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2026-02-23 02:41:49 +03:00

712 lines
17 KiB
C++

/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright The KiCad Developers, see AUTHORS.txt for contributors.
*
* This program is free software: you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation, either version 3 of the License, or (at your
* option) any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include <wx/dir.h>
#include <wx/filename.h>
#include <wx/stdpaths.h>
#include <wx/string.h>
#include <wx/utils.h>
#include <wx/msgdlg.h>
#include <kiplatform/environment.h>
#include <paths.h>
#include <config.h>
#include <build_version.h>
#include <macros.h>
#include <wx_filename.h>
void PATHS::getUserDocumentPath( wxFileName& aPath )
{
wxString envPath;
if( wxGetEnv( wxT( "KICAD_DOCUMENTS_HOME" ), &envPath ) )
aPath.AssignDir( envPath );
else
aPath.AssignDir( KIPLATFORM::ENV::GetDocumentsPath() );
aPath.AppendDir( KICAD_PATH_STR );
aPath.AppendDir( GetMajorMinorVersion().ToStdString() );
}
wxString PATHS::GetUserPluginsPath()
{
wxFileName tmp;
getUserDocumentPath( tmp );
tmp.AppendDir( wxT( "plugins" ) );
return tmp.GetPath();
}
wxString PATHS::GetUserScriptingPath()
{
wxFileName tmp;
getUserDocumentPath( tmp );
tmp.AppendDir( wxT( "scripting" ) );
return tmp.GetPath();
}
wxString PATHS::GetUserTemplatesPath()
{
wxFileName tmp;
getUserDocumentPath( tmp );
tmp.AppendDir( wxT( "template" ) );
return tmp.GetPathWithSep();
}
wxString PATHS::GetDefaultUserSymbolsPath()
{
wxFileName tmp;
getUserDocumentPath( tmp );
tmp.AppendDir( wxT( "symbols" ) );
return tmp.GetPath();
}
wxString PATHS::GetDefaultUserFootprintsPath()
{
wxFileName tmp;
getUserDocumentPath( tmp );
tmp.AppendDir( wxT( "footprints" ) );
return tmp.GetPath();
}
wxString PATHS::GetDefaultUserDesignBlocksPath()
{
wxFileName tmp;
getUserDocumentPath( tmp );
tmp.AppendDir( wxT( "blocks" ) );
return tmp.GetPath();
}
wxString PATHS::GetDefaultUser3DModelsPath()
{
wxFileName tmp;
getUserDocumentPath( tmp );
tmp.AppendDir( wxT( "3dmodels" ) );
return tmp.GetPath();
}
wxString PATHS::GetDefault3rdPartyPath()
{
wxFileName tmp;
getUserDocumentPath( tmp );
tmp.AppendDir( wxT( "3rdparty" ) );
return tmp.GetAbsolutePath();
}
wxString PATHS::GetDefaultUserProjectsPath()
{
wxFileName tmp;
getUserDocumentPath( tmp );
tmp.AppendDir( wxT( "projects" ) );
return tmp.GetPath();
}
#if !defined( __WXMAC__ ) && !defined( __WXMSW__ )
/**
* Get the CMake build root directory for the current executable
* (which assumes the executable is in a build directory).
*
* This is done because not all executable are located at the same
* depth in the build directory.
*/
static wxString getBuildDirectoryRoot()
{
// We don't have a perfect way to spot a build directory (e.g. when archived as artifacts in
// CI) but we can assume that the build directory will have a schemas directory that contains
// JSON files, as that's one of the things that we use this path for.
const auto looksLikeBuildDir = []( const wxFileName& aPath ) -> bool
{
const wxDir schema_dir( aPath.GetPathWithSep() + wxT( "schemas" ) );
if( !schema_dir.IsOpened() )
return false;
wxString filename;
const bool found = schema_dir.GetFirst( &filename, wxT( "*.json" ), wxDIR_FILES );
return found;
};
const wxString execPath = PATHS::GetExecutablePath();
wxFileName fn = execPath;
// Climb the directory tree until we find a directory that looks like a build directory
// Normally we expect to climb one or two levels only.
while( fn.GetDirCount() > 0 && !looksLikeBuildDir( fn ) )
{
fn.RemoveLastDir();
}
wxASSERT_MSG(
fn.GetDirCount() > 0,
wxString::Format( wxT( "Could not find build root directory above %s" ), execPath ) );
return fn.GetPath();
}
#elif defined( __WXMAC__ )
/**
* Get the main .app bundle root with symlinks resolved.
* Handles both main KiCad binaries and aux binaries inside the bundle.
* This is the single source of truth for bundle root resolution on macOS.
*/
static wxString getOSXBundleRoot()
{
static wxString bundleRoot;
if( bundleRoot.empty() )
{
wxFileName fn( wxStandardPaths::Get().GetExecutablePath() );
WX_FILENAME::ResolvePossibleSymlinks( fn );
fn.SetFullName( wxEmptyString ); // Remove binary name
// Navigate from .../Contents/MacOS/ up to the .app bundle root
// e.g., /Applications/KiCad/KiCad.app/Contents/MacOS -> /Applications/KiCad/KiCad.app
if( fn.GetDirCount() >= 2 && fn.GetDirs().Last() == wxT( "MacOS" ) )
{
fn.RemoveLastDir(); // MacOS
fn.RemoveLastDir(); // Contents
}
// Handle aux binaries inside main bundle
// From: .../main.app/Contents/Applications/standalone.app
// To: .../main.app
const wxArrayString dirs = fn.GetDirs();
if( dirs.GetCount() >= 4 && dirs[dirs.GetCount() - 2] == wxT( "Applications" )
&& dirs[dirs.GetCount() - 4].Lower().EndsWith( wxT( "app" ) ) )
{
fn.RemoveLastDir(); // standalone.app
fn.RemoveLastDir(); // Applications
fn.RemoveLastDir(); // Contents
}
bundleRoot = fn.GetPath();
}
return bundleRoot;
}
#endif
wxString PATHS::GetStockDataPath( bool aRespectRunFromBuildDir )
{
wxString path;
if( aRespectRunFromBuildDir && wxGetEnv( wxT( "KICAD_RUN_FROM_BUILD_DIR" ), nullptr ) )
{
// Allow debugging from build dir by placing relevant files/folders in the build root
#if defined( __WXMAC__ )
wxFileName fn;
fn.AssignDir( getOSXBundleRoot() );
fn.RemoveLastDir(); // Above the .app bundle
fn.RemoveLastDir(); // Above the target subdirectory to build root
path = fn.GetPath();
#elif defined( __WXMSW__ )
path = getWindowsKiCadRoot();
#else
path = getBuildDirectoryRoot();
#endif
}
else if( wxGetEnv( wxT( "KICAD_STOCK_DATA_HOME" ), &path ) && !path.IsEmpty() )
{
return path;
}
else
{
#if defined( __WXMAC__ )
path = GetOSXKicadDataDir();
#elif defined( __WXMSW__ )
path = getWindowsKiCadRoot() + wxT( "share/kicad" );
#else
path = wxString::FromUTF8Unchecked( KICAD_DATA );
#endif
}
return path;
}
#ifdef _WIN32
wxString PATHS::GetWindowsBaseSharePath()
{
return getWindowsKiCadRoot() + wxT( "share\\" );
}
#endif
wxString PATHS::GetStockEDALibraryPath()
{
wxString path;
#if defined( __WXMAC__ )
path = GetOSXKicadMachineDataDir();
#elif defined( __WXMSW__ )
path = GetStockDataPath( false );
#else
path = wxString::FromUTF8Unchecked( KICAD_LIBRARY_DATA );
#endif
return path;
}
wxString PATHS::GetStockSymbolsPath()
{
wxFileName fn;
fn.AssignDir( GetStockEDALibraryPath() );
fn.AppendDir( "symbols" );
return fn.GetPathWithSep();
}
wxString PATHS::GetStockFootprintsPath()
{
wxFileName fn;
fn.AssignDir( GetStockEDALibraryPath() );
fn.AppendDir( "footprints" );
return fn.GetPathWithSep();
}
wxString PATHS::GetStockDesignBlocksPath()
{
wxFileName fn;
fn.AssignDir( GetStockEDALibraryPath() );
fn.AppendDir( "blocks" );
return fn.GetPathWithSep();
}
wxString PATHS::GetStock3dmodelsPath()
{
wxFileName fn;
fn.AssignDir( GetStockEDALibraryPath() );
fn.AppendDir( "3dmodels" );
return fn.GetPathWithSep();
}
wxString PATHS::GetStockScriptingPath()
{
wxFileName fn;
fn.AssignDir( GetStockDataPath() );
fn.AppendDir( "scripting" );
return fn.GetPathWithSep();
}
wxString PATHS::GetStockTemplatesPath()
{
wxFileName fn;
fn.AssignDir( GetStockEDALibraryPath() );
fn.AppendDir( "template" );
return fn.GetPathWithSep();
}
wxString PATHS::GetLocaleDataPath()
{
wxFileName fn;
fn.AssignDir( GetStockDataPath() );
fn.AppendDir( "internat" );
return fn.GetPathWithSep();
}
wxString PATHS::GetStockPluginsPath()
{
wxFileName fn;
#if defined( __WXMSW__ )
fn.AssignDir( GetExecutablePath() );
fn.AppendDir( wxT( "scripting" ) );
#else
fn.AssignDir( PATHS::GetStockDataPath( false ) );
#endif
fn.AppendDir( wxT( "plugins" ) );
return fn.GetPathWithSep();
}
wxString PATHS::GetStockPlugins3DPath()
{
wxFileName fn;
#if defined( __WXMSW__ )
if( wxGetEnv( wxT( "KICAD_RUN_FROM_BUILD_DIR" ), nullptr ) )
{
fn.AssignDir( getWindowsKiCadRoot() );
}
else
{
fn.AssignDir( GetExecutablePath() );
}
fn.AppendDir( wxT( "plugins" ) );
#elif defined( __WXMAC__ )
fn.AssignDir( getOSXBundleRoot() );
fn.AppendDir( wxT( "Contents" ) );
fn.AppendDir( wxT( "PlugIns" ) );
#else
wxString envPath;
if( wxGetEnv( wxT( "KICAD_RUN_FROM_BUILD_DIR" ), nullptr ) )
{
fn.Assign( wxStandardPaths::Get().GetExecutablePath() );
fn.AppendDir( wxT( ".." ) );
fn.AppendDir( wxT( "plugins" ) );
}
// AppImages have a different path to the plugins, otherwise we end up with host system
// plugins being loaded.
else if( wxGetEnv( wxT( "APPDIR" ), &envPath ) )
{
fn.Assign( envPath, wxEmptyString );
fn.AppendDir( wxT( "usr" ) );
fn.AppendDir( wxT( "lib" ) );
fn.AppendDir( wxT( "x86_64-linux-gnu" ) );
fn.AppendDir( wxT( "kicad" ) );
fn.AppendDir( wxT( "plugins" ) );
}
else
{
// KICAD_PLUGINDIR = CMAKE_INSTALL_FULL_LIBDIR path is the absolute path
// corresponding to the install path used for constructing KICAD_USER_PLUGIN
wxString tfname = wxString::FromUTF8Unchecked( KICAD_PLUGINDIR );
fn.Assign( tfname, "" );
fn.AppendDir( wxT( "kicad" ) );
fn.AppendDir( wxT( "plugins" ) );
}
#endif
fn.AppendDir( wxT( "3d" ) );
return fn.GetPathWithSep();
}
wxString PATHS::GetStockDemosPath()
{
wxFileName fn;
fn.AssignDir( PATHS::GetStockDataPath( false ) );
fn.AppendDir( wxT( "demos" ) );
return fn.GetPathWithSep();
}
wxString PATHS::GetUserCachePath()
{
wxString envPath;
wxFileName tmp;
tmp.AssignDir( KIPLATFORM::ENV::GetUserCachePath() );
// Use KICAD_CACHE_HOME to allow the user to force a specific cache path.
if( wxGetEnv( wxT( "KICAD_CACHE_HOME" ), &envPath ) && !envPath.IsEmpty() )
{
// Override the assignment above with KICAD_CACHE_HOME
tmp.AssignDir( envPath );
}
tmp.AppendDir( KICAD_PATH_STR );
tmp.AppendDir( GetMajorMinorVersion().ToStdString() );
return tmp.GetPathWithSep();
}
wxString PATHS::GetDocumentationPath()
{
wxString path;
#if defined( __WXMAC__ )
path = GetOSXKicadDataDir();
#elif defined( __WXMSW__ )
path = getWindowsKiCadRoot() + wxT( "share/doc/kicad" );
#else
path = wxString::FromUTF8Unchecked( KICAD_DOCS );
#endif
return path;
}
wxString PATHS::GetInstanceCheckerPath()
{
wxFileName path;
path.AssignDir( wxStandardPaths::Get().GetTempDir() );
path.AppendDir( "org.kicad.kicad" );
path.AppendDir( "instances" );
return path.GetPathWithSep();
}
wxString PATHS::GetLogsPath()
{
wxFileName tmp;
getUserDocumentPath( tmp );
tmp.AppendDir( wxT( "logs" ) );
return tmp.GetPath();
}
bool PATHS::EnsurePathExists( const wxString& aPath, bool aPathToFile )
{
wxString pathString = aPath;
if( !aPathToFile )
{
// ensures the path is treated fully as directory
pathString += wxFileName::GetPathSeparator();
}
wxFileName path( pathString );
if( !path.MakeAbsolute() )
{
return false;
}
if( !wxFileName::DirExists( path.GetPath() ) )
{
if( !wxFileName::Mkdir( path.GetPath(), wxS_DIR_DEFAULT, wxPATH_MKDIR_FULL ) )
{
return false;
}
}
return true;
}
void PATHS::EnsureUserPathsExist()
{
EnsurePathExists( GetUserCachePath() );
EnsurePathExists( GetUserPluginsPath() );
EnsurePathExists( GetUserScriptingPath() );
EnsurePathExists( GetUserTemplatesPath() );
EnsurePathExists( GetDefaultUserProjectsPath() );
EnsurePathExists( GetDefaultUserSymbolsPath() );
EnsurePathExists( GetDefaultUserFootprintsPath() );
EnsurePathExists( GetDefaultUser3DModelsPath() );
EnsurePathExists( GetDefault3rdPartyPath() );
#ifdef _WIN32
// Warn about Controlled folder access
wxFileName tmp;
getUserDocumentPath( tmp );
if( !tmp.DirExists() )
{
wxString msg = wxString::Format(
_( "KiCad was unable to use '%s'.\n"
"\n"
"1. Disable 'Controlled folder access' in Windows settings or Group Policy\n"
"2. Make sure no other antivirus software interferes with KiCad\n"
"3. Make sure you have correct permissions set up" ),
tmp.GetPath() );
wxMessageBox( msg, _( "Warning" ), wxICON_WARNING );
}
#endif
}
#ifdef __WXMAC__
wxString PATHS::GetOSXKicadUserDataDir()
{
// According to wxWidgets documentation for GetUserDataDir:
// Mac: ~/Library/Application Support/appname
wxFileName udir( wxStandardPaths::Get().GetUserDataDir(), wxEmptyString );
// Since appname is different if started via launcher or standalone binary
// map all to "kicad" here
udir.RemoveLastDir();
udir.AppendDir( wxT( "kicad" ) );
return udir.GetPath();
}
wxString PATHS::GetOSXKicadMachineDataDir()
{
// 6.0 forward: Same as the main data dir
return GetOSXKicadDataDir();
}
wxString PATHS::GetOSXKicadDataDir()
{
wxFileName ddir;
ddir.AssignDir( getOSXBundleRoot() );
ddir.AppendDir( wxT( "Contents" ) );
ddir.AppendDir( wxT( "SharedSupport" ) );
return ddir.GetPath();
}
#endif
#ifdef _WIN32
wxString PATHS::GetWindowsFontConfigDir()
{
wxFileName fn;
fn.AssignDir( getWindowsKiCadRoot() );
fn.AppendDir( wxS( "etc" ) );
fn.AppendDir( wxS( "fonts" ) );
return fn.GetPathWithSep();
}
wxString PATHS::getWindowsKiCadRoot()
{
wxFileName root( GetExecutablePath() + wxT( "/../" ) );
root.MakeAbsolute();
return root.GetPathWithSep();
}
#endif
wxString PATHS::GetUserSettingsPath()
{
static wxString user_settings_path;
if( user_settings_path.empty() )
user_settings_path = CalculateUserSettingsPath();
return user_settings_path;
}
wxString PATHS::CalculateUserSettingsPath( bool aIncludeVer, bool aUseEnv )
{
wxFileName cfgpath;
// http://docs.wxwidgets.org/3.0/classwx_standard_paths.html#a7c7cf595d94d29147360d031647476b0
wxString envstr;
if( aUseEnv && wxGetEnv( wxT( "KICAD_CONFIG_HOME" ), &envstr ) && !envstr.IsEmpty() )
{
// Override the assignment above with KICAD_CONFIG_HOME
cfgpath.AssignDir( envstr );
}
else
{
cfgpath.AssignDir( KIPLATFORM::ENV::GetUserConfigPath() );
cfgpath.AppendDir( TO_STR( KICAD_CONFIG_DIR ) );
}
if( aIncludeVer )
cfgpath.AppendDir( GetMajorMinorVersion().ToStdString() );
return cfgpath.GetPath();
}
const wxString& PATHS::GetExecutablePath()
{
static wxString exe_path;
if( exe_path.empty() )
{
#ifdef __WXMAC__
// Use bundle root helper which handles symlink resolution and aux binaries
exe_path = getOSXBundleRoot() + wxT( "/" );
#else
wxString envPath;
// When running inside an AppImage, the bundled ld-linux is invoked as a wrapper
// which causes /proc/self/exe to resolve to the dynamic linker rather than the
// actual binary. Use APPDIR to construct the correct executable path.
if( wxGetEnv( wxT( "APPDIR" ), &envPath ) )
{
envPath.Replace( WIN_STRING_DIR_SEP, UNIX_STRING_DIR_SEP );
if( !envPath.EndsWith( wxT( "/" ) ) )
envPath += wxT( "/" );
exe_path = envPath + wxT( "usr/bin/" );
}
else
{
wxString bin_dir = wxStandardPaths::Get().GetExecutablePath();
// Use unix notation for paths. I am not sure this is a good idea,
// but it simplifies compatibility between Windows and Unices.
// However it is a potential problem in path handling under Windows.
bin_dir.Replace( WIN_STRING_DIR_SEP, UNIX_STRING_DIR_SEP );
// Remove file name form command line:
while( bin_dir.Last() != '/' && !bin_dir.IsEmpty() )
bin_dir.RemoveLast();
exe_path = bin_dir;
}
#endif
}
return exe_path;
}