#include "pulse.h" #include #include #include #include #include struct Command { int (*fn)(PulseClient&, int, char*[]); Range args; }; struct Color { Color() { if (isatty(fileno(stdout))) { name = "\033[1m"; reset = "\033[0m"; over9000 = "\033[7;31m"; veryhigh = "\033[31m"; high = "\033[35m"; mid = "\033[33m"; low = "\033[32m"; verylow = "\033[34m"; mute = "\033[1;31m"; } else { name = ""; reset = ""; over9000 = ""; veryhigh = ""; high = ""; mid = ""; low = ""; verylow = ""; mute = ""; } } const char* name; const char* reset; // Volume levels const char* over9000; const char* veryhigh; const char* high; const char* mid; const char* low; const char* verylow; const char* mute; }; static enum DeviceType opt_devtype; static bool opt_listrestrict; static bool opt_short; static const char* opt_action; static const char* opt_device; static const char* opt_card; static bool opt_notify; static long opt_maxvolume; static Color color; static int xstrtol(const char *str, long *out) { char *end = nullptr; if (str == nullptr || *str == '\0') return -1; errno = 0; *out = strtol(str, &end, 10); if (errno || str == end || (end && *end)) return -1; return 0; } static const char* type_to_string(enum DeviceType t) { switch (t) { case DEVTYPE_SINK: return "sink"; case DEVTYPE_SOURCE: return "source"; case DEVTYPE_SINK_INPUT: return "sink-input"; case DEVTYPE_SOURCE_OUTPUT: return "source-output"; } /* impossibiru! */ throw std::out_of_range("device type out of range"); } static enum DeviceType string_to_devtype_or_die(const char* str) { static std::map typemap{ { "sink", DEVTYPE_SINK }, { "source", DEVTYPE_SOURCE }, { "sink-input", DEVTYPE_SINK_INPUT }, { "source-output", DEVTYPE_SOURCE_OUTPUT }, }; try { return typemap.at(str); } catch(std::out_of_range) { errx(1, "error: Invalid device type specified: %s", str); } } static Device* string_to_device_or_die(PulseClient& ponymix, string arg, enum DeviceType type) { Device* device = ponymix.GetDevice(arg, type); if (device == nullptr) errx(1, "no match found for device: %s", arg.c_str()); return device; } static void Print(const Device& device) { if (opt_short) { printf("%s\t%d\t%s\t%s\n", type_to_string(device.Type()), device.Index(), device.Name().c_str(), device.Desc().c_str()); return; } const char *mute = device.Muted() ? " [Muted]" : ""; const char *volume_color; if (device.Volume() < 20) { volume_color = color.verylow; } else if (device.Volume() < 40) { volume_color = color.low; } else if (device.Volume() < 60) { volume_color = color.mid; } else if (device.Volume() < 80) { volume_color = color.high; } else if (device.Volume() <= 100) { volume_color = color.veryhigh; } else { volume_color = color.over9000; } printf("%s%s %d:%s %s\n" " %s\n" " Avg. Volume: %s%d%%%s%s%s%s\n", color.name, type_to_string(device.Type()), device.Index(), color.reset, device.Name().c_str(), device.Desc().c_str(), volume_color, device.Volume(), color.reset, color.mute, mute, color.reset); } static void Print(const Card& card) { if (opt_short) { printf("%s\n", card.Name().c_str()); return; } printf("%scard %d:%s %s\n" " Driver: %s\n" " Active Profile: %s\n", color.name, card.Index(), color.reset, card.Name().c_str(), card.Driver().c_str(), card.ActiveProfile().name.c_str()); } static void Print(const Profile& profile, bool active) { if (opt_short) { printf("%s\n", profile.name.c_str()); return; } const char* active_str = active ? " [active]" : ""; printf("%s%s%s%s%s%s\n" " %s\n", color.name, profile.name.c_str(), color.reset, color.low, active_str, color.reset, profile.desc.c_str()); } static int ShowDefaults(PulseClient& ponymix, int, char*[]) { const auto& info = ponymix.GetDefaults(); Print(*ponymix.GetSink(info.sink)); Print(*ponymix.GetSource(info.source)); return 0; } static int List(PulseClient& ponymix, int, char*[]) { if (opt_listrestrict) { for (const auto& d : ponymix.GetDevices(opt_devtype)) Print(d); return 0; } for (const auto& s : ponymix.GetSinks()) Print(s); for (const auto& s : ponymix.GetSources()) Print(s); for (const auto& s : ponymix.GetSinkInputs()) Print(s); for (const auto& s : ponymix.GetSourceOutputs()) Print(s); return 0; } static int ListCards(PulseClient& ponymix, int, char*[]) { const auto& cards = ponymix.GetCards(); for (const auto& c : cards) Print(c); return 0; } static Card* resolve_active_card_or_die(PulseClient& ponymix) { Card* card; if (opt_card == nullptr) { auto device = string_to_device_or_die(ponymix, opt_device, opt_devtype); card = ponymix.GetCard(*device); if (card == nullptr) errx(1, "error: no card found or selected."); } else { card = ponymix.GetCard(opt_card); if (card == nullptr) { errx(1, "error: no match found for card: %s", opt_card); } } return card; } static int ListProfiles(PulseClient& ponymix, int, char*[]) { auto card = resolve_active_card_or_die(ponymix); const auto& profiles = card->Profiles(); for (const auto& p : profiles) Print(p, p.name == card->ActiveProfile().name); return 0;} static int GetVolume(PulseClient& ponymix, int, char*[]) { auto device = string_to_device_or_die(ponymix, opt_device, opt_devtype); printf("%d\n", device->Volume()); return 0; } static int SetVolume(PulseClient& ponymix, int, char* argv[]) { auto device = string_to_device_or_die(ponymix, opt_device, opt_devtype); long volume; try { volume = std::stol(argv[0]); } catch (std::invalid_argument) { errx(1, "error: failed to convert string to integer: %s", argv[0]); } return !ponymix.SetVolume(*device, volume); } static int GetBalance(PulseClient& ponymix, int, char*[]) { auto device = string_to_device_or_die(ponymix, opt_device, opt_devtype); printf("%d\n", device->Balance()); return 0; } static int SetBalance(PulseClient& ponymix, int, char* argv[]) { auto device = string_to_device_or_die(ponymix, opt_device, opt_devtype); long balance; try { balance = std::stol(argv[0]); } catch (std::invalid_argument) { errx(1, "error: failed to convert string to integer: %s", argv[0]); } return !ponymix.SetBalance(*device, balance); } static int AdjBalance(PulseClient& ponymix, int, char* argv[]) { auto device = string_to_device_or_die(ponymix, opt_device, opt_devtype); long balance; try { balance = std::stol(argv[0]); } catch (std::invalid_argument) { errx(1, "error: failed to convert string to integer: %s", argv[0]); } return !ponymix.SetBalance(*device, device->Balance() + balance); } static int adj_volume(PulseClient& ponymix, bool (PulseClient::*adjust)(Device&, long int), char* argv[]) { auto device = string_to_device_or_die(ponymix, opt_device, opt_devtype); long delta; try { delta = std::stol(argv[0]); } catch (std::invalid_argument) { errx(1, "error: failed to convert string to integer: %s", argv[0]); } // Allow setting the volume over 100, but don't "clip" the level back down to // 100 on adjustment. ponymix.SetVolumeRange(0, std::max(device->Volume(), static_cast(opt_maxvolume))); return !(ponymix.*adjust)(*device, delta); } static int IncreaseVolume(PulseClient& ponymix, int, char* argv[]) { return adj_volume(ponymix, &PulseClient::IncreaseVolume, argv); } static int DecreaseVolume(PulseClient& ponymix, int, char* argv[]) { return adj_volume(ponymix, &PulseClient::DecreaseVolume, argv); } static int Mute(PulseClient& ponymix, int, char*[]) { auto device = string_to_device_or_die(ponymix, opt_device, opt_devtype); return !ponymix.SetMute(*device, true); } static int Unmute(PulseClient& ponymix, int, char*[]) { auto device = string_to_device_or_die(ponymix, opt_device, opt_devtype); return !ponymix.SetMute(*device, false); } static int ToggleMute(PulseClient& ponymix, int, char*[]) { auto device = string_to_device_or_die(ponymix, opt_device, opt_devtype); return !ponymix.SetMute(*device, !ponymix.IsMuted(*device)); } static int IsMuted(PulseClient& ponymix, int, char*[]) { auto device = string_to_device_or_die(ponymix, opt_device, opt_devtype); return !ponymix.IsMuted(*device); } static int SetDefault(PulseClient& ponymix, int, char*[]) { auto device = string_to_device_or_die(ponymix, opt_device, opt_devtype); return !ponymix.SetDefault(*device); } static int GetProfile(PulseClient& ponymix, int, char*[]) { auto card = resolve_active_card_or_die(ponymix); printf("%s\n", card->ActiveProfile().name.c_str()); return true; } static int SetProfile(PulseClient& ponymix, int, char* argv[]) { auto card = resolve_active_card_or_die(ponymix); return !ponymix.SetProfile(*card, argv[0]); } static int Move(PulseClient& ponymix, int, char* argv[]) { // this assignment is a lie. stfu g++ enum DeviceType target_devtype = opt_devtype; switch (opt_devtype) { case DEVTYPE_SOURCE: opt_devtype = DEVTYPE_SOURCE_OUTPUT; case DEVTYPE_SOURCE_OUTPUT: target_devtype = DEVTYPE_SOURCE; break; case DEVTYPE_SINK: opt_devtype = DEVTYPE_SINK_INPUT; case DEVTYPE_SINK_INPUT: target_devtype = DEVTYPE_SINK; break; } // Does this even work? auto source = string_to_device_or_die(ponymix, opt_device, opt_devtype); auto target = string_to_device_or_die(ponymix, argv[0], target_devtype); return !ponymix.Move(*source, *target); } static int Kill(PulseClient& ponymix, int, char*[]) { switch (opt_devtype) { case DEVTYPE_SOURCE: opt_devtype = DEVTYPE_SOURCE_OUTPUT; break; case DEVTYPE_SINK: opt_devtype = DEVTYPE_SINK_INPUT; break; default: break; } auto device = string_to_device_or_die(ponymix, opt_device, opt_devtype); return !ponymix.Kill(*device); } static int IsAvailable(PulseClient& ponymix, int, char*[]) { auto device = string_to_device_or_die(ponymix, opt_device, opt_devtype); return ponymix.Availability(*device) == Device::AVAILABLE_YES; } static bool endswith(const string& subject, const string& predicate) { if (subject.size() < predicate.size()) { return false; } return subject.compare(subject.size() - predicate.size(), predicate.size(), predicate) == 0; } static const std::pair& string_to_command( const char* str) { static std::map actionmap{ // command name function arg min arg max { "defaults", { ShowDefaults, { 0, 0 } } }, { "list", { List, { 0, 0 } } }, { "list-short", { List, { 0, 0 } } }, { "list-cards", { ListCards, { 0, 0 } } }, { "list-cards-short", { ListCards, { 0, 0 } } }, { "list-profiles", { ListProfiles, { 0, 0 } } }, { "list-profiles-short", { ListProfiles, { 0, 0 } } }, { "get-volume", { GetVolume, { 0, 0 } } }, { "set-volume", { SetVolume, { 1, 1 } } }, { "get-balance", { GetBalance, { 0, 0 } } }, { "set-balance", { SetBalance, { 1, 1 } } }, { "adj-balance", { AdjBalance, { 1, 1 } } }, { "increase", { IncreaseVolume, { 1, 1 } } }, { "decrease", { DecreaseVolume, { 1, 1 } } }, { "mute", { Mute, { 0, 0 } } }, { "unmute", { Unmute, { 0, 0 } } }, { "toggle", { ToggleMute, { 0, 0 } } }, { "is-muted", { IsMuted, { 0, 0 } } }, { "set-default", { SetDefault, { 0, 0 } } }, { "get-profile", { GetProfile, { 0, 0 } } }, { "set-profile", { SetProfile, { 1, 1 } } }, { "move", { Move, { 1, 1 } } }, { "kill", { Kill, { 0, 0 } } }, { "is-available", { IsAvailable, { 0, 0 } } }, }; const auto match = actionmap.lower_bound(str); if (match == actionmap.end()) { errx(1, "error: Invalid action specified: %s", str); } // Check for exact match if (match->first == str) { return *match; } // Match on prefix, ensure only a single match for (auto iter = match; iter != actionmap.end(); iter++) { if (iter->first.find(str) != 0) { if (iter == match) { errx(1, "error: Invalid action specified: %s", str); } else { break; } } if (iter != match) { auto i = match; string cand = i->first; i++; while (i->first.find(str) == 0) { cand += ", " + i->first; i++; } errx(1, "error: Ambiguous action specified: %s (%s)", str, cand.c_str()); } } return *match; } static void version() { execlp("ponysay", "ponysay", "-b", "", "ponymix " PONYMIX_VERSION, NULL); // Some people are pony haters. fputs("ponymix v" PONYMIX_VERSION "\n", stdout); exit(EXIT_SUCCESS); } static void usage() { printf("usage: %s [options] ...\n", program_invocation_short_name); fputs("\nOptions:\n" " -h, --help display this help and exit\n" " -V, --version display program version and exit\n\n" " -c, --card CARD target card (index or name)\n" " -d, --device DEVICE target device (index or name)\n" " -t, --devtype TYPE device type\n" " -N, --notify use libnotify to announce volume changes\n" " --max-volume VALUE use VALUE as max volume\n" " --short output brief (parseable) lists\n" " --source alias to -t source\n" " --input alias to -t source\n" " --sink alias to -t sink\n" " --output alias to -t sink\n" " --sink-input alias to -t sink-input\n" " --source-output alias to -t source-output\n", stdout); fputs("\nDevice Commands:\n" " help display this message\n" " defaults list default devices (default command)\n" " set-default set default device by ID\n" " list list available devices\n" " list-cards list available cards\n" " get-volume get volume for device\n" " set-volume VALUE set volume for device\n" " get-balance get balance for device\n" " set-balance VALUE set balance for device\n" " adj-balance VALUE increase or decrease balance for device\n" " increase VALUE increase volume\n", stdout); fputs(" decrease VALUE decrease volume\n" " mute mute device\n" " unmute unmute device\n" " toggle toggle mute\n" " is-muted check if muted\n" " is-available check if available\n", stdout); fputs("\nApplication Commands:\n" " move DEVICE move target device to DEVICE\n" " kill DEVICE kill target DEVICE\n", stdout); fputs("\nCard Commands:\n" " list-profiles list available profiles for a card\n" " get-profile get active profile for card\n" " set-profile PROFILE set profile for a card\n", stdout); exit(EXIT_SUCCESS); } static void error_wrong_args(const Command& cmd, const char* cmdname) { if (cmd.args.min == cmd.args.max) { errx(1, "error: %s takes exactly %d argument%c", cmdname, cmd.args.min, cmd.args.min == 1 ? '\0' : 's'); } else { errx(1, "error: %s takes %d to %d arguments\n", cmdname, cmd.args.min, cmd.args.max); } } static int CommandDispatch(PulseClient& ponymix, int argc, char *argv[]) { if (argc > 0) { opt_action = argv[0]; argv++; argc--; } if (strcmp(opt_action, "help") == 0) { usage(); return 0; } const auto& cmd = string_to_command(opt_action); if (!cmd.second.args.InRange(argc)) { error_wrong_args(cmd.second, cmd.first.c_str()); } if (endswith(cmd.first, string("-short"))) { opt_short = true; } return cmd.second.fn(ponymix, argc, argv); } bool parse_options(int argc, char** argv) { static const struct option opts[]{ { "card", required_argument, 0, 'c' }, { "device", required_argument, 0, 'd' }, { "help", no_argument, 0, 'h' }, { "notify", no_argument, 0, 'N' }, { "type", required_argument, 0, 't' }, { "version", no_argument, 0, 'V' }, { "sink", no_argument, 0, 0x100 }, { "output", no_argument, 0, 0x101 }, { "source", no_argument, 0, 0x102 }, { "input", no_argument, 0, 0x103 }, { "sink-input", no_argument, 0, 0x104 }, { "source-output", no_argument, 0, 0x105 }, { "max-volume", required_argument, 0, 0x106 }, { "short", no_argument, 0, 0x107 }, { 0, 0, 0, 0 }, }; for (;;) { int opt = getopt_long(argc, argv, "c:d:hNt:V", opts, nullptr); if (opt == -1) break; switch (opt) { case 'c': opt_card = optarg; break; case 'd': opt_device = optarg; break; case 'h': usage(); break; case 'N': opt_notify = true; break; case 't': opt_devtype = string_to_devtype_or_die(optarg); opt_listrestrict = true; break; case 'V': version(); break; case 0x100: case 0x101: opt_devtype = DEVTYPE_SINK; opt_listrestrict = true; break; case 0x102: case 0x103: opt_devtype = DEVTYPE_SOURCE; opt_listrestrict = true; break; case 0x104: opt_devtype = DEVTYPE_SINK_INPUT; opt_listrestrict = true; break; case 0x105: opt_devtype = DEVTYPE_SOURCE_OUTPUT; opt_listrestrict = true; break; case 0x106: if (xstrtol(optarg, &opt_maxvolume) < 0) { fprintf(stderr, "error: invalid max volume: %s: must be a positive integer\n", optarg); return false; } break; case 0x107: opt_short = true; break; default: return false; } } return true; } int main(int argc, char* argv[]) { PulseClient ponymix("ponymix"); ponymix.Populate(); // defaults. intentionally, we don't set a card -- only get // that on demand if a function needs it. ServerInfo defaults = ponymix.GetDefaults(); opt_action = "defaults"; opt_devtype = DEVTYPE_SINK; opt_device = defaults.sink.c_str(); opt_maxvolume = 100; if (!parse_options(argc, argv)) return 1; argc -= optind; argv += optind; try { #ifdef HAVE_NOTIFY if (opt_notify) { ponymix.EnableNotifications(new LibnotifyNotifier); } else #endif { ponymix.EnableNotifications(new CommandLineNotifier); } } catch (std::exception e) { fprintf(stderr, "failed to enable notifier\n"); } return CommandDispatch(ponymix, argc, argv); } // vim: set et ts=2 sw=2: