#include #include "rust_internal.h" rust_dom::rust_dom(rust_kernel *kernel, rust_message_queue *message_queue, rust_srv *srv, rust_crate const *root_crate, const char *name) : interrupt_flag(0), root_crate(root_crate), _log(srv, this), log_lvl(log_note), srv(srv), local_region(&srv->local_region), synchronized_region(&srv->synchronized_region), name(name), newborn_tasks(this, "newborn"), running_tasks(this, "running"), blocked_tasks(this, "blocked"), dead_tasks(this, "dead"), caches(this), root_task(NULL), curr_task(NULL), rval(0), kernel(kernel), message_queue(message_queue) { LOGPTR(this, "new dom", (uintptr_t)this); isaac_init(this, &rctx); #ifndef __WIN32__ pthread_attr_init(&attr); pthread_attr_setstacksize(&attr, 1024 * 1024); pthread_attr_setdetachstate(&attr, true); #endif root_task = create_task(NULL, name); } rust_dom::~rust_dom() { DLOG(this, dom, "~rust_dom %s @0x%" PRIxPTR, name, (uintptr_t)this); newborn_tasks.delete_all(); running_tasks.delete_all(); blocked_tasks.delete_all(); dead_tasks.delete_all(); #ifndef __WIN32__ pthread_attr_destroy(&attr); #endif while (caches.length()) { delete caches.pop(); } } void rust_dom::activate(rust_task *task) { curr_task = task; root_crate->get_activate_glue()(task); curr_task = NULL; } void rust_dom::log(rust_task* task, uint32_t level, char const *fmt, ...) { char buf[BUF_BYTES]; va_list args; va_start(args, fmt); vsnprintf(buf, sizeof(buf), fmt, args); _log.trace_ln(task, level, buf); va_end(args); } void rust_dom::fail() { log(NULL, log_err, "domain %s @0x%" PRIxPTR " root task failed", name, this); I(this, rval == 0); rval = 1; } void * rust_dom::malloc(size_t size) { return malloc(size, memory_region::LOCAL); } void * rust_dom::malloc(size_t size, memory_region::memory_region_type type) { if (type == memory_region::LOCAL) { return local_region.malloc(size); } else if (type == memory_region::SYNCHRONIZED) { return synchronized_region.malloc(size); } return NULL; } void * rust_dom::calloc(size_t size) { return calloc(size, memory_region::LOCAL); } void * rust_dom::calloc(size_t size, memory_region::memory_region_type type) { if (type == memory_region::LOCAL) { return local_region.calloc(size); } else if (type == memory_region::SYNCHRONIZED) { return synchronized_region.calloc(size); } return NULL; } void * rust_dom::realloc(void *mem, size_t size) { return realloc(mem, size, memory_region::LOCAL); } void * rust_dom::realloc(void *mem, size_t size, memory_region::memory_region_type type) { if (type == memory_region::LOCAL) { return local_region.realloc(mem, size); } else if (type == memory_region::SYNCHRONIZED) { return synchronized_region.realloc(mem, size); } return NULL; } void rust_dom::free(void *mem) { free(mem, memory_region::LOCAL); } void rust_dom::free(void *mem, memory_region::memory_region_type type) { DLOG(this, mem, "rust_dom::free(0x%" PRIxPTR ")", mem); if (type == memory_region::LOCAL) { local_region.free(mem); } else if (type == memory_region::SYNCHRONIZED) { synchronized_region.free(mem); } return; } #ifdef __WIN32__ void rust_dom::win32_require(LPCTSTR fn, BOOL ok) { if (!ok) { LPTSTR buf; DWORD err = GetLastError(); FormatMessage(FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS, NULL, err, MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), (LPTSTR) &buf, 0, NULL ); DLOG_ERR(this, dom, "%s failed with error %ld: %s", fn, err, buf); LocalFree((HLOCAL)buf); I(this, ok); } } #endif size_t rust_dom::number_of_live_tasks() { return running_tasks.length() + blocked_tasks.length(); } /** * Delete any dead tasks. */ void rust_dom::reap_dead_tasks() { for (size_t i = 0; i < dead_tasks.length(); ) { rust_task *task = dead_tasks[i]; if (task->ref_count == 0) { I(this, task->tasks_waiting_to_join.is_empty()); dead_tasks.remove(task); DLOG(this, task, "deleting unreferenced dead task %s @0x%" PRIxPTR, task->name, task); delete task; continue; } ++i; } } /** * Drains and processes incoming pending messages. */ void rust_dom::drain_incoming_message_queue(bool process) { rust_message *message; while (message_queue->dequeue(&message)) { DLOG(this, comm, "<== receiving \"%s\" " PTR, message->label, message); if (process) { message->process(); } delete message; } } /** * Schedules a running task for execution. Only running tasks can be * activated. Blocked tasks have to be unblocked before they can be * activated. * * Returns NULL if no tasks can be scheduled. */ rust_task * rust_dom::schedule_task() { I(this, this); // FIXME: in the face of failing tasks, this is not always right. // I(this, n_live_tasks() > 0); if (running_tasks.length() > 0) { size_t i = rand(&rctx); i %= running_tasks.length(); if (running_tasks[i]->yield_timer.has_timed_out()) { return (rust_task *)running_tasks[i]; } } return NULL; } void rust_dom::log_state() { if (log_rt_task < log_note) return; if (!running_tasks.is_empty()) { log(NULL, log_note, "running tasks:"); for (size_t i = 0; i < running_tasks.length(); i++) { log(NULL, log_note, "\t task: %s @0x%" PRIxPTR " timeout: %d", running_tasks[i]->name, running_tasks[i], running_tasks[i]->yield_timer.get_timeout()); } } if (!blocked_tasks.is_empty()) { log(NULL, log_note, "blocked tasks:"); for (size_t i = 0; i < blocked_tasks.length(); i++) { log(NULL, log_note, "\t task: %s @0x%" PRIxPTR ", blocked on: 0x%" PRIxPTR " '%s'", blocked_tasks[i]->name, blocked_tasks[i], blocked_tasks[i]->cond, blocked_tasks[i]->cond_name); } } if (!dead_tasks.is_empty()) { log(NULL, log_note, "dead tasks:"); for (size_t i = 0; i < dead_tasks.length(); i++) { log(NULL, log_note, "\t task: %s 0x%" PRIxPTR ", ref_count: %d", dead_tasks[i]->name, dead_tasks[i], dead_tasks[i]->ref_count); } } } /** * Starts the main scheduler loop which performs task scheduling for this * domain. * * Returns once no more tasks can be scheduled and all task ref_counts * drop to zero. */ int rust_dom::start_main_loop() { // Make sure someone is watching, to pull us out of infinite loops. rust_timer timer(this); DLOG(this, dom, "started domain loop"); DLOG(this, dom, "activate glue: " PTR ", exit glue: " PTR, root_crate->get_activate_glue(), rust_new_exit_task_glue); while (number_of_live_tasks() > 0) { A(this, kernel->is_deadlocked() == false, "deadlock"); drain_incoming_message_queue(true); rust_task *scheduled_task = schedule_task(); // The scheduler busy waits until a task is available for scheduling. // Eventually we'll want a smarter way to do this, perhaps sleep // for a minimum amount of time. if (scheduled_task == NULL) { log_state(); DLOG(this, task, "all tasks are blocked, scheduler yielding ..."); sync::sleep(100); DLOG(this, task, "scheduler resuming ..."); continue; } I(this, scheduled_task->running()); DLOG(this, task, "activating task %s 0x%" PRIxPTR ", sp=0x%" PRIxPTR ", ref_count=%d" ", state: %s", scheduled_task->name, (uintptr_t)scheduled_task, scheduled_task->rust_sp, scheduled_task->ref_count, scheduled_task->state->name); interrupt_flag = 0; activate(scheduled_task); DLOG(this, task, "returned from task %s @0x%" PRIxPTR " in state '%s', sp=0x%" PRIxPTR, scheduled_task->name, (uintptr_t)scheduled_task, scheduled_task->state->name, scheduled_task->rust_sp); I(this, scheduled_task->rust_sp >= (uintptr_t) &scheduled_task->stk->data[0]); I(this, scheduled_task->rust_sp < scheduled_task->stk->limit); reap_dead_tasks(); } DLOG(this, dom, "terminated scheduler loop, reaping dead tasks ..."); while (dead_tasks.length() > 0) { if (message_queue->is_empty()) { DLOG(this, dom, "waiting for %d dead tasks to become dereferenced, " "scheduler yielding ...", dead_tasks.length()); log_state(); sync::yield(); } else { drain_incoming_message_queue(true); } reap_dead_tasks(); } DLOG(this, dom, "finished main-loop (dom.rval = %d)", rval); return rval; } rust_crate_cache * rust_dom::get_cache(rust_crate const *crate) { DLOG(this, cache, "looking for crate-cache for crate 0x%" PRIxPTR, crate); rust_crate_cache *cache = NULL; for (size_t i = 0; i < caches.length(); ++i) { rust_crate_cache *c = caches[i]; if (c->crate == crate) { cache = c; break; } } if (!cache) { DLOG(this, cache, "making new crate-cache for crate 0x%" PRIxPTR, crate); cache = new (this) rust_crate_cache(this, crate); caches.push(cache); } cache->ref(); return cache; } rust_task * rust_dom::create_task(rust_task *spawner, const char *name) { rust_task *task = new (this) rust_task (this, &newborn_tasks, spawner, name); DLOG(this, task, "created task: " PTR ", spawner: %s, name: %s", task, spawner ? spawner->name : "null", name); newborn_tasks.append(task); return task; } // // Local Variables: // mode: C++ // fill-column: 70; // indent-tabs-mode: nil // c-basic-offset: 4 // buffer-file-coding-system: utf-8-unix // compile-command: "make -k -C .. 2>&1 | sed -e 's/\\/x\\//x:\\//g'"; // End: //