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|
#include <string.h>
#include <signal.h>
#include <unistd.h>
#include <errno.h>
#include <time.h>
#ifndef _WIN32
#include <sys/select.h>
#define MM_API __attribute__((visibility("default")))
#else
#define MM_API __attribute__((dllexport))
#endif
#define BACKEND_NAME "core"
#include "midimonster.h"
#include "config.h"
#include "backend.h"
#include "plugin.h"
/* Core-internal structures */
typedef struct /*_event_collection*/ {
size_t alloc;
size_t n;
channel** channel;
channel_value* value;
} event_collection;
typedef struct /*_mm_channel_mapping*/ {
channel* from;
size_t destinations;
channel** to;
} channel_mapping;
static struct {
//routing_hash is set up for 256 buckets
size_t entries[256];
channel_mapping* map[256];
event_collection pool[2];
event_collection* events;
} routing = {
.events = routing.pool
};
static size_t fds = 0;
static managed_fd* fd = NULL;
static volatile sig_atomic_t fd_set_dirty = 1;
static uint64_t global_timestamp = 0;
volatile static sig_atomic_t shutdown_requested = 0;
static void signal_handler(int signum){
shutdown_requested = 1;
}
static size_t routing_hash(channel* key){
uint64_t repr = (uint64_t) key;
//return 8bit hash for 256 buckets, not ideal but it works
return (repr ^ (repr >> 8) ^ (repr >> 16) ^ (repr >> 24) ^ (repr >> 32)) & 0xFF;
}
MM_API uint64_t mm_timestamp(){
return global_timestamp;
}
static void update_timestamp(){
#ifdef _WIN32
global_timestamp = GetTickCount();
#else
struct timespec current;
if(clock_gettime(CLOCK_MONOTONIC_COARSE, ¤t)){
fprintf(stderr, "Failed to update global timestamp, time-based processing for some backends may be impaired: %s\n", strerror(errno));
return;
}
global_timestamp = current.tv_sec * 1000 + current.tv_nsec / 1000000;
#endif
}
int mm_map_channel(channel* from, channel* to){
size_t u, m, bucket = routing_hash(from);
//find existing source mapping
for(u = 0; u < routing.entries[bucket]; u++){
if(routing.map[bucket][u].from == from){
break;
}
}
//create new entry
if(u == routing.entries[bucket]){
routing.map[bucket] = realloc(routing.map[bucket], (routing.entries[bucket] + 1) * sizeof(channel_mapping));
if(!routing.map[bucket]){
routing.entries[bucket] = 0;
fprintf(stderr, "Failed to allocate memory\n");
return 1;
}
memset(routing.map[bucket] + routing.entries[bucket], 0, sizeof(channel_mapping));
routing.entries[bucket]++;
routing.map[bucket][u].from = from;
}
//check whether the target is already mapped
for(m = 0; m < routing.map[bucket][u].destinations; m++){
if(routing.map[bucket][u].to[m] == to){
return 0;
}
}
//add a mapping target
routing.map[bucket][u].to = realloc(routing.map[bucket][u].to, (routing.map[bucket][u].destinations + 1) * sizeof(channel*));
if(!routing.map[bucket][u].to){
fprintf(stderr, "Failed to allocate memory\n");
routing.map[bucket][u].destinations = 0;
return 1;
}
routing.map[bucket][u].to[routing.map[bucket][u].destinations] = to;
routing.map[bucket][u].destinations++;
return 0;
}
static void routing_cleanup(){
size_t u, n;
for(u = 0; u < sizeof(routing.map) / sizeof(routing.map[0]); u++){
for(n = 0; n < routing.entries[u]; n++){
free(routing.map[u][n].to);
}
free(routing.map[u]);
routing.map[u] = NULL;
routing.entries[u] = 0;
}
for(u = 0; u < sizeof(routing.pool) / sizeof(routing.pool[0]); u++){
free(routing.pool[u].channel);
free(routing.pool[u].value);
routing.pool[u].alloc = 0;
}
}
MM_API int mm_manage_fd(int new_fd, char* back, int manage, void* impl){
backend* b = backend_match(back);
size_t u;
if(!b){
fprintf(stderr, "Unknown backend %s registered for managed fd\n", back);
return 1;
}
//find exact match
for(u = 0; u < fds; u++){
if(fd[u].fd == new_fd && fd[u].backend == b){
fd[u].impl = impl;
if(!manage){
fd[u].fd = -1;
fd[u].backend = NULL;
fd[u].impl = NULL;
fd_set_dirty = 1;
}
return 0;
}
}
if(!manage){
return 0;
}
//find free slot
for(u = 0; u < fds; u++){
if(fd[u].fd < 0){
break;
}
}
//if necessary expand
if(u == fds){
fd = realloc(fd, (fds + 1) * sizeof(managed_fd));
if(!fd){
fprintf(stderr, "Failed to allocate memory\n");
return 1;
}
fds++;
}
//store new fd
fd[u].fd = new_fd;
fd[u].backend = b;
fd[u].impl = impl;
fd_set_dirty = 1;
return 0;
}
static void fds_free(){
size_t u;
for(u = 0; u < fds; u++){
if(fd[u].fd >= 0){
close(fd[u].fd);
fd[u].fd = -1;
}
}
free(fd);
fds = 0;
fd = NULL;
}
MM_API int mm_channel_event(channel* c, channel_value v){
size_t u, p, bucket = routing_hash(c);
//find mapped channels
for(u = 0; u < routing.entries[bucket]; u++){
if(routing.map[bucket][u].from == c){
break;
}
}
if(u == routing.entries[bucket]){
//target-only channel
return 0;
}
//resize event structures to fit additional events
if(routing.events->n + routing.map[bucket][u].destinations >= routing.events->alloc){
routing.events->channel = realloc(routing.events->channel, (routing.events->alloc + routing.map[bucket][u].destinations) * sizeof(channel*));
routing.events->value = realloc(routing.events->value, (routing.events->alloc + routing.map[bucket][u].destinations) * sizeof(channel_value));
if(!routing.events->channel || !routing.events->value){
fprintf(stderr, "Failed to allocate memory\n");
routing.events->alloc = 0;
routing.events->n = 0;
return 1;
}
routing.events->alloc += routing.map[bucket][u].destinations;
}
//enqueue channel events
//FIXME this might lead to one channel being mentioned multiple times in an apply call
memcpy(routing.events->channel + routing.events->n, routing.map[bucket][u].to, routing.map[bucket][u].destinations * sizeof(channel*));
for(p = 0; p < routing.map[bucket][u].destinations; p++){
routing.events->value[routing.events->n + p] = v;
}
routing.events->n += routing.map[bucket][u].destinations;
return 0;
}
static void version(){
printf("MIDIMonster %s\n", MIDIMONSTER_VERSION);
}
static int usage(char* fn){
version();
fprintf(stderr, "Usage:\n");
fprintf(stderr, "\t%s <configfile>\n", fn);
return EXIT_FAILURE;
}
static fd_set fds_collect(int* max_fd){
size_t u = 0;
fd_set rv_fds;
if(max_fd){
*max_fd = -1;
}
DBGPF("Building selector set from %lu FDs registered to core\n", fds);
FD_ZERO(&rv_fds);
for(u = 0; u < fds; u++){
if(fd[u].fd >= 0){
FD_SET(fd[u].fd, &rv_fds);
if(max_fd){
*max_fd = max(*max_fd, fd[u].fd);
}
}
}
return rv_fds;
}
static int platform_initialize(){
#ifdef _WIN32
WSADATA wsa;
WORD version = MAKEWORD(2, 2);
if(WSAStartup(version, &wsa)){
return 1;
}
#endif
return 0;
}
static int platform_shutdown(){
#ifdef _WIN32
DWORD processes;
if(GetConsoleProcessList(&processes, 1) == 1){
fprintf(stderr, "\nMIDIMonster is the last process in this console, please press any key to exit\n");
HANDLE input = GetStdHandle(STD_INPUT_HANDLE);
SetConsoleMode(input, 0);
FlushConsoleInputBuffer(input);
WaitForSingleObject(input, INFINITE);
}
#endif
return 0;
}
static int args_parse(int argc, char** argv, char** cfg_file){
size_t u;
for(u = 1; u < argc; u++){
if(!strcmp(argv[u], "-v") || !strcmp(argv[u], "--version")){
version();
return 1;
}
else if(!strcmp(argv[u], "-i")){
if(!argv[u + 1]){
fprintf(stderr, "Missing instance override specification\n");
return 1;
}
if(config_add_override(override_instance, argv[u + 1])){
return 1;
}
u++;
}
else if(!strcmp(argv[u], "-b")){
if(!argv[u + 1]){
fprintf(stderr, "Missing backend override specification\n");
return 1;
}
if(config_add_override(override_backend, argv[u + 1])){
return 1;
}
u++;
}
else{
//if nothing else matches, it's probably the configuration file
*cfg_file = argv[u];
}
}
return 0;
}
static int core_process(size_t nfds, managed_fd* signaled_fds){
event_collection* secondary = NULL;
size_t u;
//run backend processing, collect events
DBGPF("%lu backend FDs signaled\n", nfds);
if(backends_handle(nfds, signaled_fds)){
return 1;
}
while(routing.events->n){
//swap primary and secondary event collectors
DBGPF("Swapping event collectors, %lu events in primary\n", routing.events->n);
for(u = 0; u < sizeof(routing.pool) / sizeof(routing.pool[0]); u++){
if(routing.events != routing.pool + u){
secondary = routing.events;
routing.events = routing.pool + u;
break;
}
}
//push collected events to target backends
if(secondary->n && backends_notify(secondary->n, secondary->channel, secondary->value)){
fprintf(stderr, "Backends failed to handle output\n");
return 1;
}
//reset the event count
secondary->n = 0;
}
return 0;
}
static int core_loop(){
fd_set all_fds, read_fds;
managed_fd* signaled_fds = NULL;
struct timeval tv;
int error, maxfd = -1;
size_t n, u;
#ifdef _WIN32
char* error_message = NULL;
#else
struct timespec ts;
#endif
FD_ZERO(&all_fds);
//process events
while(!shutdown_requested){
//rebuild fd set if necessary
if(fd_set_dirty || !signaled_fds){
all_fds = fds_collect(&maxfd);
signaled_fds = realloc(signaled_fds, fds * sizeof(managed_fd));
if(!signaled_fds){
fprintf(stderr, "Failed to allocate memory\n");
return 1;
}
fd_set_dirty = 0;
}
//wait for & translate events
read_fds = all_fds;
tv = backend_timeout();
//check whether there are any fds active, windows does not like select() without descriptors
if(maxfd >= 0){
error = select(maxfd + 1, &read_fds, NULL, NULL, &tv);
if(error < 0){
#ifndef _WIN32
fprintf(stderr, "select failed: %s\n", strerror(errno));
#else
FormatMessage(FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS,
NULL, WSAGetLastError(), MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), (LPTSTR) &error_message, 0, NULL);
fprintf(stderr, "select failed: %s\n", error_message);
LocalFree(error_message);
error_message = NULL;
#endif
free(signaled_fds);
return 1;
}
}
else{
DBGPF("No descriptors, sleeping for %zu msec", tv.tv_sec * 1000 + tv.tv_usec / 1000);
#ifdef _WIN32
Sleep(tv.tv_sec * 1000 + tv.tv_usec / 1000);
#else
ts.tv_sec = tv.tv_sec;
ts.tv_nsec = tv.tv_usec * 1000;
nanosleep(&ts, NULL);
#endif
}
//update this iteration's timestamp
update_timestamp();
//find all signaled fds
n = 0;
for(u = 0; u < fds; u++){
if(fd[u].fd >= 0 && FD_ISSET(fd[u].fd, &read_fds)){
signaled_fds[n] = fd[u];
n++;
}
}
//fetch and process events
if(core_process(n, signaled_fds)){
free(signaled_fds);
return 1;
}
}
free(signaled_fds);
return 0;
}
int main(int argc, char** argv){
int rv = EXIT_FAILURE;
char* cfg_file = DEFAULT_CFG;
size_t u, n = 0, max = 0;
//parse commandline arguments
if(args_parse(argc, argv, &cfg_file)){
return EXIT_FAILURE;
}
if(platform_initialize()){
fprintf(stderr, "Failed to perform platform-specific initialization\n");
return EXIT_FAILURE;
}
//initialize backends
if(plugins_load(PLUGINS)){
fprintf(stderr, "Failed to initialize a backend\n");
goto bail;
}
//read config
if(config_read(cfg_file)){
fprintf(stderr, "Failed to read configuration file %s\n", cfg_file);
backends_stop();
routing_cleanup();
fds_free();
plugins_close();
config_free();
return (usage(argv[0]) | platform_shutdown());
}
//load an initial timestamp
update_timestamp();
//start backends
if(backends_start()){
goto bail;
}
signal(SIGINT, signal_handler);
//count and report mappings
for(u = 0; u < sizeof(routing.map) / sizeof(routing.map[0]); u++){
n += routing.entries[u];
max = max(max, routing.entries[u]);
}
LOGPF("Routing %" PRIsize_t " sources, largest bucket has %" PRIsize_t " entries",
n, max);
if(!fds){
fprintf(stderr, "No descriptors registered for multiplexing\n");
}
//run the core loop
if(!core_loop()){
rv = EXIT_SUCCESS;
}
bail:
//free all data
backends_stop();
routing_cleanup();
fds_free();
plugins_close();
config_free();
platform_shutdown();
return rv;
}
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