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janet/src/core/ev.c

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/*
* Copyright (c) 2020 Calvin Rose
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to
* deal in the Software without restriction, including without limitation the
* rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
* sell copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
* IN THE SOFTWARE.
*/
#ifndef JANET_AMALG
#include "features.h"
#include <janet.h>
#include "util.h"
#include "gc.h"
#include "state.h"
#include "fiber.h"
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#endif
#ifdef JANET_EV
/* Includes */
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#ifdef JANET_WINDOWS
#include <windows.h>
#else
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#include <limits.h>
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#include <errno.h>
#include <unistd.h>
#include <signal.h>
#include <sys/ioctl.h>
#include <sys/types.h>
#include <fcntl.h>
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#ifdef JANET_BSD
#include <netinet/in.h>
#endif
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#ifdef JANET_EV_EPOLL
#include <sys/epoll.h>
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#include <sys/timerfd.h>
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#endif
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#endif
/* General queue */
/* Ring buffer for storing a list of fibers */
typedef struct {
int32_t capacity;
int32_t head;
int32_t tail;
void *data;
} JanetQueue;
#define JANET_MAX_Q_CAPACITY 0x7FFFFFF
static void janet_q_init(JanetQueue *q) {
q->data = NULL;
q->head = 0;
q->tail = 0;
q->capacity = 0;
}
static void janet_q_deinit(JanetQueue *q) {
free(q->data);
}
static int32_t janet_q_count(JanetQueue *q) {
return (q->head > q->tail)
? (q->tail + q->capacity - q->head)
: (q->tail - q->head);
}
static int janet_q_push(JanetQueue *q, void *item, size_t itemsize) {
int32_t count = janet_q_count(q);
/* Resize if needed */
if (count + 1 >= q->capacity) {
if (count + 1 >= JANET_MAX_Q_CAPACITY) return 1;
int32_t newcap = (count + 2) * 2;
if (newcap > JANET_MAX_Q_CAPACITY) newcap = JANET_MAX_Q_CAPACITY;
q->data = realloc(q->data, itemsize * newcap);
if (NULL == q->data) {
JANET_OUT_OF_MEMORY;
}
if (q->head > q->tail) {
/* Two segments, fix 2nd seg. */
int32_t newhead = q->head + (newcap - q->capacity);
size_t seg1 = (size_t)(q->capacity - q->head);
if (seg1 > 0) {
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memmove((char *) q->data + (newhead * itemsize),
(char *) q->data + (q->head * itemsize),
seg1 * itemsize);
}
q->head = newhead;
}
q->capacity = newcap;
}
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memcpy((char *) q->data + itemsize * q->tail, item, itemsize);
q->tail = q->tail + 1 < q->capacity ? q->tail + 1 : 0;
return 0;
}
static int janet_q_pop(JanetQueue *q, void *out, size_t itemsize) {
if (q->head == q->tail) return 1;
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memcpy(out, (char *) q->data + itemsize * q->head, itemsize);
q->head = q->head + 1 < q->capacity ? q->head + 1 : 0;
return 0;
}
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/* New fibers to spawn or resume */
typedef struct JanetTask JanetTask;
struct JanetTask {
JanetFiber *fiber;
Janet value;
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JanetSignal sig;
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};
/* Min priority queue of timestamps for timeouts. */
typedef int64_t JanetTimestamp;
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typedef struct JanetTimeout JanetTimeout;
struct JanetTimeout {
JanetTimestamp when;
JanetFiber *fiber;
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uint32_t sched_id;
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int is_error;
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};
/* Forward declaration */
static void janet_unlisten(JanetListenerState *state);
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/* Global data */
JANET_THREAD_LOCAL size_t janet_vm_active_listeners = 0;
JANET_THREAD_LOCAL size_t janet_vm_tq_count = 0;
JANET_THREAD_LOCAL size_t janet_vm_tq_capacity = 0;
JANET_THREAD_LOCAL JanetQueue janet_vm_spawn;
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JANET_THREAD_LOCAL JanetTimeout *janet_vm_tq = NULL;
JANET_THREAD_LOCAL JanetRNG janet_vm_ev_rng;
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/* Get current timestamp (millisecond precision) */
static JanetTimestamp ts_now(void);
/* Get current timestamp + an interval (millisecond precision) */
static JanetTimestamp ts_delta(JanetTimestamp ts, double delta) {
ts += (int64_t)round(delta * 1000);
return ts;
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}
/* Look at the next timeout value without
* removing it. */
static int peek_timeout(JanetTimeout *out) {
if (janet_vm_tq_count == 0) return 0;
*out = janet_vm_tq[0];
return 1;
}
/* Remove the next timeout from the priority queue */
static void pop_timeout(size_t index) {
if (janet_vm_tq_count <= index) return;
janet_vm_tq[index] = janet_vm_tq[--janet_vm_tq_count];
for (;;) {
size_t left = (index << 1) + 1;
size_t right = left + 1;
size_t smallest = index;
if (left < janet_vm_tq_count &&
(janet_vm_tq[left].when < janet_vm_tq[smallest].when))
smallest = left;
if (right < janet_vm_tq_count &&
(janet_vm_tq[right].when < janet_vm_tq[smallest].when))
smallest = right;
if (smallest == index) return;
JanetTimeout temp = janet_vm_tq[index];
janet_vm_tq[index] = janet_vm_tq[smallest];
janet_vm_tq[smallest] = temp;
index = smallest;
}
}
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/* Add a timeout to the timeout min heap */
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static void add_timeout(JanetTimeout to) {
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size_t oldcount = janet_vm_tq_count;
size_t newcount = oldcount + 1;
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if (newcount > janet_vm_tq_capacity) {
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size_t newcap = 2 * newcount;
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JanetTimeout *tq = realloc(janet_vm_tq, newcap * sizeof(JanetTimeout));
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if (NULL == tq) {
JANET_OUT_OF_MEMORY;
}
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janet_vm_tq = tq;
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janet_vm_tq_capacity = newcap;
}
/* Append */
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janet_vm_tq_count = (int32_t) newcount;
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janet_vm_tq[oldcount] = to;
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/* Heapify */
size_t index = oldcount;
while (index > 0) {
size_t parent = (index - 1) >> 1;
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if (janet_vm_tq[parent].when <= janet_vm_tq[index].when) break;
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/* Swap */
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JanetTimeout tmp = janet_vm_tq[index];
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janet_vm_tq[index] = janet_vm_tq[parent];
janet_vm_tq[parent] = tmp;
/* Next */
index = parent;
}
}
/* Create a new event listener */
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static JanetListenerState *janet_listen_impl(JanetPollable *pollable, JanetListener behavior, int mask, size_t size, void *user) {
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if (pollable->_mask & mask) {
janet_panic("cannot listen for duplicate event on pollable");
}
if (janet_vm_root_fiber->waiting != NULL) {
janet_panic("current fiber is already waiting for event");
}
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if (size < sizeof(JanetListenerState))
size = sizeof(JanetListenerState);
JanetListenerState *state = malloc(size);
if (NULL == state) {
JANET_OUT_OF_MEMORY;
}
state->machine = behavior;
if (mask & JANET_ASYNC_LISTEN_SPAWNER) {
state->fiber = NULL;
} else {
state->fiber = janet_vm_root_fiber;
janet_vm_root_fiber->waiting = state;
}
mask |= JANET_ASYNC_LISTEN_SPAWNER;
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state->pollable = pollable;
state->_mask = mask;
state->_index = 0;
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pollable->_mask |= mask;
janet_vm_active_listeners++;
/* Prepend to linked list */
state->_next = pollable->state;
pollable->state = state;
/* Emit INIT event for convenience */
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state->event = user;
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state->machine(state, JANET_ASYNC_EVENT_INIT);
return state;
}
/* Indicate we are no longer listening for an event. This
* frees the memory of the state machine as well. */
static void janet_unlisten_impl(JanetListenerState *state) {
state->machine(state, JANET_ASYNC_EVENT_DEINIT);
/* Remove state machine from poll list */
JanetListenerState **iter = &(state->pollable->state);
while (*iter && *iter != state)
iter = &((*iter)->_next);
janet_assert(*iter, "failed to remove listener");
*iter = state->_next;
janet_vm_active_listeners--;
/* Remove mask */
state->pollable->_mask &= ~(state->_mask);
/* Ensure fiber does not reference this state */
JanetFiber *fiber = state->fiber;
if (NULL != fiber && fiber->waiting == state) {
fiber->waiting = NULL;
}
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free(state);
}
/* Call after creating a pollable */
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void janet_pollable_init(JanetPollable *pollable, JanetHandle handle) {
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pollable->handle = handle;
pollable->flags = 0;
pollable->state = NULL;
pollable->_mask = 0;
}
/* Mark a pollable for GC */
void janet_pollable_mark(JanetPollable *pollable) {
JanetListenerState *state = pollable->state;
while (NULL != state) {
if (NULL != state->fiber) {
janet_mark(janet_wrap_fiber(state->fiber));
}
(state->machine)(state, JANET_ASYNC_EVENT_MARK);
state = state->_next;
}
}
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/* Must be called to close all pollables - does NOT call `close` for you.
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* Also does not free memory of the pollable, so can be used on close. */
void janet_pollable_deinit(JanetPollable *pollable) {
pollable->flags |= JANET_POLL_FLAG_CLOSED;
JanetListenerState *state = pollable->state;
while (NULL != state) {
state->machine(state, JANET_ASYNC_EVENT_CLOSE);
JanetListenerState *next_state = state->_next;
janet_unlisten_impl(state);
state = next_state;
}
pollable->state = NULL;
}
/* Register a fiber to resume with value */
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void janet_schedule_signal(JanetFiber *fiber, Janet value, JanetSignal sig) {
if (fiber->flags & JANET_FIBER_FLAG_SCHEDULED) return;
fiber->flags |= JANET_FIBER_FLAG_SCHEDULED;
fiber->sched_id++;
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JanetTask t = { fiber, value, sig };
janet_q_push(&janet_vm_spawn, &t, sizeof(t));
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}
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void janet_cancel(JanetFiber *fiber, Janet value) {
janet_schedule_signal(fiber, value, JANET_SIGNAL_ERROR);
}
void janet_schedule(JanetFiber *fiber, Janet value) {
janet_schedule_signal(fiber, value, JANET_SIGNAL_OK);
}
void janet_fiber_did_resume(JanetFiber *fiber) {
/* Cancel any pending fibers */
if (fiber->waiting) janet_unlisten(fiber->waiting);
}
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/* Mark all pending tasks */
void janet_ev_mark(void) {
JanetTask *tasks = janet_vm_spawn.data;
if (janet_vm_spawn.head <= janet_vm_spawn.tail) {
for (int32_t i = janet_vm_spawn.head; i < janet_vm_spawn.tail; i++) {
janet_mark(janet_wrap_fiber(tasks[i].fiber));
janet_mark(tasks[i].value);
}
} else {
for (int32_t i = janet_vm_spawn.head; i < janet_vm_spawn.capacity; i++) {
janet_mark(janet_wrap_fiber(tasks[i].fiber));
janet_mark(tasks[i].value);
}
for (int32_t i = 0; i < janet_vm_spawn.tail; i++) {
janet_mark(janet_wrap_fiber(tasks[i].fiber));
janet_mark(tasks[i].value);
}
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}
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for (size_t i = 0; i < janet_vm_tq_count; i++) {
janet_mark(janet_wrap_fiber(janet_vm_tq[i].fiber));
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}
}
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/* Run a top level task */
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static void run_one(JanetFiber *fiber, Janet value, JanetSignal sigin) {
fiber->flags &= ~JANET_FIBER_FLAG_SCHEDULED;
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Janet res;
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JanetSignal sig = janet_continue_signal(fiber, value, &res, sigin);
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if (sig != JANET_SIGNAL_OK && sig != JANET_SIGNAL_EVENT) {
janet_stacktrace(fiber, res);
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}
}
/* Common init code */
void janet_ev_init_common(void) {
janet_q_init(&janet_vm_spawn);
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janet_vm_active_listeners = 0;
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janet_vm_tq = NULL;
janet_vm_tq_count = 0;
janet_vm_tq_capacity = 0;
janet_rng_seed(&janet_vm_ev_rng, 0);
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}
/* Common deinit code */
void janet_ev_deinit_common(void) {
janet_q_deinit(&janet_vm_spawn);
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}
/* Short hand to yield to event loop */
void janet_await(void) {
janet_signalv(JANET_SIGNAL_EVENT, janet_wrap_nil());
}
/* Set timeout for the current root fiber */
void janet_addtimeout(double sec) {
JanetFiber *fiber = janet_vm_root_fiber;
JanetTimeout to;
to.when = ts_delta(ts_now(), sec);
to.fiber = fiber;
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to.sched_id = fiber->sched_id;
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to.is_error = 1;
add_timeout(to);
}
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/* Channels */
typedef struct {
JanetFiber *fiber;
uint32_t sched_id;
enum {
JANET_CP_MODE_ITEM,
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JANET_CP_MODE_CHOICE_READ,
JANET_CP_MODE_CHOICE_WRITE
} mode;
} JanetChannelPending;
typedef struct {
JanetQueue items;
JanetQueue read_pending;
JanetQueue write_pending;
int32_t limit;
} JanetChannel;
#define JANET_MAX_CHANNEL_CAPACITY 0xFFFFFF
static void janet_chan_init(JanetChannel *chan, int32_t limit) {
chan->limit = limit;
janet_q_init(&chan->items);
janet_q_init(&chan->read_pending);
janet_q_init(&chan->write_pending);
}
static void janet_chan_deinit(JanetChannel *chan) {
janet_q_deinit(&chan->read_pending);
janet_q_deinit(&chan->write_pending);
janet_q_deinit(&chan->items);
}
/*
* Janet Channel abstract type
*/
/*static int janet_chanat_get(void *p, Janet key, Janet *out);*/
static int janet_chanat_mark(void *p, size_t s);
static int janet_chanat_gc(void *p, size_t s);
static const JanetAbstractType ChannelAT = {
"core/channel",
janet_chanat_gc,
janet_chanat_mark,
NULL, /* janet_chanat_get */
JANET_ATEND_GET
};
static int janet_chanat_gc(void *p, size_t s) {
(void) s;
JanetChannel *channel = p;
janet_chan_deinit(channel);
return 0;
}
static void janet_chanat_mark_fq(JanetQueue *fq) {
JanetChannelPending *pending = fq->data;
if (fq->head <= fq->tail) {
for (int32_t i = fq->head; i < fq->tail; i++)
janet_mark(janet_wrap_fiber(pending[i].fiber));
} else {
for (int32_t i = fq->head; i < fq->capacity; i++)
janet_mark(janet_wrap_fiber(pending[i].fiber));
for (int32_t i = 0; i < fq->tail; i++)
janet_mark(janet_wrap_fiber(pending[i].fiber));
}
}
static int janet_chanat_mark(void *p, size_t s) {
(void) s;
JanetChannel *chan = p;
janet_chanat_mark_fq(&chan->read_pending);
janet_chanat_mark_fq(&chan->write_pending);
JanetQueue *items = &chan->items;
Janet *data = chan->items.data;
if (items->head <= items->tail) {
for (int32_t i = items->head; i < items->tail; i++)
janet_mark(data[i]);
} else {
for (int32_t i = items->head; i < items->capacity; i++)
janet_mark(data[i]);
for (int32_t i = 0; i < items->tail; i++)
janet_mark(data[i]);
}
return 0;
}
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static Janet make_write_result(JanetChannel *channel) {
Janet *tup = janet_tuple_begin(2);
tup[0] = janet_ckeywordv("give");
tup[1] = janet_wrap_abstract(channel);
return janet_wrap_tuple(janet_tuple_end(tup));
}
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static Janet make_read_result(JanetChannel *channel, Janet x) {
Janet *tup = janet_tuple_begin(3);
tup[0] = janet_ckeywordv("take");
tup[1] = janet_wrap_abstract(channel);
tup[2] = x;
return janet_wrap_tuple(janet_tuple_end(tup));
}
/* Push a value to a channel, and return 1 if channel should block, zero otherwise.
* If the push would block, will add to the write_pending queue in the channel. */
static int janet_channel_push(JanetChannel *channel, Janet x, int is_choice) {
JanetChannelPending reader;
int is_empty;
do {
is_empty = janet_q_pop(&channel->read_pending, &reader, sizeof(reader));
} while (!is_empty && (reader.sched_id != reader.fiber->sched_id));
if (is_empty) {
/* No pending reader */
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if (janet_q_push(&channel->items, &x, sizeof(Janet))) {
janet_panicf("channel overflow: %v", x);
} else if (janet_q_count(&channel->items) > channel->limit) {
/* Pushed successfully, but should block. */
JanetChannelPending pending;
pending.fiber = janet_vm_root_fiber,
pending.sched_id = janet_vm_root_fiber->sched_id,
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pending.mode = is_choice ? JANET_CP_MODE_CHOICE_WRITE : JANET_CP_MODE_ITEM;
janet_q_push(&channel->write_pending, &pending, sizeof(pending));
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return 1;
}
} else {
/* Pending reader */
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if (reader.mode == JANET_CP_MODE_CHOICE_READ) {
janet_schedule(reader.fiber, make_read_result(channel, x));
} else {
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janet_schedule(reader.fiber, x);
}
}
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return 0;
}
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/* Pop from a channel - returns 1 if item was obtain, 0 otherwise. The item
* is returned by reference. If the pop would block, will add to the read_pending
* queue in the channel. */
static int janet_channel_pop(JanetChannel *channel, Janet *item, int is_choice) {
JanetChannelPending writer;
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if (janet_q_pop(&channel->items, item, sizeof(Janet))) {
/* Queue empty */
JanetChannelPending pending;
pending.fiber = janet_vm_root_fiber,
pending.sched_id = janet_vm_root_fiber->sched_id;
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pending.mode = is_choice ? JANET_CP_MODE_CHOICE_READ : JANET_CP_MODE_ITEM;
janet_q_push(&channel->read_pending, &pending, sizeof(pending));
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return 0;
}
if (!janet_q_pop(&channel->write_pending, &writer, sizeof(writer))) {
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/* pending writer */
if (writer.mode == JANET_CP_MODE_CHOICE_WRITE) {
janet_schedule(writer.fiber, make_write_result(channel));
} else {
janet_schedule(writer.fiber, janet_wrap_abstract(channel));
}
}
return 1;
}
/* Channel Methods */
static Janet cfun_channel_push(int32_t argc, Janet *argv) {
janet_fixarity(argc, 2);
JanetChannel *channel = janet_getabstract(argv, 0, &ChannelAT);
if (janet_channel_push(channel, argv[1], 0)) {
janet_await();
}
return argv[0];
}
static Janet cfun_channel_pop(int32_t argc, Janet *argv) {
janet_fixarity(argc, 1);
JanetChannel *channel = janet_getabstract(argv, 0, &ChannelAT);
Janet item;
if (janet_channel_pop(channel, &item, 0)) {
janet_schedule(janet_vm_root_fiber, item);
}
janet_await();
}
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static Janet cfun_channel_choice(int32_t argc, Janet *argv) {
janet_arity(argc, 1, -1);
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int32_t len;
const Janet *data;
/* Check channels for immediate reads and writes */
for (int32_t i = 0; i < argc; i++) {
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if (janet_indexed_view(argv[i], &data, &len) && len == 2) {
/* Write */
JanetChannel *chan = janet_getabstract(data, 0, &ChannelAT);
if (janet_q_count(&chan->items) < chan->limit) {
janet_channel_push(chan, data[1], 1);
return make_write_result(chan);
}
} else {
/* Read */
JanetChannel *chan = janet_getabstract(argv, i, &ChannelAT);
if (chan->items.head != chan->items.tail) {
Janet item;
janet_channel_pop(chan, &item, 1);
return make_read_result(chan, item);
}
}
}
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/* Wait for all readers or writers */
for (int32_t i = 0; i < argc; i++) {
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if (janet_indexed_view(argv[i], &data, &len) && len == 2) {
/* Write */
JanetChannel *chan = janet_getabstract(data, 0, &ChannelAT);
janet_channel_push(chan, data[1], 1);
} else {
/* Read */
Janet item;
JanetChannel *chan = janet_getabstract(argv, i, &ChannelAT);
janet_channel_pop(chan, &item, 1);
}
}
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janet_await();
}
static Janet cfun_channel_full(int32_t argc, Janet *argv) {
janet_fixarity(argc, 1);
JanetChannel *channel = janet_getabstract(argv, 0, &ChannelAT);
return janet_wrap_boolean(janet_q_count(&channel->items) >= channel->limit);
}
static Janet cfun_channel_capacity(int32_t argc, Janet *argv) {
janet_fixarity(argc, 1);
JanetChannel *channel = janet_getabstract(argv, 0, &ChannelAT);
return janet_wrap_integer(channel->limit);
}
static Janet cfun_channel_count(int32_t argc, Janet *argv) {
janet_fixarity(argc, 1);
JanetChannel *channel = janet_getabstract(argv, 0, &ChannelAT);
return janet_wrap_integer(janet_q_count(&channel->items));
}
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/* Fisher yates shuffle of arguments to get fairness */
static void fisher_yates_args(int32_t argc, Janet *argv) {
for (int32_t i = argc; i > 1; i--) {
int32_t swap_index = janet_rng_u32(&janet_vm_ev_rng) % i;
Janet temp = argv[swap_index];
argv[swap_index] = argv[i - 1];
argv[i - 1] = temp;
}
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}
static Janet cfun_channel_rchoice(int32_t argc, Janet *argv) {
fisher_yates_args(argc, argv);
return cfun_channel_choice(argc, argv);
}
static Janet cfun_channel_new(int32_t argc, Janet *argv) {
janet_arity(argc, 0, 1);
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int32_t limit = janet_optnat(argv, argc, 0, 0);
JanetChannel *channel = janet_abstract(&ChannelAT, sizeof(JanetChannel));
janet_chan_init(channel, limit);
return janet_wrap_abstract(channel);
}
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/* Main event loop */
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void janet_loop1_impl(int has_timeout, JanetTimestamp timeout);
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void janet_loop1(void) {
/* Schedule expired timers */
JanetTimeout to;
JanetTimestamp now = ts_now();
while (peek_timeout(&to) && to.when <= now) {
pop_timeout(0);
if (to.fiber->sched_id == to.sched_id) {
if (to.is_error) {
janet_cancel(to.fiber, janet_cstringv("timeout"));
} else {
janet_schedule(to.fiber, janet_wrap_nil());
}
}
}
/* Run scheduled fibers */
while (janet_vm_spawn.head != janet_vm_spawn.tail) {
JanetTask task = {NULL, janet_wrap_nil(), JANET_SIGNAL_OK};
janet_q_pop(&janet_vm_spawn, &task, sizeof(task));
run_one(task.fiber, task.value, task.sig);
}
/* Poll for events */
if (janet_vm_active_listeners || janet_vm_tq_count) {
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JanetTimeout to;
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memset(&to, 0, sizeof(to));
int has_timeout;
/* Drop timeouts that are no longer needed */
while ((has_timeout = peek_timeout(&to)) && to.fiber->sched_id != to.sched_id) {
pop_timeout(0);
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}
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/* Run polling implementation */
janet_loop1_impl(has_timeout, to.when);
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}
}
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void janet_loop(void) {
while (janet_vm_active_listeners || (janet_vm_spawn.head != janet_vm_spawn.tail) || janet_vm_tq_count) {
janet_loop1();
}
}
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#ifdef JANET_WINDOWS
/* Epoll global data */
JANET_THREAD_LOCAL HANDLE janet_vm_iocp = NULL;
static JanetTimestamp ts_now(void) {
return (JanetTimestamp) GetTickCount64();
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}
void janet_ev_init(void) {
janet_ev_init_common();
janet_vm_iocp = CreateIoCompletionPort(INVALID_HANDLE_VALUE, NULL, 0, 0);
if (NULL == janet_vm_iocp) janet_panic("could not create io completion port");
}
void janet_ev_deinit(void) {
janet_ev_deinit_common();
CloseHandle(janet_vm_iocp);
}
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JanetListenerState *janet_listen(JanetPollable *pollable, JanetListener behavior, int mask, size_t size, void *user) {
/* Add the handle to the io completion port if not already added */
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JanetListenerState *state = janet_listen_impl(pollable, behavior, mask, size, user);
if (!(pollable->flags & JANET_POLL_FLAG_IOCP)) {
if (NULL == CreateIoCompletionPort(pollable->handle, janet_vm_iocp, (ULONG_PTR) pollable, 0)) {
janet_panic("failed to listen for events");
}
pollable->flags |= JANET_POLL_FLAG_IOCP;
}
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return state;
}
static void janet_unlisten(JanetListenerState *state) {
janet_unlisten_impl(state);
}
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void janet_loop1_impl(int has_timeout, JanetTimestamp to) {
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ULONG_PTR completionKey = 0;
DWORD num_bytes_transfered = 0;
LPOVERLAPPED overlapped;
/* Calculate how long to wait before timeout */
uint64_t waittime;
if (has_timeout) {
JanetTimestamp now = ts_now();
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if (now > to) {
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waittime = 0;
} else {
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waittime = (uint64_t)(to - now);
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}
} else {
waittime = INFINITE;
}
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BOOL result = GetQueuedCompletionStatus(janet_vm_iocp, &num_bytes_transfered, &completionKey, &overlapped, (DWORD) waittime);
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if (!result) {
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if (!has_timeout) {
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JANET_EXIT("failed to get iocp GetQueuedCompletionStatus");
}
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} else {
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/* Normal event */
JanetPollable *pollable = (JanetPollable *) completionKey;
JanetListenerState *state = pollable->state;
while (state != NULL) {
if (state->tag == overlapped) {
state->event = overlapped;
JanetAsyncStatus status = state->machine(state, JANET_ASYNC_EVENT_COMPLETE);
if (status == JANET_ASYNC_STATUS_DONE) {
janet_unlisten(state);
}
break;
} else {
state = state->_next;
}
}
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}
}
#elif defined(JANET_EV_POLL)
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/*
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* Start linux/epoll implementation
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*/
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static JanetTimestamp ts_now(void) {
struct timespec now;
janet_assert(-1 != clock_gettime(CLOCK_MONOTONIC, &now), "failed to get time");
uint64_t res = 1000 * now.tv_sec;
res += now.tv_nsec / 1000000;
return res;
}
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/* Epoll global data */
JANET_THREAD_LOCAL int janet_vm_epoll = 0;
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JANET_THREAD_LOCAL int janet_vm_timerfd = 0;
JANET_THREAD_LOCAL int janet_vm_timer_enabled = 0;
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static int make_epoll_events(int mask) {
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int events = EPOLLET;
if (mask & JANET_ASYNC_LISTEN_READ)
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events |= EPOLLIN;
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if (mask & JANET_ASYNC_LISTEN_WRITE)
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events |= EPOLLOUT;
return events;
}
/* Wait for the next event */
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JanetListenerState *janet_listen(JanetPollable *pollable, JanetListener behavior, int mask, size_t size, void *user) {
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int is_first = !(pollable->state);
int op = is_first ? EPOLL_CTL_ADD : EPOLL_CTL_MOD;
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JanetListenerState *state = janet_listen_impl(pollable, behavior, mask, size, user);
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struct epoll_event ev;
ev.events = make_epoll_events(state->pollable->_mask);
ev.data.ptr = pollable;
int status;
do {
status = epoll_ctl(janet_vm_epoll, op, pollable->handle, &ev);
} while (status == -1 && errno == EINTR);
if (status == -1) {
janet_unlisten_impl(state);
janet_panicf("failed to schedule event: %s", strerror(errno));
}
return state;
}
/* Tell system we are done listening for a certain event */
static void janet_unlisten(JanetListenerState *state) {
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JanetPollable *pollable = state->pollable;
int is_last = (state->_next == NULL && pollable->state == state);
int op = is_last ? EPOLL_CTL_DEL : EPOLL_CTL_MOD;
struct epoll_event ev;
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ev.events = make_epoll_events(pollable->_mask & ~state->_mask);
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ev.data.ptr = pollable;
int status;
do {
status = epoll_ctl(janet_vm_epoll, op, pollable->handle, &ev);
} while (status == -1 && errno == EINTR);
if (status == -1) {
janet_panicf("failed to unschedule event: %s", strerror(errno));
}
/* Destroy state machine and free memory */
janet_unlisten_impl(state);
}
#define JANET_EPOLL_MAX_EVENTS 64
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void janet_loop1_impl(int has_timeout, JanetTimestamp timeout) {
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if (janet_vm_timer_enabled || has_timeout) {
memset(&its, 0, sizeof(its));
if (has_timeout) {
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its.it_value.tv_sec = timeout / 1000;
its.it_value.tv_nsec = (timeout % 1000) * 1000000;
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}
timerfd_settime(janet_vm_timerfd, TFD_TIMER_ABSTIME, &its, NULL);
}
janet_vm_timer_enabled = has_timeout;
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/* Poll for events */
struct epoll_event events[JANET_EPOLL_MAX_EVENTS];
int ready;
do {
ready = epoll_wait(janet_vm_epoll, events, JANET_EPOLL_MAX_EVENTS, -1);
} while (ready == -1 && errno == EINTR);
if (ready == -1) {
JANET_EXIT("failed to poll events");
}
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/* Step state machines */
for (int i = 0; i < ready; i++) {
JanetPollable *pollable = events[i].data.ptr;
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if (NULL != pollable) { /* If NULL, is a timeout */
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int mask = events[i].events;
JanetListenerState *state = pollable->state;
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state->event = events + i;
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while (NULL != state) {
JanetListenerState *next_state = state->_next;
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JanetAsyncStatus status1 = JANET_ASYNC_STATUS_NOT_DONE;
JanetAsyncStatus status2 = JANET_ASYNC_STATUS_NOT_DONE;
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if (mask & EPOLLOUT)
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status1 = state->machine(state, JANET_ASYNC_EVENT_WRITE);
if (mask & EPOLLIN)
status2 = state->machine(state, JANET_ASYNC_EVENT_READ);
if (status1 == JANET_ASYNC_STATUS_DONE || status2 == JANET_ASYNC_STATUS_DONE)
janet_unlisten(state);
state = next_state;
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}
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}
}
}
void janet_ev_init(void) {
janet_ev_init_common();
janet_vm_epoll = epoll_create1(EPOLL_CLOEXEC);
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janet_vm_timerfd = timerfd_create(CLOCK_MONOTONIC, TFD_CLOEXEC | TFD_NONBLOCK);
janet_vm_timer_enabled = 0;
if (janet_vm_epoll == -1 || janet_vm_timerfd == -1) goto error;
struct epoll_event ev;
ev.events = EPOLLIN | EPOLLET;
ev.data.ptr = NULL;
if (-1 == epoll_ctl(janet_vm_epoll, EPOLL_CTL_ADD, janet_vm_timerfd, &ev)) goto error;
return;
error:
JANET_EXIT("failed to initialize event loop");
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}
void janet_ev_deinit(void) {
janet_ev_deinit_common();
close(janet_vm_epoll);
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close(janet_vm_timerfd);
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janet_vm_epoll = 0;
}
/*
* End epoll implementation
*/
#else
#include <poll.h>
/* Poll implementation */
static JanetTimestamp ts_now(void) {
struct timespec now;
janet_assert(-1 != clock_gettime(CLOCK_REALTIME, &now), "failed to get time");
uint64_t res = 1000 * now.tv_sec;
res += now.tv_nsec / 1000000;
return res;
}
/* Epoll global data */
JANET_THREAD_LOCAL struct pollfd *janet_vm_fds = NULL;
JANET_THREAD_LOCAL JanetListenerState **janet_vm_listener_map = NULL;
JANET_THREAD_LOCAL size_t janet_vm_fdcap = 0;
JANET_THREAD_LOCAL size_t janet_vm_fdcount = 0;
static int make_poll_events(int mask) {
int events = 0;
if (mask & JANET_ASYNC_LISTEN_READ)
events |= POLLIN;
if (mask & JANET_ASYNC_LISTEN_WRITE)
events |= POLLOUT;
return events;
}
static void janet_push_pollfd(struct pollfd pfd) {
if (janet_vm_fdcap == janet_vm_fdcount) {
size_t newcap = janet_vm_fdcount ? janet_vm_fdcount * 2 : 16;
janet_vm_fds = realloc(janet_vm_fds, newcap * sizeof(struct pollfd));
if (NULL == janet_vm_fds) {
JANET_OUT_OF_MEMORY;
}
janet_vm_listener_map = realloc(janet_vm_listener_map, newcap * sizeof(JanetListenerState *));
if (NULL == janet_vm_listener_map) {
JANET_OUT_OF_MEMORY;
}
janet_vm_fdcap = newcap;
}
janet_vm_fds[janet_vm_fdcount++] = pfd;
}
/* Wait for the next event */
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JanetListenerState *janet_listen(JanetPollable *pollable, JanetListener behavior, int mask, size_t size, void *user) {
JanetListenerState *state = janet_listen_impl(pollable, behavior, mask, size, user);
struct pollfd ev;
ev.fd = pollable->handle;
ev.events = make_poll_events(state->pollable->_mask);
ev.revents = 0;
state->_index = janet_vm_fdcount;
janet_push_pollfd(ev);
janet_vm_listener_map[state->_index] = state;
return state;
}
/* Tell system we are done listening for a certain event */
static void janet_unlisten(JanetListenerState *state) {
janet_vm_fds[state->_index] = janet_vm_fds[--janet_vm_fdcount];
JanetListenerState *replacer = janet_vm_listener_map[janet_vm_fdcount];
janet_vm_listener_map[state->_index] = replacer;
/* Update pointers in replacer */
replacer->_index = state->_index;
/* Destroy state machine and free memory */
janet_unlisten_impl(state);
}
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void janet_loop1_impl(int has_timeout, JanetTimestamp timeout) {
/* Poll for events */
int ready;
do {
if (has_timeout) {
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JanetTimestamp now = ts_now();
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ready = poll(janet_vm_fds, janet_vm_fdcount, now > timeout ? 0 : (int)(timeout - now));
} else {
ready = poll(janet_vm_fds, janet_vm_fdcount, -1);
}
} while (ready == -1 && errno == EINTR);
if (ready == -1) {
JANET_EXIT("failed to poll events");
}
/* Step state machines */
for (size_t i = 0; i < janet_vm_fdcount; i++) {
struct pollfd *pfd = janet_vm_fds + i;
/* Skip fds where nothing interesting happened */
if (!(pfd->revents & (pfd->events | POLLHUP | POLLERR | POLLNVAL))) continue;
JanetListenerState *state = janet_vm_listener_map[i];
/* Normal event */
int mask = janet_vm_fds[i].revents;
JanetAsyncStatus status1 = JANET_ASYNC_STATUS_NOT_DONE;
JanetAsyncStatus status2 = JANET_ASYNC_STATUS_NOT_DONE;
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state->event = pfd;
if (mask & POLLOUT)
status1 = state->machine(state, JANET_ASYNC_EVENT_WRITE);
if (mask & POLLIN)
status2 = state->machine(state, JANET_ASYNC_EVENT_READ);
if (status1 == JANET_ASYNC_STATUS_DONE || status2 == JANET_ASYNC_STATUS_DONE)
janet_unlisten(state);
}
}
void janet_ev_init(void) {
janet_ev_init_common();
janet_vm_fds = NULL;
janet_vm_listener_map = NULL;
janet_vm_fdcap = 0;
janet_vm_fdcount = 0;
return;
}
void janet_ev_deinit(void) {
janet_ev_deinit_common();
free(janet_vm_fds);
free(janet_vm_listener_map);
janet_vm_fds = NULL;
janet_vm_listener_map = NULL;
janet_vm_fdcap = 0;
janet_vm_fdcount = 0;
}
#endif
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/* C functions */
static Janet cfun_ev_go(int32_t argc, Janet *argv) {
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janet_arity(argc, 1, 2);
JanetFiber *fiber = janet_getfiber(argv, 0);
Janet value = argc == 2 ? argv[1] : janet_wrap_nil();
janet_schedule(fiber, value);
return argv[0];
}
static Janet cfun_ev_call(int32_t argc, Janet *argv) {
janet_arity(argc, 1, -1);
JanetFunction *fn = janet_getfunction(argv, 0);
JanetFiber *fiber = janet_fiber(fn, 64, argc - 1, argv + 1);
janet_schedule(fiber, janet_wrap_nil());
return janet_wrap_fiber(fiber);
}
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static Janet cfun_ev_sleep(int32_t argc, Janet *argv) {
janet_fixarity(argc, 1);
double sec = janet_getnumber(argv, 0);
JanetTimeout to;
to.when = ts_delta(ts_now(), sec);
to.fiber = janet_vm_root_fiber;
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to.is_error = 0;
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to.sched_id = to.fiber->sched_id;
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add_timeout(to);
janet_await();
}
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static Janet cfun_ev_cancel(int32_t argc, Janet *argv) {
janet_fixarity(argc, 2);
JanetFiber *fiber = janet_getfiber(argv, 0);
Janet err = argv[1];
janet_cancel(fiber, err);
return argv[0];
}
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static const JanetReg ev_cfuns[] = {
{
"ev/call", cfun_ev_call,
JDOC("(ev/call fn & args)\n\n"
"Call a function asynchronously. Returns a fiber that is scheduled to "
"run the function.")
},
{
"ev/go", cfun_ev_go,
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JDOC("(ev/go fiber &opt value)\n\n"
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"Put a fiber on the event loop to be resumed later. Optionally pass "
"a value to resume with, otherwise resumes with nil.")
},
{
"ev/sleep", cfun_ev_sleep,
JDOC("(ev/sleep sec)\n\n"
"Suspend the current fiber for sec seconds without blocking the event loop.")
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},
{
"ev/chan", cfun_channel_new,
JDOC("(ev/chan &opt capacity)\n\n"
"Create a new channel. capacity is the number of values to queue before "
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"blocking writers, defaults to 0 if not provided. Returns a new channel.")
},
{
"ev/give", cfun_channel_push,
JDOC("(ev/give channel value)\n\n"
"Write a value to a channel, suspending the current fiber if the channel is full.")
},
{
"ev/take", cfun_channel_pop,
JDOC("(ev/take channel)\n\n"
"Read from a channel, suspending the current fiber if no value is available.")
},
{
"ev/full", cfun_channel_full,
JDOC("(ev/full channel)\n\n"
"Check if a channel is full or not.")
},
{
"ev/capacity", cfun_channel_capacity,
JDOC("(ev/capacity channel)\n\n"
"Get the number of items a channel will store before blocking writers.")
},
{
"ev/count", cfun_channel_count,
JDOC("(ev/count channel)\n\n"
"Get the number of items currently waiting in a channel.")
},
{
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"ev/cancel", cfun_ev_cancel,
JDOC("(ev/cancel fiber err)\n\n"
"Cancel a suspended fiber in the event loop. Differs from cancel in that it returns the canceled fiber immediately")
},
{
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"ev/select", cfun_channel_choice,
JDOC("(ev/select & clauses)\n\n"
"Block until the first of several channel operations occur. Returns a tuple of the form [:give chan] or [:take chan x], where "
"a :give tuple is the result of a write and :take tuple is the result of a write. Each clause must be either a channel (for "
"a channel take operation) or a tuple [channel x] for a channel give operation. Operations are tried in order, such that the first "
"clauses will take precedence over later clauses.")
},
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{
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"ev/rselect", cfun_channel_rchoice,
JDOC("(ev/rselect & clauses)\n\n"
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"Similar to ev/choice, but will try clauses in a random order for fairness.")
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},
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{NULL, NULL, NULL}
};
void janet_lib_ev(JanetTable *env) {
janet_core_cfuns(env, NULL, ev_cfuns);
}
#endif