#include <libavformat/avio.h>
}
#include <boost/algorithm/string.hpp>
-#include <boost/foreach.hpp>
#include <boost/regex.hpp>
#if BOOST_VERSION >= 106100
#include <boost/dll/runtime_symbol_info.hpp>
using std::cout;
using std::runtime_error;
using std::map;
-using boost::shared_ptr;
+using std::shared_ptr;
using boost::optional;
-using boost::function;
+using std::function;
/** @param s Number of seconds to sleep for */
void
boost::filesystem::path
directory_containing_executable ()
{
-#if BOOST_VERSION >= 106100
return boost::dll::program_location().parent_path();
-#else
- uint32_t size = 1024;
- char buffer[size];
- if (_NSGetExecutablePath (buffer, &size)) {
- throw runtime_error ("_NSGetExecutablePath failed");
- }
-
- boost::filesystem::path path (buffer);
- path = boost::filesystem::canonical (path);
- return path.parent_path ();
-#endif
}
boost::filesystem::path
-shared_path ()
+resources_path ()
{
return directory_containing_executable().parent_path() / "Resources";
}
+boost::filesystem::path
+xsd_path ()
+{
+ return resources_path() / "xsd";
+}
+
+
+boost::filesystem::path
+tags_path ()
+{
+ return resources_path() / "tags";
+}
+
+
void
run_ffprobe (boost::filesystem::path content, boost::filesystem::path out)
{
void
start_tool (string executable, string app)
{
- boost::filesystem::path batch = directory_containing_executable();
- batch = batch.parent_path (); // MacOS
- batch = batch.parent_path (); // Contents
- batch = batch.parent_path (); // DCP-o-matic.app
- batch = batch.parent_path (); // Applications
- batch /= app;
- batch /= "Contents";
- batch /= "MacOS";
- batch /= executable;
+ boost::filesystem::path exe_path = directory_containing_executable();
+ exe_path = exe_path.parent_path (); // Contents
+ exe_path = exe_path.parent_path (); // DCP-o-matic 2.app
+ exe_path = exe_path.parent_path (); // Applications
+ exe_path /= app;
+ exe_path /= "Contents";
+ exe_path /= "MacOS";
+ exe_path /= executable;
pid_t pid = fork ();
if (pid == 0) {
- int const r = system (batch.string().c_str());
+ LOG_GENERAL ("start_tool %1 %2 with path %3", executable, app, exe_path.string());
+ int const r = system (exe_path.string().c_str());
exit (WEXITSTATUS (r));
+ } else if (pid == -1) {
+ LOG_ERROR_NC("Fork failed in start_tool");
}
}
return getenv("HOME");
}
-string
-command_and_read (string cmd)
-{
- return "";
-}
-
/** @return true if this process is a 32-bit one running on a 64-bit-capable OS */
bool
running_32_on_64 ()
{
void const* str = CFDictionaryGetValue (description, kDADiskDescriptionDeviceVendorKey);
if (!str) {
- return optional<string>();
+ return {};
+ }
+
+ auto c_str = CFStringGetCStringPtr ((CFStringRef) str, kCFStringEncodingUTF8);
+ if (!c_str) {
+ return {};
}
- string s = CFStringGetCStringPtr ((CFStringRef) str, kCFStringEncodingUTF8);
+ string s (c_str);
boost::algorithm::trim (s);
return s;
}
{
void const* str = CFDictionaryGetValue (description, kDADiskDescriptionDeviceModelKey);
if (!str) {
- return optional<string>();
+ return {};
+ }
+
+ auto c_str = CFStringGetCStringPtr ((CFStringRef) str, kCFStringEncodingUTF8);
+ if (!c_str) {
+ return {};
}
- string s = CFStringGetCStringPtr ((CFStringRef) str, kCFStringEncodingUTF8);
+ string s (c_str);
boost::algorithm::trim (s);
return s;
}
void const* str = CFDictionaryGetValue (description, kDADiskDescriptionMediaPathKey);
if (!str) {
- LOG_DISK_NC("There is no MediaPathKey");
- return optional<MediaPath>();
+ LOG_DISK_NC("There is no MediaPathKey (no dictionary value)");
+ return {};
+ }
+
+ auto path_key_cstr = CFStringGetCStringPtr((CFStringRef) str, kCFStringEncodingUTF8);
+ if (!path_key_cstr) {
+ LOG_DISK_NC("There is no MediaPathKey (no cstring)");
+ return {};
}
- string path(CFStringGetCStringPtr((CFStringRef) str, kCFStringEncodingUTF8));
+ string path(path_key_cstr);
LOG_DISK("MediaPathKey is %1", path);
if (path.find("/IOHDIXController") != string::npos) {
/* This is a disk image, so we completely ignore it */
LOG_DISK_NC("Ignoring this as it seems to be a disk image");
- return optional<MediaPath>();
+ return {};
}
MediaPath mp;
} else if (starts_with(path, "IOService:")) {
mp.real = false;
} else {
- return optional<MediaPath>();
+ return {};
}
vector<string> bits;
split(bits, path, boost::is_any_of("/"));
- BOOST_FOREACH (string i, bits) {
+ for (auto i: bits) {
if (starts_with(i, "PRT")) {
mp.prt = i;
}
static optional<boost::filesystem::path>
mount_point (CFDictionaryRef& description)
{
- CFURLRef volume_path_key = (CFURLRef) CFDictionaryGetValue (description, kDADiskDescriptionVolumePathKey);
+ auto volume_path_key = (CFURLRef) CFDictionaryGetValue (description, kDADiskDescriptionVolumePathKey);
+ if (!volume_path_key) {
+ return {};
+ }
+
char mount_path_buffer[1024];
if (!CFURLGetFileSystemRepresentation(volume_path_key, false, (UInt8 *) mount_path_buffer, sizeof(mount_path_buffer))) {
- return boost::optional<boost::filesystem::path>();
+ return {};
}
return boost::filesystem::path(mount_path_buffer);
}
static void
disk_appeared (DADiskRef disk, void* context)
{
- const char* bsd_name = DADiskGetBSDName (disk);
+ auto bsd_name = DADiskGetBSDName (disk);
if (!bsd_name) {
+ LOG_DISK_NC("Disk with no BSDName appeared");
return;
}
LOG_DISK("%1 appeared", bsd_name);
Disk this_disk;
this_disk.mount_point = string("/dev/") + bsd_name;
+ LOG_DISK("Mount point is %1", this_disk.mount_point);
CFDictionaryRef description = DADiskCopyDescription (disk);
this_disk.model = get_model (description);
LOG_DISK("Vendor/model: %1 %2", this_disk.vendor.get_value_or("[none]"), this_disk.model.get_value_or("[none]"));
- optional<MediaPath> media_path = analyse_media_path (description);
+ auto media_path = analyse_media_path (description);
if (!media_path) {
LOG_DISK("Finding media path for %1 failed", bsd_name);
return;
this_disk.real = media_path->real;
this_disk.prt = media_path->prt;
this_disk.whole = is_whole_drive (disk);
- optional<boost::filesystem::path> mp = mount_point (description);
+ auto mp = mount_point (description);
if (mp) {
this_disk.mount_points.push_back (*mp);
}
mp ? ("mounted at " + mp->string()) : "unmounted"
);
- CFNumberGetValue ((CFNumberRef) CFDictionaryGetValue (description, kDADiskDescriptionMediaSizeKey), kCFNumberLongType, &this_disk.size);
+ auto media_size_cstr = CFDictionaryGetValue (description, kDADiskDescriptionMediaSizeKey);
+ if (!media_size_cstr) {
+ LOG_DISK_NC("Could not read media size");
+ return;
+ }
+
+ CFNumberGetValue ((CFNumberRef) media_size_cstr, kCFNumberLongType, &this_disk.size);
CFRelease (description);
reinterpret_cast<vector<Disk>*>(context)->push_back(this_disk);
DASessionRef session = DASessionCreate(kCFAllocatorDefault);
if (!session) {
- return vector<Drive>();
+ return {};
}
DARegisterDiskAppearedCallback (session, NULL, disk_appeared, &disks);
CFRelease(session);
/* Mark disks containing mounted partitions as themselves mounted */
- BOOST_FOREACH (Disk& i, disks) {
+ for (auto& i: disks) {
if (!i.whole) {
continue;
}
- BOOST_FOREACH (Disk& j, disks) {
+ for (auto& j: disks) {
if (!j.mount_points.empty() && starts_with(j.mount_point, i.mount_point)) {
LOG_DISK("Marking %1 as mounted because %2 is", i.mount_point, j.mount_point);
std::copy(j.mount_points.begin(), j.mount_points.end(), back_inserter(i.mount_points));
/* Make a map of the PRT codes and mount points of mounted, synthesized disks */
map<string, vector<boost::filesystem::path> > mounted_synths;
- BOOST_FOREACH (Disk& i, disks) {
+ for (auto& i: disks) {
if (!i.real && !i.mount_points.empty()) {
LOG_DISK("Found a mounted synth %1 with %2", i.mount_point, i.prt);
mounted_synths[i.prt] = i.mount_points;
}
/* Mark containers of those mounted synths as themselves mounted */
- BOOST_FOREACH (Disk& i, disks) {
+ for (auto& i: disks) {
if (i.real) {
- map<string, vector<boost::filesystem::path> >::const_iterator j = mounted_synths.find(i.prt);
+ auto j = mounted_synths.find(i.prt);
if (j != mounted_synths.end()) {
LOG_DISK("Marking %1 (%2) as mounted because it contains a mounted synth", i.mount_point, i.prt);
std::copy(j->second.begin(), j->second.end(), back_inserter(i.mount_points));
}
vector<Drive> drives;
- BOOST_FOREACH (Disk& i, disks) {
+ for (auto& i: disks) {
if (i.whole) {
/* A whole disk that is not a container for a mounted synth */
drives.push_back(Drive(i.mount_point, i.mount_points, i.size, i.vendor, i.model));
}
-void done_callback(DADiskRef disk, DADissenterRef dissenter, void* context)
+void done_callback(DADiskRef, DADissenterRef dissenter, void* context)
{
LOG_DISK_NC("Unmount finished");
bool* success = reinterpret_cast<bool*> (context);
TransformProcessType (&serial, kProcessTransformToForegroundApplication);
}
+
+string
+dcpomatic::get_process_id ()
+{
+ return dcp::raw_convert<string>(getpid());
+}
+
+
+boost::filesystem::path
+fix_long_path (boost::filesystem::path path)
+{
+ return path;
+}