_row(results);
for (auto i = 0; i != fieldNum; ++i) {
const std::string field(mysql_fetch_field(results)->name);
if (field.compare("YearId") == 0) {
year.id= std::stoi(row[i]);
}
if (field.compare("Year") == 0) {
year.year = std::stoi(row[i]);
}
}
std::cout << "parse year record" << std::endl;
return year;
}
model::Year database::YearRepository::parseRecord(MYSQL_STMT *stmt)
{
// TODO: imeplement this
// I really thought that I had already done this
model::Year year;
return year;
}
+16 -2
View File
@@ -1,8 +1,8 @@
#include "dto/conversion/DtoConversions.h"
namespace dto { namespace conversion {
dto::LoginResultDto::ObjectWrapper DtoConversions::toLoginResultDto(const model::User& user,
const model::Token& token) {
LoginResultDto::ObjectWrapper DtoConversions::toLoginResultDto(const model::User& user,
const model::Token& token) {
auto logRes = dto::LoginResultDto::createShared();
logRes->username = user.username.c_str();
logRes->token = token.accessToken.c_str();
@@ -24,12 +24,24 @@ namespace dto { namespace conversion {
}
dto::AlbumDto::ObjectWrapper DtoConversions::toAlbumDto(const model::Album& album) {
auto result = dto::AlbumDto::createShared();
result->id = (album.id != 0) ? album.id : 0;
result->title = (!album.title.empty()) ? album.title.c_str() : "";
result->artist = (!album.artist.empty()) ? album.artist.c_str() : "";
result->year = (album.year != 0) ? album.year : 0;
return result;
}
dto::SongDto::ObjectWrapper DtoConversions::toSongDto(const model::Song& song) {
auto result = dto::SongDto::createShared();
result->id = (song.id != 0) ? song.id : 0;
result->title = (!song.title.empty()) ? song.title.c_str() : "";
result->album = (!song.album.empty()) ? song.album.c_str() : "";
result->artist = (!song.artist.empty()) ? song.artist.c_str() : "";
result->album_artist = (!song.albumArtist.empty()) ? song.albumArtist.c_str() : "";
result->genre = (!song.genre.empty()) ? song.genre.c_str() : "";
result->duration = (song.duration != 0) ? song.duration : 0;
result->year = (song.year != 0) ? song.year : 0;
@@ -47,6 +59,8 @@ namespace dto { namespace conversion {
song.title = (songDto->title == nullptr) ? "" : songDto->title->c_str();
song.album = (songDto->album == nullptr) ? "" : songDto->album->c_str();
song.artist = (songDto->artist == nullptr) ? "" : songDto->artist->c_str();
song.albumArtist = (songDto->album_artist == nullptr) ?
"" : songDto->album_artist->c_str();
song.genre = (songDto->genre == nullptr) ? "" : songDto->genre->c_str();
song.year = (songDto->year.getPtr() == nullptr) ? 0 : songDto->year->getValue();
song.track = (songDto->track.getPtr() == nullptr) ? 0 : songDto->track->getValue();
+47 -56
View File
@@ -6,76 +6,67 @@
#include "model/Models.h"
#include "type/AlbumFilter.h"
manager::AlbumManager::AlbumManager(const model::BinaryPath& bConf)
: m_bConf(bConf)
{ }
namespace manager {
AlbumManager::AlbumManager(const model::BinaryPath& bConf) : m_bConf(bConf) { }
model::Album manager::AlbumManager::retrieveAlbum(model::Album& album)
{
database::AlbumRepository albRepo(m_bConf);
album = std::move(albRepo.retrieveRecord(album, type::AlbumFilter::title));
model::Album AlbumManager::retrieveAlbum(model::Album& album) {
database::AlbumRepository albRepo(m_bConf);
album = std::move(albRepo.retrieveRecord(album, type::AlbumFilter::title));
return album;
}
return album;
}
model::Album manager::AlbumManager::saveAlbum(const model::Song& song)
{
model::Album album;
album.title = song.album;
album.year = song.year;
model::Album AlbumManager::saveAlbum(const model::Song& song) {
model::Album album(song);
database::AlbumRepository albRepo(m_bConf);
if (!albRepo.doesAlbumExists(album, type::AlbumFilter::title)) {
albRepo.saveAlbum(album);
} else {
std::cout << "album record already exists in the database" << std::endl;
database::AlbumRepository albRepo(m_bConf);
// TODO: check for existence with the title and the artist
if (!albRepo.doesAlbumExists(album, type::AlbumFilter::title)) {
albRepo.saveAlbum(album);
} else {
std::cout << "album record already exists in the database\n";
}
return album;
}
return album;
}
void AlbumManager::deleteAlbum(const model::Song& song) {
model::Album album(song);
void manager::AlbumManager::deleteAlbum(const model::Song& song)
{
model::Album album(song);
database::AlbumRepository albRepo(m_bConf);
auto albWSC = albRepo.retrieveRecordWithSongCount(album, type::AlbumFilter::id);
database::AlbumRepository albRepo(m_bConf);
auto albWSC = albRepo.retrieveRecordWithSongCount(album, type::AlbumFilter::id);
if (albWSC.second > 1) {
std::cout << "album still contain songs related to it, will not delete" << std::endl;
return;
if (albWSC.second > 1) {
std::cout << "album still contain songs related to it, will not delete\n";
return;
}
std::cout << "safe to delete the album record\n";
albRepo.deleteAlbum(album, type::AlbumFilter::id);
}
std::cout << "safe to delete the album record" << std::endl;
albRepo.deleteAlbum(album, type::AlbumFilter::id);
}
void AlbumManager::updateAlbum(model::Song& updatedSong,
const model::Song& currSong) {
model::Album album(updatedSong);
void manager::AlbumManager::updateAlbum(model::Song& updatedSong,
const model::Song& currSong)
{
model::Album album;
album.title = updatedSong.album;
album.year = updatedSong.year;
database::AlbumRepository albRepo(m_bConf);
if (!albRepo.doesAlbumExists(album, type::AlbumFilter::title)) {
std::cout << "album record does not exist\n";
albRepo.saveAlbum(album);
} else {
std::cout << "album record already exists\n";
}
database::AlbumRepository albRepo(m_bConf);
if (!albRepo.doesAlbumExists(album, type::AlbumFilter::title)) {
std::cout << "album record does not exist" << std::endl;
albRepo.saveAlbum(album);
} else {
std::cout << "album record already exists" << std::endl;
album = albRepo.retrieveRecord(album, type::AlbumFilter::title);
updatedSong.albumId = album.id;
}
album = albRepo.retrieveRecord(album, type::AlbumFilter::title);
updatedSong.albumId = album.id;
}
void manager::AlbumManager::printAlbum(const model::Album& album)
{
std::cout << "\nalbum record" << std::endl;
std::cout << "id: " << album.id << std::endl;
std::cout << "title: " << album.title << std::endl;
std::cout << "year: " << album.year << std::endl;
void AlbumManager::printAlbum(const model::Album& album) {
std::cout << "\nalbum record\n";
std::cout << "id: " << album.id << "\n";
std::cout << "title: " << album.title << "\n";
std::cout << "year: " << album.year << "\n";
}
}
+53 -57
View File
@@ -5,76 +5,72 @@
#include "database/ArtistRepository.h"
#include "type/ArtistFilter.h"
manager::ArtistManager::ArtistManager(const model::BinaryPath& bConf)
: m_bConf(bConf)
{ }
namespace manager {
ArtistManager::ArtistManager(const model::BinaryPath& bConf) : m_bConf(bConf) { }
model::Artist manager::ArtistManager::retrieveArtist(model::Artist& artist)
{
std::cout << "retrieving artist record" << std::endl;
database::ArtistRepository artRepo(m_bConf);
std::cout << "initialized artist repo" << std::endl;
std::cout << artist.artist << std::endl;
artist = artRepo.retrieveRecord(artist, type::ArtistFilter::artist);
model::Artist ArtistManager::retrieveArtist(model::Artist& artist) {
std::cout << "retrieving artist record\n";
database::ArtistRepository artRepo(m_bConf);
std::cout << "initialized artist repo\n";
std::cout << artist.artist << "\n";
artist = artRepo.retrieveRecord(artist, type::ArtistFilter::artist);
return artist;
}
model::Artist manager::ArtistManager::saveArtist(const model::Song& song)
{
model::Artist artist;
artist.artist = song.artist;
database::ArtistRepository artRepo(m_bConf);
if (!artRepo.doesArtistExist(artist, type::ArtistFilter::artist)) {
artRepo.saveRecord(artist);
} else {
std::cout << "artist already exists" << std::endl;
return artist;
}
return artist;
}
model::Artist ArtistManager::saveArtist(const model::Song& song) {
model::Artist artist;
artist.artist = song.artist;
database::ArtistRepository artRepo(m_bConf);
if (!artRepo.doesArtistExist(artist, type::ArtistFilter::artist)) {
artRepo.saveRecord(artist);
} else {
std::cout << "artist already exists\n";
}
return artist;
}
void manager::ArtistManager::deleteArtist(const model::Song& song)
{
model::Artist artist(song);
void ArtistManager::deleteArtist(const model::Song& song) {
model::Artist artist(song);
database::ArtistRepository artRepo(m_bConf);
auto artWSC = artRepo.retrieveRecordWithSongCount(artist, type::ArtistFilter::id);
database::ArtistRepository artRepo(m_bConf);
auto artWSC = artRepo.retrieveRecordWithSongCount(artist, type::ArtistFilter::id);
if (artWSC.second > 1) {
std::cout << "artist still contain songs related to it";
std::cout << ", not delete" << std::endl;
return;
if (artWSC.second > 1) {
std::cout << "artist still contain songs related to it";
std::cout << ", not delete\n";
return;
}
std::cout << "safe to delete the artist record\n";
artRepo.deleteArtist(artist, type::ArtistFilter::id);
}
std::cout << "safe to delete the artist record" << std::endl;
artRepo.deleteArtist(artist, type::ArtistFilter::id);
}
void ArtistManager::updateArtist(model::Song& updatedSong,
const model::Song& currSong) {
model::Artist artist;
artist.artist = updatedSong.artist;
void manager::ArtistManager::updateArtist(model::Song& updatedSong,
const model::Song& currSong)
{
model::Artist artist;
artist.artist = updatedSong.artist;
database::ArtistRepository artRepo(m_bConf);
if (!artRepo.doesArtistExist(artist, type::ArtistFilter::artist)) {
std::cout << "artist record does not exist\n";
artRepo.saveRecord(artist);
} else {
std::cout << "artist record already exists\n";
}
database::ArtistRepository artRepo(m_bConf);
if (!artRepo.doesArtistExist(artist, type::ArtistFilter::artist)) {
std::cout << "artist record does not exist" << std::endl;
artRepo.saveRecord(artist);
} else {
std::cout << "artist record already exists" << std::endl;
artist = artRepo.retrieveRecord(artist, type::ArtistFilter::artist);
updatedSong.artistId = artist.id;
}
artist = artRepo.retrieveRecord(artist, type::ArtistFilter::artist);
updatedSong.artistId = artist.id;
}
void manager::ArtistManager::printArtist(const model::Artist& artist)
{
std::cout << "\nartist record" << std::endl;
std::cout << "id: " << artist.id << std::endl;
std::cout << "artist: " << artist.artist << std::endl;
void ArtistManager::printArtist(const model::Artist& artist) {
std::cout << "\nartist record" << "\n";
std::cout << "id: " << artist.id << "\n";
std::cout << "artist: " << artist.artist << "\n";
}
}
+98 -105
View File
@@ -11,132 +11,125 @@
namespace fs = std::filesystem;
manager::CoverArtManager::CoverArtManager(const std::string& configPath) : path(configPath)
{ }
manager::CoverArtManager::CoverArtManager(const model::BinaryPath& bConf) : m_bConf(bConf)
{ }
namespace manager {
CoverArtManager::CoverArtManager(const model::BinaryPath& bConf) : m_bConf(bConf) { }
model::Cover manager::CoverArtManager::saveCover(const model::Song& song)
{
auto pathConfigContent = manager::DirectoryManager::pathConfigContent(m_bConf);
auto stockCoverPath = manager::DirectoryManager::configPath(m_bConf);
stockCoverPath.append("/CoverArt.png");
model::Cover CoverArtManager::saveCover(const model::Song& song) {
auto pathConfigContent = DirectoryManager::pathConfigContent(m_bConf);
auto stockCoverPath = DirectoryManager::configPath(m_bConf);
stockCoverPath.append("/CoverArt.png");
utility::MetadataRetriever meta;
model::Cover cov;
cov.songTitle = song.title;
utility::MetadataRetriever meta;
model::Cover cov;
cov.songTitle = song.title;
if (meta.songContainsCoverArt(song)) {
cov.imagePath = createImagePath(song);
cov = meta.applyCoverArt(song, cov);
} else {
cov.imagePath = pathConfigContent["cover_root_path"].get<std::string>();
cov = meta.applyStockCoverArt(song, cov, stockCoverPath);
if (meta.songContainsCoverArt(song)) {
cov.imagePath = createImagePath(song);
cov = meta.applyCoverArt(song, cov);
} else {
cov.imagePath = pathConfigContent["cover_root_path"].get<std::string>();
cov = meta.applyStockCoverArt(song, cov, stockCoverPath);
}
database::CoverArtRepository covRepo(m_bConf);
if (!covRepo.doesCoverArtExist(cov, type::CoverFilter::songTitle)) {
std::cout << "saving image record to the database\n";
covRepo.saveRecord(cov);
} else {
std::cout << "cover art record already exists\n";
}
std::cout << "retrieving image record from database\n";
cov = covRepo.retrieveRecord(cov, type::CoverFilter::songTitle);
return cov;
}
database::CoverArtRepository covRepo(m_bConf);
if (!covRepo.doesCoverArtExist(cov, type::CoverFilter::songTitle)) {
std::cout << "saving image record to the database" << std::endl;
covRepo.saveRecord(cov);
} else {
std::cout << "cover art record already exists" << std::endl;
std::pair<bool, std::string> CoverArtManager::defaultCover(
const model::Cover& cover) {
auto paths = DirectoryManager::pathConfigContent(m_bConf);
const auto coverArtPath =
paths[DirectoryManager::retrievePathType(
type::PathType::coverArt)].get<std::string>();
auto stockCoverArtPath = coverArtPath;
stockCoverArtPath.append("CoverArt.png");
if (stockCoverArtPath.compare(cover.imagePath) == 0) {
return std::make_pair(true, coverArtPath);
} else {
return std::make_pair(false, coverArtPath);
}
}
std::cout << "retrieving image record from database" << std::endl;
cov = covRepo.retrieveRecord(cov, type::CoverFilter::songTitle);
return cov;
}
void CoverArtManager::deleteCover(const model::Song& song) {
database::CoverArtRepository covRepo(m_bConf);
model::Cover cov(song.coverArtId);
std::pair<bool, std::string> manager::CoverArtManager::defaultCover(
const model::Cover& cover) {
cov = covRepo.retrieveRecord(cov, type::CoverFilter::id);
covRepo.deleteRecord(cov);
auto paths = manager::DirectoryManager::pathConfigContent(m_bConf);
const auto coverArtPath =
paths[manager::DirectoryManager::retrievePathType(
type::PathType::coverArt)].get<std::string>();
auto result = defaultCover(cov);
if (!result.first) {
fs::remove(cov.imagePath);
std::cout << "deleting cover art\n";
const auto coverArtPath = result.second;
} else {
std::cout << "song contains the stock cover art, will not delete\n";
return;
}
auto stockCoverArtPath = coverArtPath;
stockCoverArtPath.append("CoverArt.png");
if (stockCoverArtPath.compare(cover.imagePath) == 0) {
return std::make_pair(true, coverArtPath);
} else {
return std::make_pair(false, coverArtPath);
}
}
void manager::CoverArtManager::deleteCover(const model::Song& song)
{
database::CoverArtRepository covRepo(m_bConf);
model::Cover cov(song.coverArtId);
cov = covRepo.retrieveRecord(cov, type::CoverFilter::id);
covRepo.deleteRecord(cov);
auto result = defaultCover(cov);
if (!result.first) {
fs::remove(cov.imagePath);
std::cout << "deleting cover art" << std::endl;
const auto coverArtPath = result.second;
} else {
std::cout << "song contains the stock cover art, will not delete" << std::endl;
return;
DirectoryManager::deleteDirectories(song, result.second);
}
manager::DirectoryManager::deleteDirectories(song, result.second);
}
void CoverArtManager::updateCover(const model::Song& updatedSong,
const model::Song& currSong) {
database::CoverArtRepository covRepo(m_bConf);
model::Cover cover(updatedSong.coverArtId);
cover = covRepo.retrieveRecord(cover, type::CoverFilter::id);
void manager::CoverArtManager::updateCover(const model::Song& updatedSong,
const model::Song& currSong)
{
database::CoverArtRepository covRepo(m_bConf);
model::Cover cover(updatedSong.coverArtId);
cover = covRepo.retrieveRecord(cover, type::CoverFilter::id);
auto result = defaultCover(cover);
auto result = defaultCover(cover);
if (result.first) {
return;
}
if (result.first) {
return;
auto imagePath = createImagePath(updatedSong);
fs::copy(cover.imagePath, imagePath);
fs::remove(cover.imagePath);
DirectoryManager::deleteDirectories(currSong, result.second);
}
auto imagePath = createImagePath(updatedSong);
void CoverArtManager::updateCoverRecord(const model::Song& updatedSong) {
model::Cover updatedCover(updatedSong);
auto updatedImagePath = createImagePath(updatedSong);
fs::copy(cover.imagePath, imagePath);
fs::remove(cover.imagePath);
manager::DirectoryManager::deleteDirectories(currSong, result.second);
}
void manager::CoverArtManager::updateCoverRecord(const model::Song& updatedSong)
{
model::Cover updatedCover(updatedSong);
auto updatedImagePath = createImagePath(updatedSong);
database::CoverArtRepository covRepo(m_bConf);
covRepo.updateRecord(updatedCover);
}
std::string manager::CoverArtManager::createImagePath(const model::Song& song)
{
auto imagePath = manager::DirectoryManager::createDirectoryProcess(
song, m_bConf, type::PathType::coverArt);
if (song.track != 0) {
imagePath.append("track");
auto trackNum = (song.track > 9) ?
std::to_string(song.track) : "0" + std::to_string(song.track);
imagePath.append(trackNum);
} else {
imagePath.append(song.title);
database::CoverArtRepository covRepo(m_bConf);
covRepo.updateRecord(updatedCover);
}
imagePath.append(".png");
return imagePath;
std::string CoverArtManager::createImagePath(const model::Song& song) {
auto imagePath = DirectoryManager::createDirectoryProcess(
song, m_bConf, type::PathType::coverArt);
if (song.track != 0) {
imagePath.append("track");
auto trackNum = (song.track > 9) ?
std::to_string(song.track) : "0" + std::to_string(song.track);
imagePath.append(trackNum);
} else {
imagePath.append(song.title);
}
imagePath.append(".png");
return imagePath;
}
}
+202 -152
View File
@@ -7,186 +7,236 @@
namespace fs = std::filesystem;
namespace manager {
std::string DirectoryManager::createDirectoryProcess(const model::Song& song,
const std::string& rootPath) {
auto currPath = fs::path(rootPath);
std::string manager::DirectoryManager::createDirectoryProcess(model::Song song, const std::string& rootPath)
{
auto currPath = fs::path(rootPath);
if (fs::exists(currPath)) {
std::cout << "path exists\n";
} else {
std::cout << "creating path\n";
fs::create_directory(currPath);
}
if (fs::exists(currPath)) {
std::cout << "path exists" << std::endl;
} else {
std::cout << "creating path" << std::endl;
fs::create_directory(currPath);
auto artPath = fs::path(currPath.string() + song.artist);
if (fs::exists(artPath)) {
std::cout << "artist path exists\n";
} else {
std::cout << "creating artist path\n";
fs::create_directory(artPath);
}
auto albPath = fs::path(artPath.string() + "/" + song.albumArtist);
if (fs::exists(albPath)) {
std::cout << "album path exists\n";
} else {
std::cout << "creating album path\n";
fs::create_directory(albPath);
}
auto discPath = DirectoryManager().relativeDiscSongPathFilesystem(albPath, song);
if (fs::exists(discPath)) {
std::cout << "disc path exists\n";
} else {
std::cout << "creating disc path\n";
fs::create_directory(discPath);
}
return discPath.string() + "/";
}
auto artPath = fs::path(currPath.string() + song.artist);
if (fs::exists(artPath)) {
std::cout << "artist path exists" << std::endl;
} else {
std::cout << "creating artist path" << std::endl;
fs::create_directory(artPath);
std::string DirectoryManager::createDirectoryProcess(const model::Song& song,
const model::BinaryPath& bConf, type::PathType pType) {
auto path = pathConfigContent(bConf)[retrievePathType(pType)];
auto rootPath = path.get<std::string>();
auto currPath = fs::path(rootPath);
if (fs::exists(currPath)) {
std::cout << "path exists\n";
} else {
std::cout << "creating root music path\n";
fs::create_directory(currPath);
}
auto artPath = fs::path(currPath.string() + song.albumArtist);
if (fs::exists(artPath)) {
std::cout << "artist path exists\n";
} else {
std::cout << "creating artist path\n";
fs::create_directory(artPath);
}
auto albPath = fs::path(artPath.string() + "/" + song.album);
if (fs::exists(albPath)) {
std::cout << "album path exists\n";
} else {
std::cout << "creating album path\n";
fs::create_directory(albPath);
}
auto discPath = DirectoryManager().relativeDiscSongPathFilesystem(albPath, song);
if (fs::exists(discPath)) {
std::cout << "disc path exists\n";
} else {
std::cout << "creating disc path\n";
fs::create_directory(discPath);
}
return discPath.string() + "/";
}
auto albPath = fs::path(artPath.string() + "/" + song.album);
if (fs::exists(albPath)) {
std::cout << "album path exists" << std::endl;
} else {
std::cout << "creating album path" << std::endl;
fs::create_directory(albPath);
std::string DirectoryManager::configPath(std::string_view path) {
return fs::canonical(path).parent_path().string();
}
return albPath.string() + "/";
}
std::string manager::DirectoryManager::createDirectoryProcess(const model::Song& song,
const model::BinaryPath& bConf, type::PathType pType)
{
auto path = pathConfigContent(bConf)[retrievePathType(pType)];
auto rootPath = path.get<std::string>();
auto currPath = fs::path(rootPath);
if (fs::exists(currPath)) {
std::cout << "path exists" << std::endl;
} else {
std::cout << "creating root music path" << std::endl;
fs::create_directory(currPath);
std::string DirectoryManager::configPath(const model::BinaryPath& bConf) {
return fs::canonical(bConf.path).parent_path().string();
}
auto artPath = fs::path(currPath.string() + song.artist);
if (fs::exists(artPath)) {
std::cout << "artist path exists" << std::endl;
} else {
std::cout << "creating artist path" << std::endl;
fs::create_directory(artPath);
std::string DirectoryManager::contentOfPath(const std::string& path) {
std::fstream a(path, std::ios::in);
std::stringstream s;
s << a.rdbuf();
a.close();
return s.str();
}
auto albPath = fs::path(artPath.string() + "/" + song.album);
if (fs::exists(albPath)) {
std::cout << "album path exists" << std::endl;
} else {
std::cout << "creating album path" << std::endl;
fs::create_directory(albPath);
std::string DirectoryManager::retrievePathType(type::PathType pType) {
std::string path;
switch (pType) {
case type::PathType::music:
path = "root_music_path";
break;
case type::PathType::archive:
path = "archive_root_path";
break;
case type::PathType::temp:
path = "temp_root_path";
break;
case type::PathType::coverArt:
path = "cover_root_path";
break;
default:
break;
}
return path;
}
return albPath.string() + "/";
}
std::string manager::DirectoryManager::configPath(std::string_view path)
{
return fs::canonical(path).parent_path().string();
}
nlohmann::json DirectoryManager::credentialConfigContent(const model::BinaryPath& bConf) {
auto path = configPath(bConf);
path.append("/authcredentials.json");
std::string manager::DirectoryManager::configPath(const model::BinaryPath& bConf)
{
return fs::canonical(bConf.path).parent_path().string();
}
std::string manager::DirectoryManager::contentOfPath(const std::string& path)
{
std::fstream a(path, std::ios::in);
std::stringstream s;
s << a.rdbuf();
a.close();
return s.str();
}
std::string manager::DirectoryManager::retrievePathType(type::PathType pType)
{
std::string path;
switch (pType) {
case type::PathType::music:
path = "root_music_path";
break;
case type::PathType::archive:
path = "archive_root_path";
break;
case type::PathType::temp:
path = "temp_root_path";
break;
case type::PathType::coverArt:
path = "cover_root_path";
break;
default:
break;
return nlohmann::json::parse(contentOfPath(path));
}
return path;
}
nlohmann::json DirectoryManager::databaseConfigContent(const model::BinaryPath& bConf) {
auto path = configPath(bConf);
path.append("/database.json");
return nlohmann::json::parse(contentOfPath(path));
}
nlohmann::json DirectoryManager::pathConfigContent(const model::BinaryPath& bConf) {
auto path = configPath(bConf);
path.append("/paths.json");
return nlohmann::json::parse(contentOfPath(path));
}
nlohmann::json manager::DirectoryManager::credentialConfigContent(const model::BinaryPath& bConf)
{
auto path = configPath(bConf);
path.append("/authcredentials.json");
void DirectoryManager::deleteDirectories(model::Song song, const std::string& rootPath) {
std::cout << "checking for empty directories to delete\n";
const std::string art(rootPath + std::string("/") + song.albumArtist);
const std::string alb(art + "/" + song.album);
const std::string disc(alb + "/" + std::to_string(song.disc) + "/");
return nlohmann::json::parse(contentOfPath(path));
}
auto discPath = fs::path(disc);
nlohmann::json manager::DirectoryManager::databaseConfigContent(const model::BinaryPath& bConf)
{
auto path = configPath(bConf);
path.append("/database.json");
if (fs::exists(discPath)) {
std::cout << "disc directory does not exist\n";
} else if (fs::is_empty(discPath)) {
fs::remove(discPath);
}
return nlohmann::json::parse(contentOfPath(path));
}
nlohmann::json manager::DirectoryManager::pathConfigContent(const model::BinaryPath& bConf)
{
auto path = configPath(bConf);
path.append("/paths.json");
return nlohmann::json::parse(contentOfPath(path));
}
void manager::DirectoryManager::deleteDirectories(model::Song song, const std::string& rootPath)
{
std::cout << "checking for empty directories to delete" << std::endl;
const std::string art(rootPath + std::string("/") + song.artist);
const std::string alb(art + "/" + song.album);
auto albPath = fs::path(alb);
auto albPath = fs::path(alb);
if (!fs::exists(albPath)) {
std::cout << "directory does not exists" << std::endl;
} else if (fs::is_empty(albPath)) {
fs::remove(albPath);
}
if (!fs::exists(albPath)) {
std::cout << "directory does not exists\n";
} else if (fs::is_empty(albPath)) {
fs::remove(albPath);
}
auto artPath = fs::path(art);
auto artPath = fs::path(art);
if (!fs::exists(artPath)) {
std::cout << "directory does not exists" << std::endl;
return;
} else if (fs::is_empty(artPath)) {
fs::remove(artPath);
if (!fs::exists(artPath)) {
std::cout << "directory does not exists\n";
return;
} else if (fs::is_empty(artPath)) {
fs::remove(artPath);
}
std::cout << "deleted empty directory or directories\n";
}
std::cout << "deleted empty directory or directories" << std::endl;
}
void manager::DirectoryManager::deleteCoverArtFile(const std::string& covPath, const std::string& stockCoverPath)
{
if (covPath.compare(stockCoverPath) == 0) {
std::cout << "cover has stock cover art, will not deleted" << std::endl;
} else {
std::cout << "deleting song path" << std::endl;
auto cov = fs::path(covPath);
fs::remove(cov);
}
}
void manager::DirectoryManager::deleteSong(const model::Song song)
{
std::cout << "deleting song" << std::endl;
auto songPath = fs::path(song.songPath);
if (!fs::exists(songPath)) {
std::cout << "song does not exists" << std::endl;
return;
void DirectoryManager::deleteCoverArtFile(const std::string& covPath,
const std::string& stockCoverPath) {
if (covPath.compare(stockCoverPath) == 0) {
std::cout << "cover has stock cover art, will not deleted\n";
} else {
std::cout << "deleting song path\n";
auto cov = fs::path(covPath);
fs::remove(cov);
}
}
fs::remove(songPath);
std::cout << "deleted song" << std::endl;
}
fs::path DirectoryManager::relativeDiscSongPathFilesystem(const fs::path& albPath,
const model::Song& song) {
std::string albPathStr(albPath.string() + "/disc");
if (song.disc >= 10) {
albPathStr.append(std::to_string(song.disc));
} else {
albPathStr.append("0");
albPathStr.append(std::to_string(song.disc));
}
albPathStr.append("/");
auto relPath = fs::path(albPathStr.c_str());
return relPath;
}
std::string DirectoryManager::relativeDiscSongPath(const fs::path& albPath,
const model::Song& song) {
std::string albPathStr(albPath.string() + "/disc");
if (song.disc >= 10) {
albPathStr.append(std::to_string(song.disc));
} else {
albPathStr.append("0");
albPathStr.append(std::to_string(song.disc));
}
albPathStr.append("/");
return albPathStr;
}
void DirectoryManager::deleteSong(const model::Song song) {
std::cout << "deleting song\n";
auto songPath = fs::path(song.songPath);
if (!fs::exists(songPath)) {
std::cout << "song does not exists\n";
return;
}
fs::remove(songPath);
std::cout << "deleted song" << "\n";
}
}
+51 -56
View File
@@ -5,73 +5,68 @@
#include "database/GenreRepository.h"
#include "type/GenreFilter.h"
manager::GenreManager::GenreManager(const model::BinaryPath& bConf)
: m_bConf(bConf)
{ }
namespace manager {
GenreManager::GenreManager(const model::BinaryPath& bConf) : m_bConf(bConf) { }
model::Genre manager::GenreManager::retrieveGenre(model::Genre& genre)
{
database::GenreRepository gnrRepo(m_bConf);
genre = gnrRepo.retrieveRecord(genre, type::GenreFilter::category);
model::Genre GenreManager::retrieveGenre(model::Genre& genre) {
database::GenreRepository gnrRepo(m_bConf);
genre = gnrRepo.retrieveRecord(genre, type::GenreFilter::category);
return genre;
}
model::Genre manager::GenreManager::saveGenre(const model::Song& song)
{
model::Genre genre;
genre.category = song.genre;
database::GenreRepository gnrRepo(m_bConf);
if (!gnrRepo.doesGenreExist(genre, type::GenreFilter::category)) {
gnrRepo.saveRecord(genre);
} else {
std::cout << "genre record already exists" << std::endl;
return genre;
}
return genre;
}
model::Genre GenreManager::saveGenre(const model::Song& song) {
model::Genre genre;
genre.category = song.genre;
database::GenreRepository gnrRepo(m_bConf);
if (!gnrRepo.doesGenreExist(genre, type::GenreFilter::category)) {
gnrRepo.saveRecord(genre);
} else {
std::cout << "genre record already exists\n";
}
void manager::GenreManager::deleteGenre(const model::Song& song)
{
model::Genre genre(song);
database::GenreRepository gnrRepo(m_bConf);
auto gnrWSC = gnrRepo.retrieveRecordWithSongCount(genre, type::GenreFilter::id);
if (gnrWSC.second > 1) {
std::cout << "genre still contain songs related to it";
std::cout << ", will not delete" << std::endl;
return;
return genre;
}
std::cout << "safe to delete the genre record" << std::endl;
gnrRepo.deleteRecord(genre, type::GenreFilter::id);
}
void manager::GenreManager::updateGenre(model::Song& updatedSong,
const model::Song& currSong)
{
model::Genre genre;
genre.category = updatedSong.genre;
void GenreManager::deleteGenre(const model::Song& song) {
model::Genre genre(song);
database::GenreRepository gnrRepo(m_bConf);
if (!gnrRepo.doesGenreExist(genre, type::GenreFilter::category)) {
std::cout << "genre record does not exist" << std::endl;
gnrRepo.saveRecord(genre);
} else {
std::cout << "genre record already exists" << std::endl;
database::GenreRepository gnrRepo(m_bConf);
auto gnrWSC = gnrRepo.retrieveRecordWithSongCount(genre, type::GenreFilter::id);
if (gnrWSC.second > 1) {
std::cout << "genre still contain songs related to it";
std::cout << ", will not delete\n";
return;
}
std::cout << "safe to delete the genre record\n";
gnrRepo.deleteRecord(genre, type::GenreFilter::id);
}
genre = gnrRepo.retrieveRecord(genre, type::GenreFilter::category);
updatedSong.genreId = genre.id;
}
void GenreManager::updateGenre(model::Song& updatedSong,
const model::Song& currSong) {
model::Genre genre;
genre.category = updatedSong.genre;
void manager::GenreManager::printGenre(const model::Genre& genre)
{
std::cout << "genre record" << std::endl;
std::cout << "id: " << genre.id << std::endl;
std::cout << "category: " << genre.category << std::endl;
database::GenreRepository gnrRepo(m_bConf);
if (!gnrRepo.doesGenreExist(genre, type::GenreFilter::category)) {
std::cout << "genre record does not exist\n";
gnrRepo.saveRecord(genre);
} else {
std::cout << "genre record already exists\n";
}
genre = gnrRepo.retrieveRecord(genre, type::GenreFilter::category);
updatedSong.genreId = genre.id;
}
void GenreManager::printGenre(const model::Genre& genre) {
std::cout << "genre record\n";
std::cout << "id: " << genre.id << "\n";
std::cout << "category: " << genre.category << "\n";
}
}
+350 -361
View File
@@ -5,7 +5,7 @@
#include <random>
#include <nlohmann/json.hpp>
#include "oatpp/web/protocol/http/outgoing/ChunkedBody.hpp"
//#include "oatpp/web/protocol/http/outgoing/ChunkedBody.hpp"
#include "oatpp/web/server/api/ApiController.hpp"
#include "database/CoverArtRepository.h"
@@ -21,413 +21,402 @@
namespace fs = std::filesystem;
manager::SongManager::SongManager(std::string& x_path)
: exe_path(x_path)
{ }
manager::SongManager::SongManager(const model::BinaryPath& bConf)
: m_bConf(bConf)
{ }
namespace manager {
SongManager::SongManager(const model::BinaryPath& bConf) : m_bConf(bConf) { }
bool manager::SongManager::didSongChange(const model::Song& updatedSong,
const model::Song& currSong)
{
if (!updatedSong.title.empty()) {
return true;
}
if (!updatedSong.artist.empty()) {
return true;
}
if (!updatedSong.album.empty()) {
return true;
}
if (updatedSong.genre.empty()) {
return true;
}
if (updatedSong.year != 0) {
return true;
std::pair<bool, type::SongUpload> SongManager::saveSong(model::Song& song) {
saveSongTemp(song);
utility::MetadataRetriever meta;
auto data = std::move(song.data);
song = meta.retrieveMetadata(song);
song.data = std::move(data);
database::SongRepository songRepo(m_bConf);
if (songRepo.doesSongExist(song, type::SongFilter::titleAlbArtistAlbum)) {
std::cout << "\ntitle: " << song.title << "\nartist: " << song.artist << "\n";
std::cout << "does not exist\n";
return std::make_pair(false, type::SongUpload::AlreadyExist);
}
saveMisc(song);
printSong(song);
songRepo.saveRecord(song);
song = songRepo.retrieveRecord(song, type::SongFilter::titleAlbArtistAlbum);
return std::make_pair(true, type::SongUpload::Successful);
}
return false;
}
bool manager::SongManager::requiresFilesystemChange(const model::Song& updatedSong,
const model::Song& currSong)
{
if (updatedSong.title.compare(currSong.title) != 0) {
return true;
}
if (updatedSong.artist.compare(currSong.album) != 0) {
return true;
}
if (updatedSong.album.compare(currSong.genre) != 0) {
return true;
bool SongManager::didSongChange(const model::Song& updatedSong,
const model::Song& currSong) {
if (!updatedSong.title.empty()) {
return true;
}
if (!updatedSong.artist.empty()) {
return true;
}
if (!updatedSong.album.empty()) {
return true;
}
if (updatedSong.genre.empty()) {
return true;
}
if (updatedSong.year != 0) {
return true;
}
return false;
}
return false;
}
bool SongManager::requiresFilesystemChange(const model::Song& updatedSong,
const model::Song& currSong) {
if (updatedSong.title.compare(currSong.title) != 0) {
return true;
}
if (updatedSong.artist.compare(currSong.album) != 0) {
return true;
}
if (updatedSong.album.compare(currSong.genre) != 0) {
return true;
}
bool manager::SongManager::deleteSong(model::Song& song)
{
database::SongRepository songRepo(m_bConf);
if (!songRepo.doesSongExist(song, type::SongFilter::id)) {
std::cout << "song does not exist" << std::endl;
return false;
return false;
}
song = songRepo.retrieveRecord(song, type::SongFilter::id);
bool SongManager::deleteSong(model::Song& song) {
database::SongRepository songRepo(m_bConf);
auto paths = manager::DirectoryManager::pathConfigContent(m_bConf);
if (!songRepo.doesSongExist(song, type::SongFilter::id)) {
std::cout << "song does not exist\n";
return false;
}
auto deleted = songRepo.deleteRecord(song);
song = songRepo.retrieveRecord(song, type::SongFilter::id);
if (!deleted) {
std::cout << "song not deleted from databases" << std::endl;
return deleted;
}
deleteMisc(song);
auto paths = DirectoryManager::pathConfigContent(m_bConf);
fs::remove(song.songPath);
manager::DirectoryManager::deleteDirectories(song, paths["root_music_path"].get<std::string>());
return deleted;
}
auto deleted = songRepo.deleteRecord(song);
bool manager::SongManager::updateSong(model::Song& updatedSong)
{
database::SongRepository songRepo(m_bConf);
model::Song currSong(updatedSong.id);
if (!deleted) {
std::cout << "song not deleted from databases\n";
return deleted;
}
deleteMisc(song);
currSong = songRepo.retrieveRecord(currSong, type::SongFilter::id);
if (!didSongChange(updatedSong, currSong)) {
std::cout << "no change to the song" << std::endl;
return false;
fs::remove(song.songPath);
DirectoryManager::deleteDirectories(song, paths["root_music_path"].get<std::string>());
return deleted;
}
assignMiscId(updatedSong, currSong);
bool SongManager::updateSong(model::Song& updatedSong) {
database::SongRepository songRepo(m_bConf);
model::Song currSong(updatedSong.id);
auto changes = changesInSong(updatedSong, currSong);
currSong = songRepo.retrieveRecord(currSong, type::SongFilter::id);
if (!didSongChange(updatedSong, currSong)) {
std::cout << "no change to the song\n";
return false;
}
utility::MetadataRetriever meta;
meta.updateMetadata(updatedSong, currSong);
assignMiscFields(changes, updatedSong, currSong);
assignMiscId(updatedSong, currSong);
if (requiresFilesystemChange(updatedSong, currSong)) {
modifySongOnFilesystem(updatedSong, currSong);
auto changes = changesInSong(updatedSong, currSong);
utility::MetadataRetriever meta;
meta.updateMetadata(updatedSong, currSong);
assignMiscFields(changes, updatedSong, currSong);
if (requiresFilesystemChange(updatedSong, currSong)) {
modifySongOnFilesystem(updatedSong, currSong);
}
printSong(updatedSong);
printSong(currSong);
updateMisc(changes, updatedSong, currSong);
return true;
}
printSong(updatedSong);
printSong(currSong);
updateMisc(changes, updatedSong, currSong);
void SongManager::printSong(const model::Song& song) {
std::cout << "\nsong" << "\n";
std::cout << "title: " << song.title << "\n";
std::cout << "artist: " << song.artist << "\n";
std::cout << "album artist: " << song.albumArtist << "\n";
std::cout << "album: " << song.album << "\n";
std::cout << "genre: " << song.genre << "\n";
std::cout << "duration: " << song.duration << "\n";
std::cout << "year: " << song.year << "\n";
std::cout << "track: " << song.track << "\n";
std::cout << "disc: " << song.disc << "\n";
std::cout << "song path: " << song.songPath << "\n";
std::cout << "cover art id: " << song.coverArtId << "\n";
std::cout << "album id: " << song.albumId << "\n";
std::cout << "artist id: " << song.artistId << "\n";
std::cout << "genre id: " << song.genreId << "\n";
std::cout << "year id: " << song.yearId << "\n";
}
return true;
std::map<type::SongChanged, bool> SongManager::changesInSong(
const model::Song& updatedSong, const model::Song& currSong) {
std::map<type::SongChanged, bool> songChanges;
std::string_view updatedTitle = updatedSong.title;
std::string_view updatedArtist = updatedSong.artist;
std::string_view updatedAlbum = updatedSong.album;
std::string_view updatedGenre = updatedSong.genre;
songChanges[type::SongChanged::title] =
(currSong.title.compare(updatedTitle) != 0 &&
updatedTitle.size() > 0) ? true : false;
songChanges[type::SongChanged::artist] =
(currSong.artist.compare(updatedArtist) != 0 &&
updatedArtist.size() > 0) ? true : false;
songChanges[type::SongChanged::album] =
(currSong.album.compare(updatedAlbum) != 0 &&
updatedAlbum.size() > 0) ? true : false;
songChanges[type::SongChanged::genre] =
(currSong.genre.compare(updatedGenre) != 0 &&
updatedGenre.size() > 0) ? true : false;
songChanges[type::SongChanged::year] =
(updatedSong.year != 0) ? true : false;
return songChanges;
}
void manager::SongManager::saveSong(model::Song& song)
{
saveSongTemp(song);
utility::MetadataRetriever meta;
auto data = std::move(song.data);
song = meta.retrieveMetadata(song.songPath);
song.data = std::move(data);
std::string SongManager::createSongPath(const model::Song& song) {
auto songPath = DirectoryManager::createDirectoryProcess(
song, m_bConf, type::PathType::music);
saveMisc(song);
if (song.track != 0) {
songPath.append("track");
auto trackNum = (song.track > 9) ?
std::to_string(song.track) : "0" + std::to_string(song.track);
songPath.append(trackNum);
} else {
songPath.append(song.title);
}
songPath.append(".mp3");
printSong(song);
database::SongRepository songRepo(m_bConf);
songRepo.saveRecord(song);
song = songRepo.retrieveRecord(song, type::SongFilter::title);
}
void manager::SongManager::printSong(const model::Song& song)
{
std::cout << "\nsong" << std::endl;
std::cout << "title: " << song.title << std::endl;
std::cout << "artist: " << song.artist << std::endl;
std::cout << "album: " << song.album << std::endl;
std::cout << "genre: " << song.genre << std::endl;
std::cout << "duration: " << song.duration << std::endl;
std::cout << "year: " << song.year << std::endl;
std::cout << "track: " << song.track << std::endl;
std::cout << "disc: " << song.disc << std::endl;
std::cout << "song path: " << song.songPath << std::endl;
std::cout << "cover art id: " << song.coverArtId << std::endl;
std::cout << "album id: " << song.albumId << std::endl;
std::cout << "artist id: " << song.artistId << std::endl;
std::cout << "genre id: " << song.genreId << std::endl;
std::cout << "year id: " << song.yearId << std::endl;
}
std::map<type::SongChanged, bool> manager::SongManager::changesInSong(
const model::Song& updatedSong, const model::Song& currSong)
{
std::map<type::SongChanged, bool> songChanges;
std::string_view updatedTitle = updatedSong.title;
std::string_view updatedArtist = updatedSong.artist;
std::string_view updatedAlbum = updatedSong.album;
std::string_view updatedGenre = updatedSong.genre;
songChanges[type::SongChanged::title] =
(currSong.title.compare(updatedTitle) != 0 &&
updatedTitle.size() > 0) ? true : false;
songChanges[type::SongChanged::artist] =
(currSong.artist.compare(updatedArtist) != 0 &&
updatedArtist.size() > 0) ? true : false;
songChanges[type::SongChanged::album] =
(currSong.album.compare(updatedAlbum) != 0 &&
updatedAlbum.size() > 0) ? true : false;
songChanges[type::SongChanged::genre] =
(currSong.genre.compare(updatedGenre) != 0 &&
updatedGenre.size() > 0) ? true : false;
songChanges[type::SongChanged::year] =
(updatedSong.year != 0) ? true : false;
return songChanges;
}
std::string manager::SongManager::createSongPath(const model::Song& song)
{
auto songPath = manager::DirectoryManager::createDirectoryProcess(
song, m_bConf, type::PathType::music);
if (song.track != 0) {
songPath.append("track");
auto trackNum = (song.track > 9) ?
std::to_string(song.track) : "0" + std::to_string(song.track);
songPath.append(trackNum);
} else {
songPath.append(song.title);
return songPath;
}
songPath.append(".mp3");
return songPath;
}
// used to prevent empty values to appear in the updated song
void manager::SongManager::assignMiscFields(
std::map<type::SongChanged, bool>& songChanges, model::Song& updatedSong,
const model::Song& currSong)
{
std::cout << "assigning miscellanes fields to updated song" << std::endl;
updatedSong.track = currSong.track;
for (auto scIter = songChanges.begin(); scIter != songChanges.end(); ++scIter) {
type::SongChanged key = scIter->first;
bool changed = songChanges.at(key);
// used to prevent empty values to appear in the updated song
void SongManager::assignMiscFields(
std::map<type::SongChanged, bool>& songChanges, model::Song& updatedSong,
const model::Song& currSong) {
std::cout << "assigning miscellanes fields to updated song\n";
updatedSong.track = currSong.track;
for (auto scIter = songChanges.begin(); scIter != songChanges.end(); ++scIter) {
type::SongChanged key = scIter->first;
bool changed = songChanges.at(key);
if (!changed) {
switch (key) {
case type::SongChanged::title:
updatedSong.title = currSong.title;
std::cout << "title has not been changed" << std::endl;
break;
case type::SongChanged::artist:
updatedSong.artist = currSong.artist;
std::cout << "artist has not been changed" << std::endl;
break;
case type::SongChanged::album:
updatedSong.album = currSong.album;
std::cout << "album has not been changed" << std::endl;
break;
case type::SongChanged::genre:
updatedSong.genre = currSong.genre;
std::cout << "genre has not been changed" << std::endl;
break;
case::type::SongChanged::year:
updatedSong.year = currSong.year;
std::cout << "year has not been changed" << std::endl;
default:
break;
if (!changed) {
switch (key) {
case type::SongChanged::title:
updatedSong.title = currSong.title;
std::cout << "title has not been changed\n";
break;
case type::SongChanged::artist:
updatedSong.artist = currSong.artist;
std::cout << "artist has not been changed\n";
break;
case type::SongChanged::album:
updatedSong.album = currSong.album;
std::cout << "album has not been changed\n";
break;
case type::SongChanged::genre:
updatedSong.genre = currSong.genre;
std::cout << "genre has not been changed\n";
break;
case::type::SongChanged::year:
updatedSong.year = currSong.year;
std::cout << "year has not been changed\n";
default:
break;
}
}
}
}
}
// used to dump miscellaneous id to the updated song
void manager::SongManager::assignMiscId(model::Song& updatedSong,
const model::Song& currSong)
{
std::cout << "assigning miscellaneous Id's to updated song" << std::endl;
updatedSong.artistId = currSong.artistId;
updatedSong.albumId = currSong.albumId;
updatedSong.genreId = currSong.genreId;
updatedSong.yearId = currSong.yearId;
updatedSong.coverArtId = currSong.coverArtId;
}
// saves song to a temporary path
void manager::SongManager::saveSongTemp(model::Song& song)
{
auto config = manager::DirectoryManager::pathConfigContent(m_bConf);
auto tmpSongPath = config["temp_root_path"].get<std::string>();
std::random_device dev;
std::mt19937 rng(dev());
std::uniform_int_distribution<std::mt19937::result_type> dist(1,1000);
tmpSongPath.append(std::to_string(dist(rng)));
tmpSongPath.append(".mp3");
std::fstream s(tmpSongPath, std::fstream::binary | std::fstream::out);
s.write((char*)&song.data[0], song.data.size());
s.close();
song.songPath = tmpSongPath;
}
void manager::SongManager::saveMisc(model::Song& song)
{
CoverArtManager covMgr(m_bConf);
auto pathConfigContent = manager::DirectoryManager::pathConfigContent(m_bConf);
auto musicRootPath = pathConfigContent["root_music_path"].get<std::string>();
auto cov = covMgr.saveCover(song);
const auto songPath = createSongPath(song);
if (fs::exists(songPath)) {
std::cout << "deleting old song with the same metadata" << std::endl;
fs::remove(songPath);
}
std::cout << "copying song to the appropriate directory" << std::endl;
std::cout << song.songPath << std::endl;
std::cout << songPath << std::endl;
fs::copy(song.songPath, songPath);
fs::remove(song.songPath);
song.songPath = std::move(songPath);
std::cout << "copied song to the appropriate directory" << std::endl;
AlbumManager albMgr(m_bConf);
auto album = albMgr.saveAlbum(song);
album = albMgr.retrieveAlbum(album);
manager::AlbumManager::printAlbum(album);
ArtistManager artMgr(m_bConf);
auto artist = artMgr.saveArtist(song);
artist = artMgr.retrieveArtist(artist);
manager::ArtistManager::printArtist(artist);
GenreManager gnrMgr(m_bConf);
auto genre = gnrMgr.saveGenre(song);
genre = gnrMgr.retrieveGenre(genre);
manager::GenreManager::printGenre(genre);
YearManager yrMgr(m_bConf);
auto year = yrMgr.saveYear(song);
year = yrMgr.retrieveYear(year);
manager::YearManager::printYear(year);
song.coverArtId = cov.id;
song.albumId = album.id;
song.artistId = artist.id;
song.genreId = genre.id;
song.yearId = year.id;
std::cout << "done with miscellaneous database records" << std::endl;
}
void manager::SongManager::deleteMisc(const model::Song& song)
{
manager::CoverArtManager covMgr(m_bConf);
covMgr.deleteCover(song);
manager::AlbumManager albMgr(m_bConf);
albMgr.deleteAlbum(song);
manager::ArtistManager artMgr(m_bConf);
artMgr.deleteArtist(song);
manager::GenreManager gnrMgr(m_bConf);
gnrMgr.deleteGenre(song);
manager::YearManager yrMgr(m_bConf);
yrMgr.deleteYear(song);
}
// deletes miscellanes records
void manager::SongManager::deleteMiscExceptCoverArt(const model::Song& song)
{
manager::AlbumManager albMgr(m_bConf);
albMgr.deleteAlbum(song);
manager::ArtistManager artMgr(m_bConf);
artMgr.deleteArtist(song);
manager::GenreManager gnrMgr(m_bConf);
gnrMgr.deleteGenre(song);
manager::YearManager yrMgr(m_bConf);
yrMgr.deleteYear(song);
}
void manager::SongManager::updateMisc(
const std::map<type::SongChanged, bool>& songChanges,
model::Song& updatedSong, const model::Song& currSong)
{
auto titleChange = songChanges.at(type::SongChanged::title);
auto artistChange = songChanges.at(type::SongChanged::artist);
auto albumChange = songChanges.at(type::SongChanged::album);
auto genreChange = songChanges.at(type::SongChanged::genre);
auto yearChange = songChanges.at(type::SongChanged::year);
if (artistChange) {
manager::ArtistManager artMgr(m_bConf);
artMgr.updateArtist(updatedSong, currSong);
}
if (albumChange) {
manager::AlbumManager albMgr(m_bConf);
albMgr.updateAlbum(updatedSong, currSong);
}
if (genreChange) {
manager::GenreManager gnrMgr(m_bConf);
gnrMgr.updateGenre(updatedSong, currSong);
}
if (yearChange) {
manager::YearManager yrMgr(m_bConf);
yrMgr.updateYear(updatedSong, currSong);
// used to dump miscellaneous id to the updated song
void SongManager::assignMiscId(model::Song& updatedSong,
const model::Song& currSong) {
std::cout << "assigning miscellaneous Id's to updated song\n";
updatedSong.artistId = currSong.artistId;
updatedSong.albumId = currSong.albumId;
updatedSong.genreId = currSong.genreId;
updatedSong.yearId = currSong.yearId;
updatedSong.coverArtId = currSong.coverArtId;
}
// determins to update the cover art record
if (titleChange || artistChange || albumChange) {
manager::CoverArtManager covMgr(m_bConf);
covMgr.updateCoverRecord(updatedSong);
// saves song to a temporary path
void SongManager::saveSongTemp(model::Song& song) {
auto config = DirectoryManager::pathConfigContent(m_bConf);
auto tmpSongPath = config["temp_root_path"].get<std::string>();
std::random_device dev;
std::mt19937 rng(dev());
std::uniform_int_distribution<std::mt19937::result_type> dist(1,1000);
tmpSongPath.append(std::to_string(dist(rng)));
tmpSongPath.append(".mp3");
std::fstream s(tmpSongPath, std::fstream::binary | std::fstream::out);
s.write((char*)&song.data[0], song.data.size());
s.close();
song.songPath = tmpSongPath;
}
database::SongRepository songRepo(m_bConf);
songRepo.updateRecord(updatedSong);
void SongManager::saveMisc(model::Song& song) {
CoverArtManager covMgr(m_bConf);
auto pathConfigContent = DirectoryManager::pathConfigContent(m_bConf);
auto musicRootPath = pathConfigContent["root_music_path"].get<std::string>();
deleteMiscExceptCoverArt(currSong);
}
auto cov = covMgr.saveCover(song);
const auto songPath = createSongPath(song);
void manager::SongManager::modifySongOnFilesystem(model::Song& updatedSong,
const model::Song& currSong)
{
std::cout << "preparing to modify song" << std::endl;
auto songPath = createSongPath(updatedSong);
updatedSong.songPath = std::move(songPath);
if (fs::exists(songPath)) {
std::cout << "deleting old song with the same metadata\n";
fs::remove(songPath);
}
std::cout << "copying song to the appropriate directory\n";
std::cout << song.songPath << "\n";
std::cout << songPath << "\n";
fs::copy(song.songPath, songPath);
fs::remove(song.songPath);
song.songPath = std::move(songPath);
std::cout << "copied song to the appropriate directory\n";
std::cout << "new path " << updatedSong.songPath << std::endl;
AlbumManager albMgr(m_bConf);
auto album = albMgr.saveAlbum(song);
album = albMgr.retrieveAlbum(album);
AlbumManager::printAlbum(album);
fs::copy(currSong.songPath, updatedSong.songPath);
fs::remove(currSong.songPath);
ArtistManager artMgr(m_bConf);
auto artist = artMgr.saveArtist(song);
artist = artMgr.retrieveArtist(artist);
ArtistManager::printArtist(artist);
auto paths = manager::DirectoryManager::pathConfigContent(m_bConf);
const auto musicRootPath =
paths[manager::DirectoryManager::retrievePathType(
GenreManager gnrMgr(m_bConf);
auto genre = gnrMgr.saveGenre(song);
genre = gnrMgr.retrieveGenre(genre);
GenreManager::printGenre(genre);
YearManager yrMgr(m_bConf);
auto year = yrMgr.saveYear(song);
year = yrMgr.retrieveYear(year);
YearManager::printYear(year);
song.coverArtId = cov.id;
song.albumId = album.id;
song.artistId = artist.id;
song.genreId = genre.id;
song.yearId = year.id;
std::cout << "done with miscellaneous database records\n";
}
void SongManager::deleteMisc(const model::Song& song) {
CoverArtManager covMgr(m_bConf);
covMgr.deleteCover(song);
AlbumManager albMgr(m_bConf);
albMgr.deleteAlbum(song);
ArtistManager artMgr(m_bConf);
artMgr.deleteArtist(song);
GenreManager gnrMgr(m_bConf);
gnrMgr.deleteGenre(song);
YearManager yrMgr(m_bConf);
yrMgr.deleteYear(song);
}
// deletes miscellanes records
void SongManager::deleteMiscExceptCoverArt(const model::Song& song) {
AlbumManager albMgr(m_bConf);
albMgr.deleteAlbum(song);
ArtistManager artMgr(m_bConf);
artMgr.deleteArtist(song);
GenreManager gnrMgr(m_bConf);
gnrMgr.deleteGenre(song);
YearManager yrMgr(m_bConf);
yrMgr.deleteYear(song);
}
void SongManager::updateMisc(
const std::map<type::SongChanged, bool>& songChanges,
model::Song& updatedSong, const model::Song& currSong) {
auto titleChange = songChanges.at(type::SongChanged::title);
auto artistChange = songChanges.at(type::SongChanged::artist);
auto albumChange = songChanges.at(type::SongChanged::album);
auto genreChange = songChanges.at(type::SongChanged::genre);
auto yearChange = songChanges.at(type::SongChanged::year);
if (artistChange) {
ArtistManager artMgr(m_bConf);
artMgr.updateArtist(updatedSong, currSong);
}
if (albumChange) {
AlbumManager albMgr(m_bConf);
albMgr.updateAlbum(updatedSong, currSong);
}
if (genreChange) {
GenreManager gnrMgr(m_bConf);
gnrMgr.updateGenre(updatedSong, currSong);
}
if (yearChange) {
YearManager yrMgr(m_bConf);
yrMgr.updateYear(updatedSong, currSong);
}
// determins to update the cover art record
if (titleChange || artistChange || albumChange) {
CoverArtManager covMgr(m_bConf);
covMgr.updateCoverRecord(updatedSong);
}
database::SongRepository songRepo(m_bConf);
songRepo.updateRecord(updatedSong);
deleteMiscExceptCoverArt(currSong);
}
void SongManager::modifySongOnFilesystem(model::Song& updatedSong,
const model::Song& currSong) {
std::cout << "preparing to modify song\n";
auto songPath = createSongPath(updatedSong);
updatedSong.songPath = std::move(songPath);
std::cout << "new path " << updatedSong.songPath << "\n";
fs::copy(currSong.songPath, updatedSong.songPath);
fs::remove(currSong.songPath);
auto paths = DirectoryManager::pathConfigContent(m_bConf);
const auto musicRootPath =
paths[DirectoryManager::retrievePathType(
type::PathType::music)].get<std::string>();
manager::DirectoryManager::deleteDirectories(currSong, musicRootPath);
DirectoryManager::deleteDirectories(currSong, musicRootPath);
manager::CoverArtManager covMgr(m_bConf);
covMgr.updateCover(updatedSong, currSong);
CoverArtManager covMgr(m_bConf);
covMgr.updateCover(updatedSong, currSong);
}
}
+128 -160
View File
@@ -14,191 +14,159 @@
namespace fs = std::filesystem;
namespace manager {
TokenManager::TokenManager()
{
}
model::Token TokenManager::retrieveToken(const model::BinaryPath& bConf) {
auto cred = parseAuthCredentials(bConf);
auto reqObj = createTokenBody(cred);
std::string uri{cred.uri};
uri.append("/");
uri.append(cred.endpoint);
model::Token TokenManager::retrieveToken(const model::BinaryPath& bConf)
{
auto cred = parseAuthCredentials(bConf);
auto reqObj = createTokenBody(cred);
auto r = sendRequest(uri, reqObj);
auto postRes = nlohmann::json::parse(r.text);
std::string uri{cred.uri};
uri.append("/");
uri.append(cred.endpoint);
model::Token lr(std::move(postRes["access_token"].get<std::string>()),
std::move(postRes["token_type"].get<std::string>()),
postRes["expires_in"].get<int>());
auto r = sendRequest(uri, reqObj);
auto postRes = nlohmann::json::parse(r.text);
model::Token lr(std::move(postRes["access_token"].get<std::string>()),
std::move(postRes["token_type"].get<std::string>()),
postRes["expires_in"].get<int>());
return lr;
}
bool TokenManager::isTokenValid(std::string& auth, type::Scope scope)
{
auto authPair = fetchAuthHeader(auth);
if (!std::get<0>(authPair)) {
std::cout << "no Bearer found" << std::endl;
return std::get<0>(authPair);
return lr;
}
auto authHeader = std::get<1>(authPair);
auto token = authHeader.at(authHeader.size()-1);
bool TokenManager::isTokenValid(std::string& auth, type::Scope scope) {
auto authPair = fetchAuthHeader(auth);
auto scopes = extractScopes(jwt::decode(token));
if (!std::get<0>(authPair)) {
std::cout << "no Bearer found\n";
switch (scope) {
case type::Scope::upload:
return tokenSupportsScope(scopes, "upload:songs");
case type::Scope::download:
return tokenSupportsScope(scopes, "download:songs");
case type::Scope::stream:
return tokenSupportsScope(scopes, "stream:songs");
case type::Scope::deleteSong:
return tokenSupportsScope(scopes, "delete:songs");
case type::Scope::updateSong:
return tokenSupportsScope(scopes, "update:songs");
case type::Scope::retrieveSong:
return tokenSupportsScope(scopes, "read:song_details");
case type::Scope::retrieveAlbum:
return tokenSupportsScope(scopes, "read:albums");
case type::Scope::retrieveArtist:
return tokenSupportsScope(scopes, "read:artists");
case type::Scope::retrieveGenre:
return tokenSupportsScope(scopes, "read:genre");
case type::Scope::retrieveYear:
return tokenSupportsScope(scopes, "read:year");
case type::Scope::downloadCoverArt:
return tokenSupportsScope(scopes, "download:cover_art");
default:
break;
return std::get<0>(authPair);
}
auto authHeader = std::get<1>(authPair);
auto token = authHeader.at(authHeader.size()-1);
auto scopes = extractScopes(jwt::decode(token));
switch (scope) {
case type::Scope::upload:
return tokenSupportsScope(scopes, "upload:songs");
case type::Scope::download:
return tokenSupportsScope(scopes, "download:songs");
case type::Scope::stream:
return tokenSupportsScope(scopes, "stream:songs");
case type::Scope::deleteSong:
return tokenSupportsScope(scopes, "delete:songs");
case type::Scope::updateSong:
return tokenSupportsScope(scopes, "update:songs");
case type::Scope::retrieveSong:
return tokenSupportsScope(scopes, "read:song_details");
case type::Scope::retrieveAlbum:
return tokenSupportsScope(scopes, "read:albums");
case type::Scope::retrieveArtist:
return tokenSupportsScope(scopes, "read:artists");
case type::Scope::retrieveGenre:
return tokenSupportsScope(scopes, "read:genre");
case type::Scope::retrieveYear:
return tokenSupportsScope(scopes, "read:year");
case type::Scope::downloadCoverArt:
return tokenSupportsScope(scopes, "download:cover_art");
default:
break;
}
return false;
}
return false;
}
bool TokenManager::testAuth(const model::BinaryPath& bConf) {
auto cred = parseAuthCredentials(bConf);
auto reqObj = createTokenBody(cred);
bool TokenManager::testAuth(const model::BinaryPath& bConf)
{
auto cred = parseAuthCredentials(bConf);
auto reqObj = createTokenBody(cred);
std::string uri(cred.uri);
uri.append("/");
uri.append(cred.endpoint);
std::string uri(cred.uri);
uri.append("/");
uri.append(cred.endpoint);
auto response = sendRequest(uri, reqObj);
auto response = sendRequest(uri, reqObj);
return (response.status_code == 200) ? true : false;
}
return (response.status_code == 200) ? true : false;
}
cpr::Response TokenManager::sendRequest(std::string_view uri, nlohmann::json& obj)
{
auto resp = cpr::Post(cpr::Url{uri}, cpr::Body{obj.dump()},
cpr::Response TokenManager::sendRequest(std::string_view uri, nlohmann::json& obj) {
auto resp = cpr::Post(cpr::Url{uri}, cpr::Body{obj.dump()},
cpr::Header{{"Content-type", "application/json"},
{"Connection", "keep-alive"}});
return resp;
}
nlohmann::json TokenManager::createTokenBody(const model::AuthCredentials& auth)
{
nlohmann::json obj;
obj["client_id"] = auth.clientId;
obj["client_secret"] = auth.clientSecret;
obj["audience"] = auth.apiIdentifier;
obj["grant_type"] = "client_credentials";
return obj;
}
[[depreacted("use the other function with the same name")]]
model::AuthCredentials TokenManager::parseAuthCredentials(std::string_view path)
{
auto exe_path = DirectoryManager::configPath(path);
exe_path.append("/authcredentials.json");
auto con = DirectoryManager::credentialConfigContent(exe_path);
model::AuthCredentials auth;
auth.uri = "https://";
auth.uri.append(con["domain"]);
auth.apiIdentifier = con["api_identifier"];
auth.clientId = con["client_id"];
auth.clientSecret = con["client_secret"];
auth.endpoint = "oauth/token";
return auth;
}
model::AuthCredentials TokenManager::parseAuthCredentials(const model::BinaryPath& bConf)
{
auto con = DirectoryManager::credentialConfigContent(bConf);
model::AuthCredentials auth;
auth.uri = "https://";
auth.uri.append(con["domain"]);
auth.apiIdentifier = con["api_identifier"];
auth.clientId = con["client_id"];
auth.clientSecret = con["client_secret"];
auth.endpoint = "oauth/token";
return auth;
}
std::vector<std::string> TokenManager::extractScopes(const jwt::decoded_jwt&& decoded)
{
std::vector<std::string> scopes;
for (auto& d : decoded.get_payload_claims()) {
if (d.first.compare("scope") == 0) {
std::cout << "found scope" << std::endl;
std::string allScopes(d.second.to_json().get<std::string>());
std::istringstream iss(allScopes);
scopes.assign(std::istream_iterator<std::string>(iss),
std::istream_iterator<std::string>());
}
return resp;
}
return scopes;
}
std::pair<bool, std::vector<std::string>> TokenManager::fetchAuthHeader(const std::string& auth)
{
std::istringstream iss(auth);
std::vector<std::string> authHeader{std::istream_iterator<std::string>(iss),
std::istream_iterator<std::string>()
};
nlohmann::json TokenManager::createTokenBody(const model::AuthCredentials& auth) {
nlohmann::json obj;
obj["client_id"] = auth.clientId;
obj["client_secret"] = auth.clientSecret;
obj["audience"] = auth.apiIdentifier;
obj["grant_type"] = "client_credentials";
bool foundBearer = false;
if (std::any_of(authHeader.begin(), authHeader.end(),
[&](std::string_view word) {
return (word.compare("Bearer") == 0);
})) {
std::cout << "Bearer found" << std::endl;
foundBearer = true;
return obj;
}
return std::make_pair(foundBearer, authHeader);
}
model::AuthCredentials TokenManager::parseAuthCredentials(const model::BinaryPath& bConf) {
auto con = DirectoryManager::credentialConfigContent(bConf);
model::AuthCredentials auth;
auth.uri = "https://";
auth.uri.append(con["domain"]);
auth.apiIdentifier = con["api_identifier"];
auth.clientId = con["client_id"];
auth.clientSecret = con["client_secret"];
auth.endpoint = "oauth/token";
return auth;
}
bool TokenManager::tokenSupportsScope(const std::vector<std::string>& scopes,
const std::string&& scope)
{
return std::any_of(scopes.begin(), scopes.end(),
[&](std::string_view foundScope) {
return (foundScope.compare(scope) == 0);
});
}
std::vector<std::string> TokenManager::extractScopes(const jwt::decoded_jwt&& decoded) {
std::vector<std::string> scopes;
for (auto& d : decoded.get_payload_claims()) {
if (d.first.compare("scope") == 0) {
std::cout << "found scope\n";
std::string allScopes(d.second.to_json().get<std::string>());
std::istringstream iss(allScopes);
scopes.assign(std::istream_iterator<std::string>(iss),
std::istream_iterator<std::string>());
}
}
return scopes;
}
std::pair<bool, std::vector<std::string>> TokenManager::fetchAuthHeader(const std::string& auth) {
std::istringstream iss(auth);
std::vector<std::string> authHeader{std::istream_iterator<std::string>(iss),
std::istream_iterator<std::string>()
};
bool foundBearer = false;
if (std::any_of(authHeader.begin(), authHeader.end(),
[&](std::string_view word) {
return (word.compare("Bearer") == 0); })) {
std::cout << "Bearer found\n";
foundBearer = true;
}
return std::make_pair(foundBearer, authHeader);
}
bool TokenManager::tokenSupportsScope(const std::vector<std::string>& scopes,
const std::string&& scope) {
return std::any_of(scopes.begin(), scopes.end(),
[&](std::string_view foundScope) {
return (foundScope.compare(scope) == 0);
});
}
}
+48 -48
View File
@@ -7,70 +7,70 @@
#include "utility/PasswordEncryption.h"
namespace manager {
UserManager::UserManager(const model::BinaryPath& bConf) : m_bConf(bConf) { }
UserManager::UserManager(const model::BinaryPath& bConf) : m_bConf(bConf) { }
model::RegisterResult UserManager::registerUser(model::User& user) {
model::RegisterResult result;
result.username = user.username;
printUser(user);
model::RegisterResult UserManager::registerUser(model::User& user) {
model::RegisterResult result;
result.username = user.username;
printUser(user);
utility::PasswordEncryption passEnc;
auto hashed = passEnc.hashPassword(user);
user.password = hashed.hashPassword;
utility::PasswordEncryption passEnc;
auto hashed = passEnc.hashPassword(user);
user.password = hashed.hashPassword;
database::UserRepository usrRepo(m_bConf);
usrRepo.saveUserRecord(user);
database::UserRepository usrRepo(m_bConf);
usrRepo.saveUserRecord(user);
model::User usr;
usr.username = user.username;
model::User usr;
usr.username = user.username;
std::cout << usr.username << std::endl;
usr = usrRepo.retrieveUserRecord(usr, type::UserFilter::username);
hashed.hashPassword = usr.password;
hashed.userId = usr.id;
std::cout << usr.username << "\n";
usr = usrRepo.retrieveUserRecord(usr, type::UserFilter::username);
hashed.hashPassword = usr.password;
hashed.userId = usr.id;
usrRepo.saveUserSalt(hashed);
result.registered = true;
result.message = "successfully registered";
printUser(usr);
usrRepo.saveUserSalt(hashed);
result.registered = true;
result.message = "successfully registered";
printUser(usr);
return result;
}
return result;
}
bool UserManager::doesUserExist(const model::User& user) {
database::UserRepository userRepo(m_bConf);
bool UserManager::doesUserExist(const model::User& user) {
database::UserRepository userRepo(m_bConf);
return userRepo.doesUserRecordExist(user, type::UserFilter::username);
}
return userRepo.doesUserRecordExist(user, type::UserFilter::username);
}
bool UserManager::validatePassword(const model::User& user) {
database::UserRepository userRepo(m_bConf);
model::User usr;
usr.username = user.username;
usr = userRepo.retrieveUserRecord(usr, type::UserFilter::username);
bool UserManager::validatePassword(const model::User& user) {
database::UserRepository userRepo(m_bConf);
model::User usr;
usr.username = user.username;
usr = userRepo.retrieveUserRecord(usr, type::UserFilter::username);
model::PassSec userSec;
userSec.userId = usr.id;
userSec = userRepo.retrieverUserSaltRecord(userSec, type::SaltFilter::userId);
userSec.hashPassword = usr.password;
model::PassSec userSec;
userSec.userId = usr.id;
userSec = userRepo.retrieverUserSaltRecord(userSec, type::SaltFilter::userId);
userSec.hashPassword = usr.password;
utility::PasswordEncryption passEnc;
utility::PasswordEncryption passEnc;
return passEnc.isPasswordValid(user, userSec);
}
return passEnc.isPasswordValid(user, userSec);
}
void UserManager::printUser(const model::User& user) {
std::cout << "\nuser info" << std::endl;
std::cout << "id: " << user.id << std::endl;
std::cout << "firstname: " << user.firstname << std::endl;
std::cout << "lastname: " << user.lastname << std::endl;
std::cout << "phone: " << user.phone << std::endl;
std::cout << "email: " << user.email << std::endl;
std::cout << "username: " << user.username << std::endl;
std::cout << "password: " << user.password<< std::endl;
}
void UserManager::printUser(const model::User& user) {
std::cout << "\nuser info\n";
std::cout << "id: " << user.id << "\n";
std::cout << "firstname: " << user.firstname << "\n";
std::cout << "lastname: " << user.lastname << "\n";
std::cout << "phone: " << user.phone << "\n";
std::cout << "email: " << user.email << "\n";
std::cout << "username: " << user.username << "\n";
std::cout << "password: " << user.password<< "\n";
}
}
+49 -54
View File
@@ -5,72 +5,67 @@
#include "database/YearRepository.h"
#include "type/YearFilter.h"
manager::YearManager::YearManager(const model::BinaryPath& bConf)
: m_bConf(bConf)
{ }
namespace manager {
YearManager::YearManager(const model::BinaryPath& bConf) : m_bConf(bConf) { }
model::Year manager::YearManager::retrieveYear(model::Year& year)
{
database::YearRepository yearRepo(m_bConf);
year = yearRepo.retrieveRecord(year, type::YearFilter::year);
model::Year YearManager::retrieveYear(model::Year& year) {
database::YearRepository yearRepo(m_bConf);
year = yearRepo.retrieveRecord(year, type::YearFilter::year);
return year;
}
model::Year manager::YearManager::saveYear(const model::Song& song)
{
model::Year year;
year.year = song.year;
database::YearRepository yearRepo(m_bConf);
if (!yearRepo.doesYearExist(year, type::YearFilter::year)) {
yearRepo.saveRecord(year);
} else {
std::cout << "year record already exists in the database" << std::endl;
return year;
}
return year;
}
model::Year YearManager::saveYear(const model::Song& song) {
model::Year year;
year.year = song.year;
void manager::YearManager::deleteYear(const model::Song& song)
{
model::Year year(song);
database::YearRepository yearRepo(m_bConf);
if (!yearRepo.doesYearExist(year, type::YearFilter::year)) {
yearRepo.saveRecord(year);
} else {
std::cout << "year record already exists in the database\n";
}
database::YearRepository yrRepo(m_bConf);
auto yrWSC = yrRepo.retrieveRecordWithSongCount(year, type::YearFilter::id);
if (yrWSC.second > 1) {
std::cout << "year still contain songs related to it";
std::cout << ", will not delete" << std::endl;
return;
return year;
}
std::cout << "safe to delete the year record" << std::endl;
yrRepo.deleteYear(year, type::YearFilter::id);
}
void YearManager::deleteYear(const model::Song& song) {
model::Year year(song);
void manager::YearManager::updateYear(model::Song& updatedSong,
const model::Song& currSong)
{
model::Year year;
year.year = updatedSong.year;
database::YearRepository yrRepo(m_bConf);
auto yrWSC = yrRepo.retrieveRecordWithSongCount(year, type::YearFilter::id);
database::YearRepository albRepo(m_bConf);
if (!albRepo.doesYearExist(year, type::YearFilter::year)) {
std::cout << "year record does not exist" << std::endl;
albRepo.saveRecord(year);
} else {
std::cout << "year record already exists" << std::endl;
if (yrWSC.second > 1) {
std::cout << "year still contain songs related to it";
std::cout << ", will not delete\n";
return;
}
std::cout << "safe to delete the year record\n";
yrRepo.deleteYear(year, type::YearFilter::id);
}
year = albRepo.retrieveRecord(year, type::YearFilter::year);
updatedSong.yearId = year.id;
}
void YearManager::updateYear(model::Song& updatedSong,
const model::Song& currSong) {
model::Year year;
year.year = updatedSong.year;
void manager::YearManager::printYear(const model::Year& year)
{
std::cout << "\nyear record" << std::endl;
std::cout << "id: " << year.id << std::endl;
std::cout << "year: " << year.year << std::endl;
database::YearRepository albRepo(m_bConf);
if (!albRepo.doesYearExist(year, type::YearFilter::year)) {
std::cout << "year record does not exist\n";
albRepo.saveRecord(year);
} else {
std::cout << "year record already exists\n";
}
year = albRepo.retrieveRecord(year, type::YearFilter::year);
updatedSong.yearId = year.id;
}
void YearManager::printYear(const model::Year& year) {
std::cout << "\nyear record\n";
std::cout << "id: " << year.id << "\n";
std::cout << "year: " << year.year << "\n";
}
}
+5 -6
View File
@@ -1,10 +1,9 @@
#include "utility/ImageFile.h"
utility::ImageFile::ImageFile(const char *file) : TagLib::File(file)
{
}
namespace utility {
ImageFile::ImageFile(const char *file) : TagLib::File(file) { }
TagLib::ByteVector utility::ImageFile::data()
{
return readBlock(length());
TagLib::ByteVector ImageFile::data() {
return readBlock(length());
}
}
+169 -149
View File
@@ -6,10 +6,6 @@
#include <sstream>
#include <string.h>
#include <attachedpictureframe.h>
#include <fileref.h>
#include <mpegfile.h>
#include <tag.h>
#include "manager/DirectoryManager.h"
#include "utility/ImageFile.h"
@@ -17,161 +13,185 @@
namespace fs = std::filesystem;
model::Song utility::MetadataRetriever::retrieveMetadata(std::string& songPath)
{
TagLib::FileRef file(songPath.c_str());
model::Song song;
song.title = file.tag()->title().toCString();
song.artist = file.tag()->artist().toCString();
song.album = file.tag()->album().toCString();
song.genre = file.tag()->genre().toCString();
song.year = file.tag()->year();
song.track = file.tag()->track();
song.duration = file.audioProperties()->lengthInSeconds();
song.songPath = songPath;
namespace utility {
model::Song MetadataRetriever::retrieveMetadata(model::Song& song) {
TagLib::MPEG::File sameFile(song.songPath.c_str());
auto tag = sameFile.ID3v2Tag();
song.title = tag->title().toCString(true);
song.artist = tag->artist().toCString(true);
song.album = tag->album().toCString(true);
song.genre = tag->genre().toCString(true);
song.year = tag->year();
song.track = tag->track();
// TODO: Move over to this eventually since at the moment
// I am only targetting mp3 files
// Used to retrieve disc
TagLib::MPEG::File sameFile(songPath.c_str());
auto tag = sameFile.ID3v2Tag();
song.duration = sameFile.audioProperties()->lengthInSeconds();
auto frame = tag->frameList("TPOS");
if (frame.isEmpty()) {
song.disc = 1;
// TODO: set default disc to 1 if none found
} else {
song.disc = std::stoi(frame.front()->toString().toCString());
constexpr auto id3DiscName = "TPOS";
constexpr auto id3AlbumArtistName = "TPE2";
auto discFrame = tag->frameList(id3DiscName);
auto albumArtistFrame = tag->frameList(id3AlbumArtistName);
if (discFrame.isEmpty()) {
constexpr auto discDefaultVal = "1";
TagLib::ID3v2::TextIdentificationFrame *emptyFrame =
new TagLib::ID3v2::TextIdentificationFrame(id3DiscName);
tag->addFrame(emptyFrame);
emptyFrame->setText(discDefaultVal);
song.disc = std::atoi(discDefaultVal);
sameFile.save();
} else {
song.disc = std::stoi(discFrame.front()->toString().toCString());
}
if (albumArtistFrame.isEmpty()) {
TagLib::ID3v2::TextIdentificationFrame *emptyFrame =
new TagLib::ID3v2::TextIdentificationFrame(id3AlbumArtistName);
tag->addFrame(emptyFrame);
emptyFrame->setText(song.artist.c_str());
sameFile.save();
} else {
song.albumArtist = albumArtistFrame.front()->toString().toCString(true);
}
return song;
}
model::Cover MetadataRetriever::updateCoverArt(const model::Song& song, model::Cover& cov,
const std::string& stockCoverPath) {
TagLib::MPEG::File sngF(song.songPath.c_str());
auto tag = sngF.ID3v2Tag();
auto frameList = tag->frameListMap()["APIC"];
if (frameList.isEmpty()) {
cov.imagePath.append("CoverArt.png");
if (!fs::exists(cov.imagePath)) {
std::cout << "copying stock cover path\n";
fs::copy(stockCoverPath, cov.imagePath);
}
ImageFile stockImg(cov.imagePath.c_str());
TagLib::ID3v2::AttachedPictureFrame *pic =
new TagLib::ID3v2::AttachedPictureFrame;
pic->setPicture(stockImg.data());
pic->setType(TagLib::ID3v2::AttachedPictureFrame::FrontCover);
tag->addFrame(pic);
sngF.save();
std::cout << "applied stock cover art\n";
} else {
auto frame = dynamic_cast<TagLib::ID3v2::AttachedPictureFrame*>(
frameList.front());
auto imgPath = manager::DirectoryManager::createDirectoryProcess(song, cov.imagePath);
imgPath.append(song.title);
imgPath.append(".png");
cov.imagePath = imgPath;
std::fstream imgSave(cov.imagePath, std::ios::out |
std::ios::binary);
imgSave.write(frame->picture().data(), frame->picture().size());
imgSave.close();
std::cout << "saved to " << cov.imagePath << "\n";
}
return cov;
}
// tags song with the stock cover art
model::Cover MetadataRetriever::applyStockCoverArt(
const model::Song& song, model::Cover& cov,
const std::string& stockCoverPath) {
TagLib::MPEG::File songFile(song.songPath.c_str());
auto tag = songFile.ID3v2Tag();
ImageFile stockImg(cov.imagePath.c_str());
TagLib::ID3v2::AttachedPictureFrame *pic =
new TagLib::ID3v2::AttachedPictureFrame;
pic->setPicture(stockImg.data());
pic->setType(TagLib::ID3v2::AttachedPictureFrame::FrontCover);
tag->addFrame(pic);
songFile.save();
std::cout << "applied stock cover art\n";
delete pic;
return cov;
}
// extracts cover art from the song and save it to the
// appropriate directory
model::Cover MetadataRetriever::applyCoverArt(const model::Song& song,
model::Cover& cov) {
TagLib::MPEG::File songFile(song.songPath.c_str());
auto tag = songFile.ID3v2Tag();
auto frameList = tag->frameListMap()["APIC"];
auto frame = dynamic_cast<TagLib::ID3v2::AttachedPictureFrame*>(
frameList.front());
std::fstream imgSave(cov.imagePath, std::ios::out |
std::ios::binary);
imgSave.write(frame->picture().data(), frame->picture().size());
imgSave.close();
std::cout << "saved to " << cov.imagePath << "\n";
return cov;
}
return song;
}
bool MetadataRetriever::songContainsCoverArt(const model::Song& song) {
TagLib::MPEG::File songFile(song.songPath.c_str());
auto tag = songFile.ID3v2Tag();
auto frameList = tag->frameListMap()["APIC"];
model::Cover utility::MetadataRetriever::updateCoverArt(const model::Song& song, model::Cover& cov, const std::string& stockCoverPath)
{
TagLib::MPEG::File sngF(song.songPath.c_str());
auto tag = sngF.ID3v2Tag();
auto frameList = tag->frameListMap()["APIC"];
if (frameList.isEmpty()) {
cov.imagePath.append("CoverArt.png");
if (!fs::exists(cov.imagePath)) {
std::cout << "copying stock cover path" << std::endl;
fs::copy(stockCoverPath, cov.imagePath);
}
ImageFile stockImg(cov.imagePath.c_str());
TagLib::ID3v2::AttachedPictureFrame *pic =
new TagLib::ID3v2::AttachedPictureFrame;
pic->setPicture(stockImg.data());
pic->setType(TagLib::ID3v2::AttachedPictureFrame::FrontCover);
tag->addFrame(pic);
sngF.save();
std::cout << "applied stock cover art" << std::endl;
} else {
auto frame = dynamic_cast<TagLib::ID3v2::AttachedPictureFrame*>(
frameList.front());
auto imgPath = manager::DirectoryManager::createDirectoryProcess(song, cov.imagePath);
imgPath.append(song.title);
imgPath.append(".png");
cov.imagePath = imgPath;
std::fstream imgSave(cov.imagePath, std::ios::out |
std::ios::binary);
imgSave.write(frame->picture().data(), frame->picture().size());
imgSave.close();
std::cout << "saved to " << cov.imagePath << std::endl;
return !frameList.isEmpty();
}
return cov;
}
// tags song with the stock cover art
model::Cover utility::MetadataRetriever::applyStockCoverArt(
const model::Song& song, model::Cover& cov,
const std::string& stockCoverPath)
{
TagLib::MPEG::File songFile(song.songPath.c_str());
auto tag = songFile.ID3v2Tag();
utility::ImageFile stockImg(cov.imagePath.c_str());
TagLib::ID3v2::AttachedPictureFrame *pic =
new TagLib::ID3v2::AttachedPictureFrame;
pic->setPicture(stockImg.data());
pic->setType(TagLib::ID3v2::AttachedPictureFrame::FrontCover);
tag->addFrame(pic);
songFile.save();
std::cout << "applied stock cover art" << std::endl;
delete pic;
return cov;
}
// extracts cover art from the song and save it to the
// appropriate directory
model::Cover utility::MetadataRetriever::applyCoverArt(const model::Song& song,
model::Cover& cov)
{
TagLib::MPEG::File songFile(song.songPath.c_str());
auto tag = songFile.ID3v2Tag();
auto frameList = tag->frameListMap()["APIC"];
auto frame = dynamic_cast<TagLib::ID3v2::AttachedPictureFrame*>(
frameList.front());
std::fstream imgSave(cov.imagePath, std::ios::out |
std::ios::binary);
imgSave.write(frame->picture().data(), frame->picture().size());
imgSave.close();
std::cout << "saved to " << cov.imagePath << std::endl;
return cov;
}
bool utility::MetadataRetriever::songContainsCoverArt(const model::Song& song)
{
TagLib::MPEG::File songFile(song.songPath.c_str());
auto tag = songFile.ID3v2Tag();
auto frameList = tag->frameListMap()["APIC"];
return !frameList.isEmpty();
}
void utility::MetadataRetriever::updateMetadata(model::Song& sngUpdated, const model::Song& sngOld)
{
std::cout<<"updating metadata"<<std::endl;
TagLib::FileRef file(sngOld.songPath.c_str());
void MetadataRetriever::updateMetadata(model::Song& sngUpdated, const model::Song& sngOld) {
std::cout << "updating metadata\n";
TagLib::MPEG::File file(sngOld.songPath.c_str());
auto tag = file.ID3v2Tag();
if (sngUpdated.title.size() > 0) {
file.tag()->setTitle(sngUpdated.title);
}
if (sngUpdated.artist.size() > 0) {
file.tag()->setArtist(sngUpdated.artist);
}
if (sngUpdated.album.size() > 0) {
file.tag()->setAlbum(sngUpdated.album);
}
if (sngUpdated.genre.size() > 0) {
file.tag()->setGenre(sngUpdated.genre);
}
if (sngUpdated.year > 0) {
file.tag()->setYear(sngUpdated.year);
}
if (sngUpdated.title.size() > 0) {
file.tag()->setTitle(sngUpdated.title);
}
if (sngUpdated.artist.size() > 0) {
file.tag()->setArtist(sngUpdated.artist);
}
if (sngUpdated.albumArtist.size() > 0) {
constexpr auto frameId = "TPE2";
auto albumArtistFrame = tag->frameList(frameId);
if (albumArtistFrame.isEmpty()) {
TagLib::ID3v2::TextIdentificationFrame *frame =
new TagLib::ID3v2::TextIdentificationFrame(frameId);
frame->setText(sngUpdated.albumArtist.c_str());
tag->addFrame(frame);
} else {
albumArtistFrame.front()->setText(sngUpdated.albumArtist.c_str());
}
// TODO: functionality to update the track number and disc number
file.save();
}
if (sngUpdated.album.size() > 0) {
file.tag()->setAlbum(sngUpdated.album);
}
if (sngUpdated.genre.size() > 0) {
file.tag()->setGenre(sngUpdated.genre);
}
if (sngUpdated.year > 0) {
file.tag()->setYear(sngUpdated.year);
}
file.save();
// TODO: functionality to update the track number and disc number
file.save();
}
}
+27 -33
View File
@@ -7,42 +7,36 @@
namespace utility {
model::PassSec PasswordEncryption::hashPassword(const model::User& user)
{
model::PassSec passSec;
model::PassSec PasswordEncryption::hashPassword(const model::User& user) {
model::PassSec passSec;
std::unique_ptr<char[]> salt(new char[BCRYPT_HASHSIZE]);
std::unique_ptr<char[]> hash(new char[BCRYPT_HASHSIZE]);
std::unique_ptr<char[]> salt(new char[BCRYPT_HASHSIZE]);
std::unique_ptr<char[]> hash(new char[BCRYPT_HASHSIZE]);
std::cout << "generating salt" << std::endl;
bcrypt_gensalt(saltSize(), salt.get());
std::cout << "hashing password" << std::endl;
bcrypt_hashpw(user.password.c_str(), salt.get(), hash.get());
std::cout << "generating salt\n";
bcrypt_gensalt(saltSize(), salt.get());
std::cout << "hashing password\n";
bcrypt_hashpw(user.password.c_str(), salt.get(), hash.get());
passSec.salt = salt.get();
passSec.hashPassword = hash.get();
passSec.salt = salt.get();
passSec.hashPassword = hash.get();
std::cout << "hash: " << passSec.hashPassword << std::endl;
std::cout << "salt: " << passSec.salt << std::endl;
std::cout << "hash: " << passSec.hashPassword << "\n";
std::cout << "salt: " << passSec.salt << "\n";
return passSec;
}
bool PasswordEncryption::isPasswordValid(const model::User& user, const model::PassSec& userSalt)
{
std::unique_ptr<char[]> passwordHashed(new char[BCRYPT_HASHSIZE]);
bcrypt_hashpw(user.password.c_str(), userSalt.salt.c_str(), passwordHashed.get());
return (userSalt.hashPassword.compare(passwordHashed.get()) == 0) ? true : false;
}
int PasswordEncryption::saltSize()
{
constexpr auto size = 10000;
return size;
}
return passSec;
}
bool PasswordEncryption::isPasswordValid(const model::User& user,
const model::PassSec& userSalt) {
std::unique_ptr<char[]> passwordHashed(new char[BCRYPT_HASHSIZE]);
bcrypt_hashpw(user.password.c_str(), userSalt.salt.c_str(), passwordHashed.get());
return (userSalt.hashPassword.compare(passwordHashed.get()) == 0) ? true : false;
}
constexpr int PasswordEncryption::saltSize() noexcept { return 10000; }
}
+66 -81
View File
@@ -11,103 +11,88 @@
namespace fs = std::filesystem;
namespace verify {
bool Initialization::skipVerification(const std::string& argument)
{
return argument.compare("--noverify") == 0;
}
// verifies if the configuration settings are valid
void Initialization::checkIcarus(const model::BinaryPath& bConf)
{
auto auth = confirmConfigAuth(bConf);
auto database = confirmConfigDatabase(bConf);
auto path = confirmConfigPaths(bConf);
if ((auth && database && path) == false) {
failedConfirmation();
bool Initialization::skipVerification(const std::string& argument) {
return argument.compare("--noverify") == 0;
}
std::cout << "icarus check passed" << std::endl;
}
// verifies if the configuration settings are valid
void Initialization::checkIcarus(const model::BinaryPath& bConf) {
auto auth = confirmConfigAuth(bConf);
auto database = confirmConfigDatabase(bConf);
auto path = confirmConfigPaths(bConf);
if ((!auth) && (!database) && (!path)) {
failedConfirmation();
}
std::cout << "icarus check passed\n";
}
// verifies that the authorization settings are not the default values
bool Initialization::confirmConfigAuth(const model::BinaryPath& bConf)
{
manager::TokenManager tokMgr;
// verifies that the authorization settings are not the default values
bool Initialization::confirmConfigAuth(const model::BinaryPath& bConf) {
manager::TokenManager tokMgr;
return tokMgr.testAuth(bConf);
}
return tokMgr.testAuth(bConf);
}
// verifies if database connectivity can be established
bool Initialization::confirmConfigDatabase(const model::BinaryPath& bConf)
{
database::BaseRepository baseRepo(bConf);
// verifies if database connectivity can be established
bool Initialization::confirmConfigDatabase(const model::BinaryPath& bConf) {
database::BaseRepository baseRepo(bConf);
return baseRepo.testConnection();
}
return baseRepo.testConnection();
}
// verifies if the paths found in the config files exists
bool Initialization::confirmConfigPaths(const model::BinaryPath& bConf)
{
auto pathConfig = manager::DirectoryManager::pathConfigContent(bConf);
// verifies if the paths found in the config files exists
bool Initialization::confirmConfigPaths(const model::BinaryPath& bConf) {
using manager::DirectoryManager;
auto pathConfig = DirectoryManager::pathConfigContent(bConf);
const auto rootMusicPath =
pathConfig
[manager::
DirectoryManager::
retrievePathType
const auto rootMusicPath =
pathConfig
[DirectoryManager::retrievePathType
(type::PathType::music)].get<std::string>();
const auto archiveRootPath =
pathConfig
[manager::
DirectoryManager::
retrievePathType
const auto archiveRootPath =
pathConfig
[DirectoryManager::retrievePathType
(type::PathType::archive)].get<std::string>();
const auto tempRootPath =
pathConfig
[manager::
DirectoryManager::
retrievePathType
const auto tempRootPath =
pathConfig
[DirectoryManager::retrievePathType
(type::PathType::temp)].get<std::string>();
const auto coverRootPath =
pathConfig
[manager::
DirectoryManager::
retrievePathType
const auto coverRootPath =
pathConfig
[DirectoryManager::retrievePathType
(type::PathType::coverArt)].get<std::string>();
if (!fs::exists(rootMusicPath)) {
std::cout << "root music path is not properly configured" << std::endl;
return false;
if (!fs::exists(rootMusicPath)) {
std::cout << "root music path is not properly configured\n";
return false;
}
if (!fs::exists(archiveRootPath)) {
std::cout << "archive root path is not properly configured\n";
return false;
}
if (!fs::exists(tempRootPath)) {
std::cout << "temp root path is not properly configured\n";
return false;
}
if (!fs::exists(coverRootPath)) {
std::cout << "cover art root path is not properly configured\n";
return false;
}
return true;
}
if (!fs::exists(archiveRootPath)) {
std::cout << "archive root path is not properly configured" << std::endl;
return false;
}
if (!fs::exists(tempRootPath)) {
std::cout << "temp root path is not properly configured" << std::endl;
return false;
// confirmation failed
void Initialization::failedConfirmation() {
std::cout << "configuration confirmation failed. check your settings\n";
std::exit(-1);
}
if (!fs::exists(coverRootPath)) {
std::cout << "cover art root path is not properly configured" << std::endl;
return false;
}
return true;
}
// confirmation failed
void Initialization::failedConfirmation()
{
std::cout << "configuration confirmation failed. check your settings" << std::endl;
std::exit(-1);
}
}