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//
// Copyright 2010-2012,2015 Ettus Research LLC
// Copyright 2018 Ettus Research, a National Instruments Company
//
// SPDX-License-Identifier: GPL-3.0-or-later
//
#include <uhd/config.hpp>
#include <uhd/exception.hpp>
#include <uhd/utils/paths.hpp>
#include <uhd/utils/log.hpp>
#include <uhdlib/utils/paths.hpp>
#include <boost/algorithm/string.hpp>
#include <boost/version.hpp>
#include <functional>
#if BOOST_VERSION >= 106100
# include <boost/dll/runtime_symbol_info.hpp>
#endif
#include <boost/filesystem.hpp>
#include <boost/format.hpp>
#include <boost/tokenizer.hpp>
#include <cstdio>
#include <cstdlib>
#include <fstream>
#include <iostream>
#include <regex>
#include <streambuf>
#include <string>
#include <vector>
#ifdef BOOST_MSVC
# define USE_GET_TEMP_PATH
# include <windows.h> //GetTempPath
#endif
namespace fs = boost::filesystem;
static constexpr char UHD_CAL_DATA_PATH_VAR[] = "UHD_CAL_DATA_PATH";
/*! Get the value of an environment variable.
*
* The returned std::string is the full environment variable string, and thus
* may actually contain multiple fields in the string with delimiters.
*
* \param var_name The name of the variable to search for.
* \param default_val A default string value to use if the path isn't found.
* \returns The string value of the environment variable.
*/
static std::string get_env_var(
const std::string& var_name, const std::string& default_val = "")
{
std::string env_result = default_val;
char* env_var_str = NULL;
/* Some versions of MinGW don't expose `_dupenv_s` */
#if defined(UHD_PLATFORM_WIN32) && !defined(__MINGW32__)
size_t len;
errno_t err = _dupenv_s(&env_var_str, &len, var_name.c_str());
if ((not err) and (env_var_str != NULL))
env_result = std::string(env_var_str);
free(env_var_str);
#else
env_var_str = std::getenv(var_name.c_str());
if (env_var_str != NULL)
env_result = std::string(env_var_str);
#endif
return env_result;
}
/*! Get a vector of paths from an environment variable.
*
* Reads an environment variable, which should contain a list of paths, and
* returns a vector of those paths in the form of strings.
*
* \param var_name The environment variable name to read.
* \returns The vector of paths from the environment variable.
*/
static std::vector<std::string> get_env_paths(const std::string& var_name)
{
#ifdef UHD_PLATFORM_WIN32
static const std::string env_path_sep = ";";
#else
static const std::string env_path_sep = ":";
#endif /*UHD_PLATFORM_WIN32*/
#define path_tokenizer(inp) \
boost::tokenizer<boost::char_separator<char>>( \
inp, boost::char_separator<char>(env_path_sep.c_str()))
std::string var_value = get_env_var(var_name);
std::vector<std::string> paths;
// convert to full filesystem path, filter blank paths
if (var_value.empty())
return paths;
for (const std::string& path_string : path_tokenizer(var_value)) {
if (path_string.empty())
continue;
paths.push_back(fs::system_complete(path_string).string());
}
return paths;
}
#ifndef UHD_PLATFORM_WIN32
// NOTE: This could be replaced by path_expandvars()
/*! Expand a tilde character to the $HOME path.
*
* The path passed to this function must start with the tilde character in order
* for this function to work properly. If it does not, it will simply return the
* original path. The $HOME environment variable must exist.
*
* \param path The path starting with the tilde character
* \returns The same path with the tilde expanded to contents of $HOME.
*/
static std::string expand_home_directory(std::string path)
{
boost::trim(path);
if (path.empty() || (path[0] != '~')) {
return path;
}
std::string user_home_path = get_env_var("HOME");
path.replace(0, 1, user_home_path);
return path;
}
#endif
fs::path uhd::get_xdg_data_home()
{
std::string xdg_data_home_str = get_env_var("XDG_DATA_HOME", "");
fs::path xdg_data_home(xdg_data_home_str);
if (!xdg_data_home_str.empty()) {
return fs::path(xdg_data_home_str);
}
#ifdef UHD_PLATFORM_WIN32
const std::string localappdata = get_env_var("LOCALAPPDATA", "");
if (!localappdata.empty()) {
return fs::path(localappdata);
}
const std::string appdata = get_env_var("APPDATA", "");
if (!appdata.empty()) {
return fs::path(appdata);
}
#endif
const std::string home = get_env_var("HOME", "");
if (home.empty()) {
#ifdef UHD_PLATFORM_WIN32
const std::string err_msg =
"get_xdg_data_home(): Unable to find \%HOME\%, \%XDG_DATA_HOME\%, "
"\%LOCALAPPDATA\% or \%APPDATA\%.";
#else
const std::string err_msg =
"get_xdg_data_home(): Unable to find $HOME or $XDG_DATA_HOME.";
#endif
throw uhd::runtime_error(err_msg);
}
return fs::path(home) / ".local" / "share";
}
fs::path uhd::get_xdg_config_home()
{
std::string xdg_config_home_str = get_env_var("XDG_CONFIG_HOME", "");
fs::path xdg_config_home(xdg_config_home_str);
if (!xdg_config_home_str.empty()) {
return fs::path(xdg_config_home_str);
}
#ifdef UHD_PLATFORM_WIN32
const std::string localappdata = get_env_var("LOCALAPPDATA", "");
if (!localappdata.empty()) {
return fs::path(localappdata);
}
const std::string appdata = get_env_var("APPDATA", "");
if (!appdata.empty()) {
return fs::path(appdata);
}
#endif
const std::string home = get_env_var("HOME", "");
if (home.empty()) {
#ifdef UHD_PLATFORM_WIN32
const std::string err_msg =
"get_xdg_config_home(): Unable to find \%HOME\%, \%XDG_CONFIG_HOME\%, "
"\%LOCALAPPDATA\% or \%APPDATA\%.";
#else
const std::string err_msg =
"get_xdg_config_home(): Unable to find $HOME or $XDG_CONFIG_HOME.";
#endif
throw uhd::runtime_error(err_msg);
}
return fs::path(home) / ".config";
}
fs::path uhd::get_legacy_config_home()
{
#ifdef UHD_PLATFORM_WIN32
const std::string localappdata = get_env_var("LOCALAPPDATA", "");
if (!localappdata.empty()) {
return fs::path(localappdata) / ".uhd";
}
const std::string appdata = get_env_var("APPDATA", "");
if (!appdata.empty()) {
return fs::path(appdata) / ".uhd";
}
#endif
const std::string home = get_env_var("HOME", "");
if (home.empty()) {
throw uhd::runtime_error("Unable to find $HOME.");
}
return fs::path(home) / ".uhd";
}
/***********************************************************************
* Implement the functions in paths.hpp
**********************************************************************/
std::string uhd::get_tmp_path(void)
{
const char* tmp_path = NULL;
// try the official uhd temp path environment variable
tmp_path = std::getenv("UHD_TEMP_PATH");
if (tmp_path != NULL)
return tmp_path;
// try the windows function if available
#ifdef USE_GET_TEMP_PATH
char lpBuffer[2048];
if (GetTempPath(sizeof(lpBuffer), lpBuffer))
return lpBuffer;
#endif
// try windows environment variables
tmp_path = std::getenv("TMP");
if (tmp_path != NULL)
return tmp_path;
tmp_path = std::getenv("TEMP");
if (tmp_path != NULL)
return tmp_path;
// try the stdio define if available
#ifdef P_tmpdir
return P_tmpdir;
#else
// try unix environment variables
tmp_path = std::getenv("TMPDIR");
if (tmp_path != NULL)
return tmp_path;
// give up and use the unix default
return "/tmp";
#endif
}
// Only used for deprecated CSV file loader. Delete this once CSV support is
// removed.
std::string uhd::get_appdata_path(void)
{
const std::string uhdcalib_path = get_env_var("UHD_CONFIG_DIR");
if (not uhdcalib_path.empty()) {
UHD_LOG_WARNING("UHD",
"The environment variable UHD_CONFIG_DIR is deprecated. Refer to "
"https://files.ettus.com/manual/page_calibration.html for how to store "
"calibration data.");
return uhdcalib_path;
}
const std::string appdata_path = get_env_var("APPDATA");
if (not appdata_path.empty())
return appdata_path;
const std::string home_path = get_env_var("HOME");
if (not home_path.empty())
return home_path;
return uhd::get_tmp_path();
}
#if BOOST_VERSION >= 106100
std::string uhd::get_pkg_path(void)
{
fs::path pkg_path = fs::path(uhd::get_lib_path()).parent_path().lexically_normal();
return get_env_var("UHD_PKG_PATH", pkg_path.string());
}
std::string uhd::get_lib_path(void)
{
fs::path runtime_libfile_path = boost::dll::this_line_location();
//Normalize before decomposing path so result is reliable
fs::path lib_path = runtime_libfile_path.lexically_normal().parent_path();
return lib_path.string();
}
#else
std::string uhd::get_pkg_path(void)
{
return get_env_var("UHD_PKG_PATH", UHD_PKG_PATH);
}
std::string uhd::get_lib_path(void)
{
fs::path lib_path = fs::path(uhd::get_pkg_path()) / UHD_LIB_DIR;
return lib_path.string();
}
#endif
std::string uhd::get_cal_data_path(void)
{
// The easy case: User has set the environment variable
const std::string uhdcalib_path = get_env_var(UHD_CAL_DATA_PATH_VAR);
if (not uhdcalib_path.empty()) {
return uhdcalib_path;
}
// If not, we use the default location
const fs::path cal_data_path = get_xdg_data_home() / "uhd" / "cal";
return cal_data_path.string();
}
std::vector<fs::path> uhd::get_module_paths(void)
{
std::vector<fs::path> paths;
std::vector<std::string> env_paths = get_env_paths("UHD_MODULE_PATH");
for (std::string& str_path : env_paths) {
paths.push_back(str_path);
}
paths.push_back(fs::path(uhd::get_lib_path()) / "uhd" / "modules");
paths.push_back(fs::path(uhd::get_pkg_path()) / "share" / "uhd" / "modules");
return paths;
}
#ifdef UHD_PLATFORM_WIN32
# include <windows.h>
/*!
* On Windows, query the system registry for the UHD images install path.
* If the key isn't found in the registry, an empty string is returned.
* \param registry_key_path The registry key to look for.
* \return The images path, formatted for windows.
*/
std::string _get_images_path_from_registry(const std::string& registry_key_path)
{
std::smatch reg_key_match;
// If a substring in the search path is enclosed in [] (square brackets) then it is
// interpreted as a registry path
if (not std::regex_search(registry_key_path,
reg_key_match,
std::regex("\\[(.+)\\](.*)", std::regex::icase)))
return std::string();
std::string reg_key_path =
std::string(reg_key_match[1].first, reg_key_match[1].second);
std::string path_suffix =
std::string(reg_key_match[2].first, reg_key_match[2].second);
// Split the registry path into parent, key-path and value.
std::smatch reg_parent_match;
if (not std::regex_search(reg_key_path,
reg_parent_match,
std::regex("^(.+?)\\\\(.+)\\\\(.+)$", std::regex::icase)))
return std::string();
std::string reg_parent =
std::string(reg_parent_match[1].first, reg_parent_match[1].second);
std::string reg_path =
std::string(reg_parent_match[2].first, reg_parent_match[2].second);
std::string reg_val_name =
std::string(reg_parent_match[3].first, reg_parent_match[3].second);
HKEY hkey_parent = HKEY_LOCAL_MACHINE;
if (reg_parent == "HKEY_LOCAL_MACHINE")
hkey_parent = HKEY_LOCAL_MACHINE;
else if (reg_parent == "HKEY_CURRENT_USER")
hkey_parent = HKEY_CURRENT_USER;
else if (reg_parent == "HKEY_CLASSES_ROOT")
hkey_parent = HKEY_CLASSES_ROOT;
else if (reg_parent == "HKEY_CURRENT_CONFIG")
hkey_parent = HKEY_CURRENT_CONFIG;
else if (reg_parent == "HKEY_USERS")
hkey_parent = HKEY_CURRENT_USER;
TCHAR value_buff[1024];
DWORD value_buff_size = 1024 * sizeof(TCHAR);
// Get a handle to the key location
HKEY hkey_location;
if (RegOpenKeyExA(hkey_parent, reg_path.c_str(), 0, KEY_QUERY_VALUE, &hkey_location)
!= ERROR_SUCCESS)
return std::string();
// Query key value
DWORD dw_type = REG_SZ;
if (RegQueryValueExA(hkey_location,
reg_val_name.c_str(),
NULL,
&dw_type,
(LPBYTE)value_buff,
&value_buff_size)
== ERROR_SUCCESS) {
RegCloseKey(hkey_location);
if (value_buff_size >= 1024 * sizeof(TCHAR)) {
return std::string();
} else {
std::string return_value(value_buff,
value_buff_size - 1); // value_buff_size includes the null terminator
return_value += path_suffix;
return return_value;
}
} else {
return std::string();
}
}
#endif /*UHD_PLATFORM_WIN32*/
std::string uhd::get_images_dir(const std::string& search_paths)
{
/* This function will check for the existence of directories in this
* order:
*
* 1) `UHD_IMAGES_DIR` environment variable
* 2) Any paths passed to this function via `search_paths' (may contain
* Windows registry keys)
* 3) `UHD package path` / share / uhd / images
*/
std::string possible_dir;
/* We will start by looking for a path indicated by the `UHD_IMAGES_DIR`
* environment variable. */
std::vector<std::string> env_paths = get_env_paths("UHD_IMAGES_DIR");
for (auto possible_dir : env_paths) {
if (fs::is_directory(fs::path(possible_dir))) {
return possible_dir;
}
}
/* On Windows systems, we may need to modify the `search_paths` parameter
* (see below). Making a local copy for const correctness. */
std::string _search_paths = search_paths;
#ifdef UHD_IMAGES_DIR_WINREG_KEY
_search_paths = std::string(STR(UHD_IMAGES_DIR_WINREG_KEY)) + "," + search_paths;
#endif
/* Now we will parse and attempt to qualify the paths in the `search_paths`
* parameter. If this is Windows, we will check the system registry for
* these strings. */
if (!_search_paths.empty()) {
std::vector<std::string> search_paths_vector;
boost::split(search_paths_vector, _search_paths, boost::is_any_of(",;"));
for (std::string& search_path : search_paths_vector) {
boost::algorithm::trim(search_path);
if (search_path.empty())
continue;
#ifdef UHD_PLATFORM_WIN32
possible_dir = _get_images_path_from_registry(search_path);
if (possible_dir.empty()) {
// Could not read from the registry due to missing key, invalid
// values, etc Just use the search path. The is_directory check
// will fail if this is a registry path and we will move on to
// the next item in the list.
possible_dir = search_path;
}
#else
possible_dir = expand_home_directory(search_path);
#endif
if (fs::is_directory(fs::path(possible_dir))) {
return possible_dir;
}
}
}
/* Finally, check for the default UHD images installation path. */
fs::path pkg_path = fs::path(uhd::get_pkg_path()) / "share" / "uhd" / "images";
if (fs::is_directory(pkg_path)) {
return pkg_path.string();
} else {
/* No luck. Return an empty string. */
return std::string("");
}
}
std::string uhd::find_image_path(
const std::string& image_name, const std::string& search_paths)
{
/* If a path was provided on the command-line or as a hint from the caller,
* we default to that. */
if (fs::exists(image_name)) {
return fs::system_complete(image_name).string();
}
/* Otherwise, look for the image in the images directory. */
std::string images_dir = get_images_dir(search_paths);
if (!images_dir.empty()) {
fs::path image_path = fs::path(images_dir) / image_name;
if (fs::exists(image_path)) {
return image_path.string();
} else {
throw uhd::io_error("Could not find the image '" + image_name
+ "' in the image directory " + images_dir
+ "\nFor more information regarding image paths, please "
"refer to the UHD manual.");
}
}
/* If we made it this far, then we didn't find anything. */
images_dir = "<no images directory located>";
throw uhd::io_error("Could not find path for image: " + image_name + "\n\n"
+ "Using images directory: " + images_dir + "\n\n"
+ "Set the environment variable 'UHD_IMAGES_DIR' appropriately or"
+ " follow the below instructions to download the images package."
+ "\n\n" + uhd::print_utility_error("uhd_images_downloader.py"));
}
std::string uhd::find_utility(const std::string& name)
{
return fs::path(fs::path(uhd::get_lib_path()) / "uhd" / "utils" / name).string();
}
std::string uhd::print_utility_error(const std::string& name, const std::string& args)
{
#ifdef UHD_PLATFORM_WIN32
return "As an Administrator, please run:\n\n\"" + find_utility(name) + args + "\"";
#else
return "Please run:\n\n \"" + find_utility(name) + (args.empty() ? "" : (" " + args))
+ "\"";
#endif
}
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