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🛠️🐜 Antkeeper superbuild with dependencies included https://antkeeper.com
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superbuild/modules/openal-soft/core/helpers.cpp

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#include "config.h"
#include "helpers.h"
#include <algorithm>
#include <cerrno>
#include <cstdarg>
#include <cstdlib>
#include <cstdio>
#include <cstring>
#include <mutex>
#include <limits>
#include <string>
#include <tuple>
#include "almalloc.h"
#include "alfstream.h"
#include "alnumeric.h"
#include "aloptional.h"
#include "alspan.h"
#include "alstring.h"
#include "logging.h"
#include "strutils.h"
#include "vector.h"
/* Mixing thread piority level */
int RTPrioLevel{1};
/* Allow reducing the process's RTTime limit for RTKit. */
bool AllowRTTimeLimit{true};
#ifdef _WIN32
#include <shlobj.h>
const PathNamePair &GetProcBinary()
{
static al::optional<PathNamePair> procbin;
if(procbin) return *procbin;
auto fullpath = al::vector<WCHAR>(256);
DWORD len{GetModuleFileNameW(nullptr, fullpath.data(), static_cast<DWORD>(fullpath.size()))};
while(len == fullpath.size())
{
fullpath.resize(fullpath.size() << 1);
len = GetModuleFileNameW(nullptr, fullpath.data(), static_cast<DWORD>(fullpath.size()));
}
if(len == 0)
{
ERR("Failed to get process name: error %lu\n", GetLastError());
procbin = al::make_optional<PathNamePair>();
return *procbin;
}
fullpath.resize(len);
if(fullpath.back() != 0)
fullpath.push_back(0);
auto sep = std::find(fullpath.rbegin()+1, fullpath.rend(), '\\');
sep = std::find(fullpath.rbegin()+1, sep, '/');
if(sep != fullpath.rend())
{
*sep = 0;
procbin = al::make_optional<PathNamePair>(wstr_to_utf8(fullpath.data()),
wstr_to_utf8(&*sep + 1));
}
else
procbin = al::make_optional<PathNamePair>(std::string{}, wstr_to_utf8(fullpath.data()));
TRACE("Got binary: %s, %s\n", procbin->path.c_str(), procbin->fname.c_str());
return *procbin;
}
namespace {
void DirectorySearch(const char *path, const char *ext, al::vector<std::string> *const results)
{
std::string pathstr{path};
pathstr += "\\*";
pathstr += ext;
TRACE("Searching %s\n", pathstr.c_str());
std::wstring wpath{utf8_to_wstr(pathstr.c_str())};
WIN32_FIND_DATAW fdata;
HANDLE hdl{FindFirstFileW(wpath.c_str(), &fdata)};
if(hdl == INVALID_HANDLE_VALUE) return;
const auto base = results->size();
do {
results->emplace_back();
std::string &str = results->back();
str = path;
str += '\\';
str += wstr_to_utf8(fdata.cFileName);
} while(FindNextFileW(hdl, &fdata));
FindClose(hdl);
const al::span<std::string> newlist{results->data()+base, results->size()-base};
std::sort(newlist.begin(), newlist.end());
for(const auto &name : newlist)
TRACE(" got %s\n", name.c_str());
}
} // namespace
al::vector<std::string> SearchDataFiles(const char *ext, const char *subdir)
{
auto is_slash = [](int c) noexcept -> int { return (c == '\\' || c == '/'); };
static std::mutex search_lock;
std::lock_guard<std::mutex> _{search_lock};
/* If the path is absolute, use it directly. */
al::vector<std::string> results;
if(isalpha(subdir[0]) && subdir[1] == ':' && is_slash(subdir[2]))
{
std::string path{subdir};
std::replace(path.begin(), path.end(), '/', '\\');
DirectorySearch(path.c_str(), ext, &results);
return results;
}
if(subdir[0] == '\\' && subdir[1] == '\\' && subdir[2] == '?' && subdir[3] == '\\')
{
DirectorySearch(subdir, ext, &results);
return results;
}
std::string path;
/* Search the app-local directory. */
if(auto localpath = al::getenv(L"ALSOFT_LOCAL_PATH"))
{
path = wstr_to_utf8(localpath->c_str());
if(is_slash(path.back()))
path.pop_back();
}
else if(WCHAR *cwdbuf{_wgetcwd(nullptr, 0)})
{
path = wstr_to_utf8(cwdbuf);
if(is_slash(path.back()))
path.pop_back();
free(cwdbuf);
}
else
path = ".";
std::replace(path.begin(), path.end(), '/', '\\');
DirectorySearch(path.c_str(), ext, &results);
/* Search the local and global data dirs. */
static const int ids[2]{ CSIDL_APPDATA, CSIDL_COMMON_APPDATA };
for(int id : ids)
{
WCHAR buffer[MAX_PATH];
if(SHGetSpecialFolderPathW(nullptr, buffer, id, FALSE) == FALSE)
continue;
path = wstr_to_utf8(buffer);
if(!is_slash(path.back()))
path += '\\';
path += subdir;
std::replace(path.begin(), path.end(), '/', '\\');
DirectorySearch(path.c_str(), ext, &results);
}
return results;
}
void SetRTPriority(void)
{
if(RTPrioLevel > 0)
{
if(!SetThreadPriority(GetCurrentThread(), THREAD_PRIORITY_TIME_CRITICAL))
ERR("Failed to set priority level for thread\n");
}
}
#else
#include <sys/types.h>
#include <unistd.h>
#include <dirent.h>
#ifdef __FreeBSD__
#include <sys/sysctl.h>
#endif
#ifdef __HAIKU__
#include <FindDirectory.h>
#endif
#ifdef HAVE_PROC_PIDPATH
#include <libproc.h>
#endif
#if defined(HAVE_PTHREAD_SETSCHEDPARAM) && !defined(__OpenBSD__)
#include <pthread.h>
#include <sched.h>
#endif
#ifdef HAVE_RTKIT
#include <sys/time.h>
#include <sys/resource.h>
#include "dbus_wrap.h"
#include "rtkit.h"
#ifndef RLIMIT_RTTIME
#define RLIMIT_RTTIME 15
#endif
#endif
const PathNamePair &GetProcBinary()
{
static al::optional<PathNamePair> procbin;
if(procbin) return *procbin;
al::vector<char> pathname;
#ifdef __FreeBSD__
size_t pathlen;
int mib[4] = { CTL_KERN, KERN_PROC, KERN_PROC_PATHNAME, -1 };
if(sysctl(mib, 4, nullptr, &pathlen, nullptr, 0) == -1)
WARN("Failed to sysctl kern.proc.pathname: %s\n", strerror(errno));
else
{
pathname.resize(pathlen + 1);
sysctl(mib, 4, pathname.data(), &pathlen, nullptr, 0);
pathname.resize(pathlen);
}
#endif
#ifdef HAVE_PROC_PIDPATH
if(pathname.empty())
{
char procpath[PROC_PIDPATHINFO_MAXSIZE]{};
const pid_t pid{getpid()};
if(proc_pidpath(pid, procpath, sizeof(procpath)) < 1)
ERR("proc_pidpath(%d, ...) failed: %s\n", pid, strerror(errno));
else
pathname.insert(pathname.end(), procpath, procpath+strlen(procpath));
}
#endif
#ifdef __HAIKU__
if(pathname.empty())
{
char procpath[PATH_MAX];
if(find_path(B_APP_IMAGE_SYMBOL, B_FIND_PATH_IMAGE_PATH, NULL, procpath, sizeof(procpath)) == B_OK)
pathname.insert(pathname.end(), procpath, procpath+strlen(procpath));
}
#endif
#ifndef __SWITCH__
if(pathname.empty())
{
static const char SelfLinkNames[][32]{
"/proc/self/exe",
"/proc/self/file",
"/proc/curproc/exe",
"/proc/curproc/file"
};
pathname.resize(256);
const char *selfname{};
ssize_t len{};
for(const char *name : SelfLinkNames)
{
selfname = name;
len = readlink(selfname, pathname.data(), pathname.size());
if(len >= 0 || errno != ENOENT) break;
}
while(len > 0 && static_cast<size_t>(len) == pathname.size())
{
pathname.resize(pathname.size() << 1);
len = readlink(selfname, pathname.data(), pathname.size());
}
if(len <= 0)
{
WARN("Failed to readlink %s: %s\n", selfname, strerror(errno));
len = 0;
}
pathname.resize(static_cast<size_t>(len));
}
#endif
while(!pathname.empty() && pathname.back() == 0)
pathname.pop_back();
auto sep = std::find(pathname.crbegin(), pathname.crend(), '/');
if(sep != pathname.crend())
procbin = al::make_optional<PathNamePair>(std::string(pathname.cbegin(), sep.base()-1),
std::string(sep.base(), pathname.cend()));
else
procbin = al::make_optional<PathNamePair>(std::string{},
std::string(pathname.cbegin(), pathname.cend()));
TRACE("Got binary: \"%s\", \"%s\"\n", procbin->path.c_str(), procbin->fname.c_str());
return *procbin;
}
namespace {
void DirectorySearch(const char *path, const char *ext, al::vector<std::string> *const results)
{
TRACE("Searching %s for *%s\n", path, ext);
DIR *dir{opendir(path)};
if(!dir) return;
const auto base = results->size();
const size_t extlen{strlen(ext)};
while(struct dirent *dirent{readdir(dir)})
{
if(strcmp(dirent->d_name, ".") == 0 || strcmp(dirent->d_name, "..") == 0)
continue;
const size_t len{strlen(dirent->d_name)};
if(len <= extlen) continue;
if(al::strcasecmp(dirent->d_name+len-extlen, ext) != 0)
continue;
results->emplace_back();
std::string &str = results->back();
str = path;
if(str.back() != '/')
str.push_back('/');
str += dirent->d_name;
}
closedir(dir);
const al::span<std::string> newlist{results->data()+base, results->size()-base};
std::sort(newlist.begin(), newlist.end());
for(const auto &name : newlist)
TRACE(" got %s\n", name.c_str());
}
} // namespace
al::vector<std::string> SearchDataFiles(const char *ext, const char *subdir)
{
static std::mutex search_lock;
std::lock_guard<std::mutex> _{search_lock};
al::vector<std::string> results;
if(subdir[0] == '/')
{
DirectorySearch(subdir, ext, &results);
return results;
}
/* Search the app-local directory. */
if(auto localpath = al::getenv("ALSOFT_LOCAL_PATH"))
DirectorySearch(localpath->c_str(), ext, &results);
else
{
al::vector<char> cwdbuf(256);
while(!getcwd(cwdbuf.data(), cwdbuf.size()))
{
if(errno != ERANGE)
{
cwdbuf.clear();
break;
}
cwdbuf.resize(cwdbuf.size() << 1);
}
if(cwdbuf.empty())
DirectorySearch(".", ext, &results);
else
{
DirectorySearch(cwdbuf.data(), ext, &results);
cwdbuf.clear();
}
}
// Search local data dir
if(auto datapath = al::getenv("XDG_DATA_HOME"))
{
std::string &path = *datapath;
if(path.back() != '/')
path += '/';
path += subdir;
DirectorySearch(path.c_str(), ext, &results);
}
else if(auto homepath = al::getenv("HOME"))
{
std::string &path = *homepath;
if(path.back() == '/')
path.pop_back();
path += "/.local/share/";
path += subdir;
DirectorySearch(path.c_str(), ext, &results);
}
// Search global data dirs
std::string datadirs{al::getenv("XDG_DATA_DIRS").value_or("/usr/local/share/:/usr/share/")};
size_t curpos{0u};
while(curpos < datadirs.size())
{
size_t nextpos{datadirs.find(':', curpos)};
std::string path{(nextpos != std::string::npos) ?
datadirs.substr(curpos, nextpos++ - curpos) : datadirs.substr(curpos)};
curpos = nextpos;
if(path.empty()) continue;
if(path.back() != '/')
path += '/';
path += subdir;
DirectorySearch(path.c_str(), ext, &results);
}
#ifdef ALSOFT_INSTALL_DATADIR
// Search the installation data directory
{
std::string path{ALSOFT_INSTALL_DATADIR};
if(!path.empty())
{
if(path.back() != '/')
path += '/';
path += subdir;
DirectorySearch(path.c_str(), ext, &results);
}
}
#endif
return results;
}
namespace {
bool SetRTPriorityPthread(int prio)
{
int err{ENOTSUP};
#if defined(HAVE_PTHREAD_SETSCHEDPARAM) && !defined(__OpenBSD__)
/* Get the min and max priority for SCHED_RR. Limit the max priority to
* half, for now, to ensure the thread can't take the highest priority and
* go rogue.
*/
int rtmin{sched_get_priority_min(SCHED_RR)};
int rtmax{sched_get_priority_max(SCHED_RR)};
rtmax = (rtmax-rtmin)/2 + rtmin;
struct sched_param param{};
param.sched_priority = clampi(prio, rtmin, rtmax);
#ifdef SCHED_RESET_ON_FORK
err = pthread_setschedparam(pthread_self(), SCHED_RR|SCHED_RESET_ON_FORK, &param);
if(err == EINVAL)
#endif
err = pthread_setschedparam(pthread_self(), SCHED_RR, &param);
if(err == 0) return true;
#else
std::ignore = prio;
#endif
WARN("pthread_setschedparam failed: %s (%d)\n", std::strerror(err), err);
return false;
}
bool SetRTPriorityRTKit(int prio)
{
#ifdef HAVE_RTKIT
if(!HasDBus())
{
WARN("D-Bus not available\n");
return false;
}
dbus::Error error;
dbus::ConnectionPtr conn{dbus_bus_get(DBUS_BUS_SYSTEM, &error.get())};
if(!conn)
{
WARN("D-Bus connection failed with %s: %s\n", error->name, error->message);
return false;
}
/* Don't stupidly exit if the connection dies while doing this. */
dbus_connection_set_exit_on_disconnect(conn.get(), false);
int nicemin{};
int err{rtkit_get_min_nice_level(conn.get(), &nicemin)};
if(err == -ENOENT)
{
err = std::abs(err);
ERR("Could not query RTKit: %s (%d)\n", std::strerror(err), err);
return false;
}
int rtmax{rtkit_get_max_realtime_priority(conn.get())};
TRACE("Maximum real-time priority: %d, minimum niceness: %d\n", rtmax, nicemin);
auto limit_rttime = [](DBusConnection *c) -> int
{
using ulonglong = unsigned long long;
long long maxrttime{rtkit_get_rttime_usec_max(c)};
if(maxrttime <= 0) return static_cast<int>(std::abs(maxrttime));
const ulonglong umaxtime{static_cast<ulonglong>(maxrttime)};
struct rlimit rlim{};
if(getrlimit(RLIMIT_RTTIME, &rlim) != 0)
return errno;
TRACE("RTTime max: %llu (hard: %llu, soft: %llu)\n", umaxtime, ulonglong{rlim.rlim_max},
ulonglong{rlim.rlim_cur});
if(rlim.rlim_max > umaxtime)
{
rlim.rlim_max = static_cast<rlim_t>(umaxtime);
rlim.rlim_cur = std::min(rlim.rlim_cur, rlim.rlim_max);
if(setrlimit(RLIMIT_RTTIME, &rlim) != 0)
return errno;
}
return 0;
};
if(rtmax > 0)
{
if(AllowRTTimeLimit)
{
err = limit_rttime(conn.get());
if(err != 0)
WARN("Failed to set RLIMIT_RTTIME for RTKit: %s (%d)\n",
std::strerror(err), err);
}
/* Limit the maximum real-time priority to half. */
rtmax = (rtmax+1)/2;
prio = clampi(prio, 1, rtmax);
TRACE("Making real-time with priority %d (max: %d)\n", prio, rtmax);
err = rtkit_make_realtime(conn.get(), 0, prio);
if(err == 0) return true;
err = std::abs(err);
WARN("Failed to set real-time priority: %s (%d)\n", std::strerror(err), err);
}
/* Don't try to set the niceness for non-Linux systems. Standard POSIX has
* niceness as a per-process attribute, while the intent here is for the
* audio processing thread only to get a priority boost. Currently only
* Linux is known to have per-thread niceness.
*/
#ifdef __linux__
if(nicemin < 0)
{
TRACE("Making high priority with niceness %d\n", nicemin);
err = rtkit_make_high_priority(conn.get(), 0, nicemin);
if(err == 0) return true;
err = std::abs(err);
WARN("Failed to set high priority: %s (%d)\n", std::strerror(err), err);
}
#endif /* __linux__ */
#else
std::ignore = prio;
WARN("D-Bus not supported\n");
#endif
return false;
}
} // namespace
void SetRTPriority()
{
if(RTPrioLevel <= 0)
return;
if(SetRTPriorityPthread(RTPrioLevel))
return;
if(SetRTPriorityRTKit(RTPrioLevel))
return;
}
#endif