hio/mio/lib/mio.c

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2016-01-26 16:07:52 +00:00
/*
* $Id$
*
Copyright (c) 2015-2016 Chung, Hyung-Hwan. All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions
are met:
1. Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
2. Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.
THIS SOFTWARE IS PROVIDED BY THE AUTHOR "AS IS" AND ANY EXPRESS OR
IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WAfRRANTIES
OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
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#include "mio-prv.h"
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#define DEV_CAPA_ALL_WATCHED (MIO_DEV_CAPA_IN_WATCHED | MIO_DEV_CAPA_OUT_WATCHED | MIO_DEV_CAPA_PRI_WATCHED)
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static int schedule_kill_zombie_job (mio_dev_t* dev);
static int kill_and_free_device (mio_dev_t* dev, int force);
#define APPEND_DEVICE_TO_LIST(list,dev) do { \
if ((list)->tail) (list)->tail->dev_next = (dev); \
else (list)->head = (dev); \
(dev)->dev_prev = (list)->tail; \
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(dev)->dev_next = MIO_NULL; \
(list)->tail = (dev); \
} while(0)
#define UNLINK_DEVICE_FROM_LIST(list,dev) do { \
if ((dev)->dev_prev) (dev)->dev_prev->dev_next = (dev)->dev_next; \
else (list)->head = (dev)->dev_next; \
if ((dev)->dev_next) (dev)->dev_next->dev_prev = (dev)->dev_prev; \
else (list)->tail = (dev)->dev_prev; \
} while (0)
static void on_read_timeout (mio_t* mio, const mio_ntime_t* now, mio_tmrjob_t* job);
static void on_write_timeout (mio_t* mio, const mio_ntime_t* now, mio_tmrjob_t* job);
/* ========================================================================= */
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mio_t* mio_open (mio_mmgr_t* mmgr, mio_oow_t xtnsize, mio_cmgr_t* cmgr, mio_oow_t tmrcapa, mio_errinf_t* errinfo)
{
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mio_t* mio;
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if (!cmgr) cmgr = mio_get_utf8_cmgr();
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mio = (mio_t*)MIO_MMGR_ALLOC(mmgr, MIO_SIZEOF(mio_t) + xtnsize);
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if (mio)
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{
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if (mio_init(mio, mmgr, cmgr, tmrcapa) <= -1)
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{
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if (errinfo) mio_geterrinf (mio, errinfo);
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MIO_MMGR_FREE (mmgr, mio);
mio = MIO_NULL;
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}
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else MIO_MEMSET (mio + 1, 0, xtnsize);
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}
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else if (errinfo)
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{
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errinfo->num = MIO_ESYSMEM;
mio_copy_oocstr (errinfo->msg, MIO_COUNTOF(errinfo->msg), mio_errnum_to_errstr(MIO_ESYSMEM));
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}
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return mio;
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}
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void mio_close (mio_t* mio)
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{
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mio_fini (mio);
MIO_MMGR_FREE (mio->mmgr, mio);
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}
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int mio_init (mio_t* mio, mio_mmgr_t* mmgr, mio_cmgr_t* cmgr, mio_oow_t tmrcapa)
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{
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int sys_log_inited = 0;
int sys_mux_inited = 0;
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MIO_MEMSET (mio, 0, MIO_SIZEOF(*mio));
mio->mmgr = mmgr;
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mio->cmgr = cmgr;
/* initialize data for logging support */
mio->option.log_mask = MIO_LOG_ALL_LEVELS | MIO_LOG_ALL_TYPES;
mio->log.capa = MIO_ALIGN_POW2(1, MIO_LOG_CAPA_ALIGN); /* TODO: is this a good initial size? */
/* alloate the log buffer in advance though it may get reallocated
* in put_oocs and put_ooch in fmtout.c. this is to let the logging
* routine still function despite some side-effects when
* reallocation fails */
/* +1 required for consistency with put_oocs and put_ooch in fmtout.c */
mio->log.ptr = mio_allocmem(mio, (mio->log.capa + 1) * MIO_SIZEOF(*mio->log.ptr));
if (!mio->log.ptr) goto oops;
/* inititalize the system-side logging */
mio_sys_initlog (mio);
sys_log_inited = 1;
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/* intialize the multiplexer object */
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if (mio_sys_initmux(mio) <= -1) goto oops;
sys_mux_inited = 0;
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/* initialize the timer object */
if (tmrcapa <= 0) tmrcapa = 1;
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mio->tmr.jobs = mio_allocmem(mio, tmrcapa * MIO_SIZEOF(mio_tmrjob_t));
if (!mio->tmr.jobs) goto oops;
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mio->tmr.capa = tmrcapa;
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MIO_CWQ_INIT (&mio->cwq);
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return 0;
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oops:
if (mio->tmr.jobs) mio_freemem (mio, mio->tmr.jobs);
if (sys_mux_inited) mio_sys_finimux (mio);
if (sys_log_inited) mio_sys_finilog (mio);
if (mio->log.ptr) mio_freemem (mio, mio->log.ptr);
mio->log.capa = 0;
return -1;
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}
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void mio_fini (mio_t* mio)
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{
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mio_dev_t* dev, * next_dev;
struct
{
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mio_dev_t* head;
mio_dev_t* tail;
} diehard;
mio_oow_t i;
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/* clean up free cwq list */
for (i = 0; i < MIO_COUNTOF(mio->cwqfl); i++)
{
mio_cwq_t* cwq;
while ((cwq = mio->cwqfl[i]))
{
mio->cwqfl[i] = cwq->next;
MIO_MMGR_FREE (mio->mmgr, cwq);
}
}
/* kill all registered devices */
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while (mio->actdev.head)
{
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mio_killdev (mio, mio->actdev.head);
}
/* kill all halted devices */
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while (mio->hltdev.head)
{
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mio_killdev (mio, mio->hltdev.head);
}
/* clean up all zombie devices */
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MIO_MEMSET (&diehard, 0, MIO_SIZEOF(diehard));
for (dev = mio->zmbdev.head; dev; )
{
kill_and_free_device (dev, 1);
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if (mio->zmbdev.head == dev)
{
/* the deive has not been freed. go on to the next one */
next_dev = dev->dev_next;
/* remove the device from the zombie device list */
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UNLINK_DEVICE_FROM_LIST (&mio->zmbdev, dev);
dev->dev_capa &= ~MIO_DEV_CAPA_ZOMBIE;
/* put it to a private list for aborting */
APPEND_DEVICE_TO_LIST (&diehard, dev);
dev = next_dev;
}
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else dev = mio->zmbdev.head;
}
while (diehard.head)
{
/* if the kill method returns failure, it can leak some resource
* because the device is freed regardless of the failure when 2
* is given to kill_and_free_device(). */
dev = diehard.head;
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MIO_ASSERT (mio, !(dev->dev_capa & (MIO_DEV_CAPA_ACTIVE | MIO_DEV_CAPA_HALTED | MIO_DEV_CAPA_ZOMBIE)));
UNLINK_DEVICE_FROM_LIST (&diehard, dev);
kill_and_free_device (dev, 2);
}
/* purge scheduled timer jobs and kill the timer */
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mio_cleartmrjobs (mio);
MIO_MMGR_FREE (mio->mmgr, mio->tmr.jobs);
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mio_sys_finimux (mio); /* close the multiplexer */
mio_sys_finilog (mio); /* close the system logger */
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}
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int mio_setoption (mio_t* mio, mio_option_t id, const void* value)
{
switch (id)
{
case MIO_TRAIT:
mio->option.trait = *(mio_bitmask_t*)value;
return 0;
case MIO_LOG_MASK:
mio->option.log_mask = *(mio_bitmask_t*)value;
return 0;
case MIO_LOG_MAXCAPA:
mio->option.log_maxcapa = *(mio_oow_t*)value;
return 0;
}
einval:
mio_seterrnum (mio, MIO_EINVAL);
return -1;
}
int mio_getoption (mio_t* mio, mio_option_t id, void* value)
{
switch (id)
{
case MIO_TRAIT:
*(mio_bitmask_t*)value = mio->option.trait;
return 0;
case MIO_LOG_MASK:
*(mio_bitmask_t*)value = mio->option.log_mask;
return 0;
case MIO_LOG_MAXCAPA:
*(mio_oow_t*)value = mio->option.log_maxcapa;
return 0;
};
mio_seterrnum (mio, MIO_EINVAL);
return -1;
}
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int mio_prologue (mio_t* mio)
{
/* TODO: */
return 0;
}
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void mio_epilogue (mio_t* mio)
{
/* TODO: */
}
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static MIO_INLINE void unlink_wq (mio_t* mio, mio_wq_t* q)
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{
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if (q->tmridx != MIO_TMRIDX_INVALID)
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{
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mio_deltmrjob (mio, q->tmridx);
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MIO_ASSERT (mio, q->tmridx == MIO_TMRIDX_INVALID);
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}
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MIO_WQ_UNLINK (q);
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}
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static MIO_INLINE void handle_event (mio_dev_t* dev, int events, int rdhup)
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{
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mio_t* mio;
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mio = dev->mio;
mio->renew_watch = 0;
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MIO_ASSERT (mio, mio == dev->mio);
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if (dev->dev_evcb->ready)
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{
int x, xevents;
xevents = events;
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if (rdhup) xevents |= MIO_DEV_EVENT_HUP;
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/* return value of ready()
* <= -1 - failure. kill the device.
* == 0 - ok. but don't invoke recv() or send().
* >= 1 - everything is ok. */
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x = dev->dev_evcb->ready(dev, xevents);
if (x <= -1)
{
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mio_dev_halt (dev);
return;
}
else if (x == 0) goto skip_evcb;
}
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if (dev && (events & MIO_DEV_EVENT_PRI))
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{
/* urgent data */
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/* TODO: implement urgent data handling */
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/*x = dev->dev_mth->urgread(dev, mio->bugbuf, &len);*/
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}
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if (dev && (events & MIO_DEV_EVENT_OUT))
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{
/* write pending requests */
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while (!MIO_WQ_ISEMPTY(&dev->wq))
{
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mio_wq_t* q;
const mio_uint8_t* uptr;
mio_iolen_t urem, ulen;
int x;
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q = MIO_WQ_HEAD(&dev->wq);
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uptr = q->ptr;
urem = q->len;
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send_leftover:
ulen = urem;
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x = dev->dev_mth->write(dev, uptr, &ulen, &q->dstaddr);
if (x <= -1)
{
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mio_dev_halt (dev);
dev = MIO_NULL;
break;
}
else if (x == 0)
{
/* keep the left-over */
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MIO_MEMMOVE (q->ptr, uptr, urem);
q->len = urem;
break;
}
else
{
uptr += ulen;
urem -= ulen;
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if (urem <= 0)
{
/* finished writing a single write request */
int y, out_closed = 0;
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if (q->len <= 0 && (dev->dev_capa & MIO_DEV_CAPA_STREAM))
{
/* it was a zero-length write request.
* for a stream, it is to close the output. */
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dev->dev_capa |= MIO_DEV_CAPA_OUT_CLOSED;
mio->renew_watch = 1;
out_closed = 1;
}
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unlink_wq (mio, q);
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y = dev->dev_evcb->on_write(dev, q->olen, q->ctx, &q->dstaddr);
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MIO_MMGR_FREE (mio->mmgr, q);
if (y <= -1)
{
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mio_dev_halt (dev);
dev = MIO_NULL;
break;
}
if (out_closed)
{
/* drain all pending requests.
* callbacks are skipped for drained requests */
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while (!MIO_WQ_ISEMPTY(&dev->wq))
{
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q = MIO_WQ_HEAD(&dev->wq);
unlink_wq (mio, q);
MIO_MMGR_FREE (dev->mio->mmgr, q);
}
break;
}
}
else goto send_leftover;
}
}
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if (dev && MIO_WQ_ISEMPTY(&dev->wq))
{
/* no pending request to write */
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if ((dev->dev_capa & MIO_DEV_CAPA_IN_CLOSED) &&
(dev->dev_capa & MIO_DEV_CAPA_OUT_CLOSED))
{
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mio_dev_halt (dev);
dev = MIO_NULL;
}
else
{
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mio->renew_watch = 1;
}
}
}
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if (dev && (events & MIO_DEV_EVENT_IN))
{
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mio_devaddr_t srcaddr;
mio_iolen_t len;
int x;
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/* the devices are all non-blocking. read as much as possible
* if on_read callback returns 1 or greater. read only once
* if the on_read calllback returns 0. */
while (1)
{
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len = MIO_COUNTOF(mio->bigbuf);
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x = dev->dev_mth->read(dev, mio->bigbuf, &len, &srcaddr);
if (x <= -1)
{
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mio_dev_halt (dev);
dev = MIO_NULL;
break;
}
if (dev->rtmridx != MIO_TMRIDX_INVALID)
{
/* delete the read timeout job on the device as the
* read operation will be reported below. */
mio_tmrjob_t tmrjob;
MIO_MEMSET (&tmrjob, 0, MIO_SIZEOF(tmrjob));
tmrjob.ctx = dev;
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mio_sys_gettime (&tmrjob.when);
MIO_ADD_NTIME (&tmrjob.when, &tmrjob.when, &dev->rtmout);
tmrjob.handler = on_read_timeout;
tmrjob.idxptr = &dev->rtmridx;
mio_updtmrjob (mio, dev->rtmridx, &tmrjob);
/*mio_deltmrjob (mio, dev->rtmridx);
dev->rtmridx = MIO_TMRIDX_INVALID;*/
}
if (x == 0)
{
/* no data is available - EWOULDBLOCK or something similar */
break;
}
else /*if (x >= 1) */
{
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if (len <= 0 && (dev->dev_capa & MIO_DEV_CAPA_STREAM))
{
/* EOF received. for a stream device, a zero-length
* read is interpreted as EOF. */
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dev->dev_capa |= MIO_DEV_CAPA_IN_CLOSED;
mio->renew_watch = 1;
/* call the on_read callback to report EOF */
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if (dev->dev_evcb->on_read(dev, mio->bigbuf, len, &srcaddr) <= -1 ||
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(dev->dev_capa & MIO_DEV_CAPA_OUT_CLOSED))
{
/* 1. input ended and its reporting failed or
* 2. input ended and no writing is possible */
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mio_dev_halt (dev);
dev = MIO_NULL;
}
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/* since EOF is received, reading can't be greedy */
break;
}
else
{
int y;
/* TODO: for a stream device, merge received data if bigbuf isn't full and fire the on_read callback
* when x == 0 or <= -1. you can */
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/* data available */
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y = dev->dev_evcb->on_read(dev, mio->bigbuf, len, &srcaddr);
if (y <= -1)
{
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mio_dev_halt (dev);
dev = MIO_NULL;
break;
}
else if (y == 0)
{
/* don't be greedy. read only once
* for this loop iteration */
break;
}
}
}
}
}
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if (dev)
{
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if (events & (MIO_DEV_EVENT_ERR | MIO_DEV_EVENT_HUP))
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{
/* if error or hangup has been reported on the device,
* halt the device. this check is performed after
* EPOLLIN or EPOLLOUT check because EPOLLERR or EPOLLHUP
* can be set together with EPOLLIN or EPOLLOUT. */
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dev->dev_capa |= MIO_DEV_CAPA_IN_CLOSED | MIO_DEV_CAPA_OUT_CLOSED;
mio->renew_watch = 1;
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}
else if (dev && rdhup)
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{
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if (events & (MIO_DEV_EVENT_IN | MIO_DEV_EVENT_OUT | MIO_DEV_EVENT_PRI))
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{
/* it may be a half-open state. don't do anything here
* to let the next read detect EOF */
}
else
{
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dev->dev_capa |= MIO_DEV_CAPA_IN_CLOSED | MIO_DEV_CAPA_OUT_CLOSED;
mio->renew_watch = 1;
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}
}
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if ((dev->dev_capa & MIO_DEV_CAPA_IN_CLOSED) &&
(dev->dev_capa & MIO_DEV_CAPA_OUT_CLOSED))
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{
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mio_dev_halt (dev);
dev = MIO_NULL;
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}
}
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skip_evcb:
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if (dev && mio->renew_watch && mio_dev_watch(dev, MIO_DEV_WATCH_RENEW, 0) <= -1)
{
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mio_dev_halt (dev);
dev = MIO_NULL;
}
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}
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static MIO_INLINE int __exec (mio_t* mio)
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{
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mio_ntime_t tmout;
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int nentries, i;
2019-01-27 02:09:22 +00:00
mio_sys_mux_t* mux;
2016-01-26 16:02:20 +00:00
2018-12-12 13:15:54 +00:00
/*if (!mio->actdev.head) return 0;*/
2016-01-26 16:02:20 +00:00
/* execute callbacks for completed write operations */
while (!MIO_CWQ_ISEMPTY(&mio->cwq))
{
mio_cwq_t* cwq;
mio_oow_t cwqfl_index;
cwq = MIO_CWQ_HEAD(&mio->cwq);
if (cwq->dev->dev_evcb->on_write(cwq->dev, cwq->olen, cwq->ctx, &cwq->dstaddr) <= -1) return -1;
cwq->dev->cw_count--;
MIO_CWQ_UNLINK (cwq);
cwqfl_index = MIO_ALIGN_POW2(cwq->dstaddr.len, MIO_CWQFL_ALIGN) / MIO_CWQFL_SIZE;
if (cwqfl_index < MIO_COUNTOF(mio->cwqfl))
{
/* reuse the cwq object if dstaddr is 0 in size. chain it to the free list */
cwq->next = mio->cwqfl[cwqfl_index];
mio->cwqfl[cwqfl_index] = cwq;
}
else
{
/* TODO: more reuse of objects of different size? */
MIO_MMGR_FREE (mio->mmgr, cwq);
}
}
/* execute the scheduled jobs before checking devices with the
* multiplexer. the scheduled jobs can safely destroy the devices */
2018-12-12 13:15:54 +00:00
mio_firetmrjobs (mio, MIO_NULL, MIO_NULL);
if (mio_gettmrtmout(mio, MIO_NULL, &tmout) <= -1)
2016-01-30 05:24:23 +00:00
{
/* defaults to 1 second if timeout can't be acquired */
tmout.sec = 1; /* TODO: make the default timeout configurable */
2016-01-30 05:24:23 +00:00
tmout.nsec = 0;
}
2016-01-26 16:02:20 +00:00
#if defined(_WIN32)
/*
2018-12-12 13:15:54 +00:00
if (GetQueuedCompletionStatusEx (mio->iocp, mio->ovls, MIO_COUNTOF(mio->ovls), &nentries, timeout, FALSE) == FALSE)
2016-01-26 16:02:20 +00:00
{
// TODO: set errnum
return -1;
}
for (i = 0; i < nentries; i++)
{
}
*/
#elif defined(USE_POLL)
2016-01-26 16:02:20 +00:00
2019-01-27 02:09:22 +00:00
mux = (mio_sys_mux_t*)mio->sys.mux;
nentries = poll(mux->pd.pfd, mux->pd.size, MIO_SECNSEC_TO_MSEC(tmout.sec, tmout.nsec));
if (nentries == -1)
{
if (errno == EINTR) return 0;
2019-01-27 02:09:22 +00:00
mio_seterrwithsyserr (mio, 0, errno);
return -1;
}
for (i = 0; i < mux->pd.size; i++)
{
if (mux->pd.pfd[i].fd >= 0 && mux->pd.pfd[i].revents)
{
int events = 0;
2018-12-12 13:15:54 +00:00
mio_dev_t* dev;
dev = mux->pd.dptr[i];
2019-01-27 02:09:22 +00:00
MIO_ASSERT (mio, !(mux->pd.pfd[i].revents & POLLNVAL));
2018-12-12 13:15:54 +00:00
if (mux->pd.pfd[i].revents & POLLIN) events |= MIO_DEV_EVENT_IN;
if (mux->pd.pfd[i].revents & POLLOUT) events |= MIO_DEV_EVENT_OUT;
if (mux->pd.pfd[i].revents & POLLPRI) events |= MIO_DEV_EVENT_PRI;
if (mux->pd.pfd[i].revents & POLLERR) events |= MIO_DEV_EVENT_ERR;
if (mux->pd.pfd[i].revents & POLLHUP) events |= MIO_DEV_EVENT_HUP;
handle_event (dev, events, 0);
}
}
#elif defined(USE_EPOLL)
2019-01-27 02:09:22 +00:00
mux = (mio_sys_mux_t*)mio->sys.mux;
nentries = epoll_wait(mux->hnd, mux->revs, MIO_COUNTOF(mux->revs), MIO_SECNSEC_TO_MSEC(tmout.sec, tmout.nsec));
if (nentries == -1)
2016-01-26 16:02:20 +00:00
{
2016-01-30 05:24:23 +00:00
if (errno == EINTR) return 0; /* it's actually ok */
/* other errors are critical - EBADF, EFAULT, EINVAL */
2019-01-27 02:09:22 +00:00
mio_seterrwithsyserr (mio, 0, errno);
2016-01-26 16:02:20 +00:00
return -1;
}
2016-01-30 05:24:23 +00:00
/* TODO: merge events??? for the same descriptor */
2016-01-26 16:02:20 +00:00
for (i = 0; i < nentries; i++)
{
int events = 0, rdhup = 0;
2018-12-12 13:15:54 +00:00
mio_dev_t* dev;
dev = mux->revs[i].data.ptr;
2018-12-12 13:15:54 +00:00
if (mux->revs[i].events & EPOLLIN) events |= MIO_DEV_EVENT_IN;
if (mux->revs[i].events & EPOLLOUT) events |= MIO_DEV_EVENT_OUT;
if (mux->revs[i].events & EPOLLPRI) events |= MIO_DEV_EVENT_PRI;
if (mux->revs[i].events & EPOLLERR) events |= MIO_DEV_EVENT_ERR;
if (mux->revs[i].events & EPOLLHUP) events |= MIO_DEV_EVENT_HUP;
#if defined(EPOLLRDHUP)
else if (mux->revs[i].events & EPOLLRDHUP) rdhup = 1;
#endif
handle_event (dev, events, rdhup);
2016-01-26 16:02:20 +00:00
}
#else
# error NO SUPPORTED MULTIPLEXER
#endif
/* kill all halted devices */
2018-12-12 13:15:54 +00:00
while (mio->hltdev.head)
{
2019-01-27 02:09:22 +00:00
MIO_DEBUG1 (mio, "Killing HALTED device %p\n", mio->hltdev.head);
2018-12-12 13:15:54 +00:00
mio_killdev (mio, mio->hltdev.head);
}
2019-01-27 02:09:22 +00:00
MIO_ASSERT (mio, mio->hltdev.tail == MIO_NULL);
2016-01-26 16:02:20 +00:00
return 0;
}
2018-12-12 13:15:54 +00:00
int mio_exec (mio_t* mio)
2016-02-05 13:25:59 +00:00
{
int n;
2018-12-12 13:15:54 +00:00
mio->in_exec = 1;
n = __exec (mio);
mio->in_exec = 0;
2016-02-05 13:25:59 +00:00
return n;
}
2018-12-12 13:15:54 +00:00
void mio_stop (mio_t* mio, mio_stopreq_t stopreq)
2016-01-26 16:02:20 +00:00
{
2018-12-12 13:15:54 +00:00
mio->stopreq = stopreq;
2016-01-26 16:02:20 +00:00
}
2018-12-12 13:15:54 +00:00
int mio_loop (mio_t* mio)
2016-01-26 16:02:20 +00:00
{
2018-12-12 13:15:54 +00:00
if (!mio->actdev.head) return 0;
2016-01-26 16:02:20 +00:00
2018-12-12 13:15:54 +00:00
mio->stopreq = MIO_STOPREQ_NONE;
mio->renew_watch = 0;
2019-01-11 07:35:43 +00:00
if (mio_prologue(mio) <= -1) return -1;
2016-01-26 16:02:20 +00:00
2018-12-12 13:15:54 +00:00
while (mio->stopreq == MIO_STOPREQ_NONE && mio->actdev.head)
2016-01-26 16:02:20 +00:00
{
2019-01-11 07:35:43 +00:00
if (mio_exec(mio) <= -1) break;
2016-01-26 16:02:20 +00:00
/* you can do other things here */
}
2019-01-11 07:35:43 +00:00
mio_epilogue(mio);
2016-01-26 16:02:20 +00:00
return 0;
}
2018-12-12 14:16:49 +00:00
mio_dev_t* mio_makedev (mio_t* mio, mio_oow_t dev_size, mio_dev_mth_t* dev_mth, mio_dev_evcb_t* dev_evcb, void* make_ctx)
2016-01-26 16:02:20 +00:00
{
2018-12-12 13:15:54 +00:00
mio_dev_t* dev;
2018-12-12 13:15:54 +00:00
if (dev_size < MIO_SIZEOF(mio_dev_t))
{
2018-12-12 13:15:54 +00:00
mio->errnum = MIO_EINVAL;
return MIO_NULL;
}
2019-01-11 07:35:43 +00:00
dev = MIO_MMGR_ALLOC(mio->mmgr, dev_size);
if (!dev)
{
mio->errnum = MIO_ESYSMEM;
2018-12-12 13:15:54 +00:00
return MIO_NULL;
}
2018-12-12 13:15:54 +00:00
MIO_MEMSET (dev, 0, dev_size);
dev->mio = mio;
dev->dev_size = dev_size;
/* default capability. dev->dev_mth->make() can change this.
2018-12-12 13:15:54 +00:00
* mio_dev_watch() is affected by the capability change. */
dev->dev_capa = MIO_DEV_CAPA_IN | MIO_DEV_CAPA_OUT;
dev->dev_mth = dev_mth;
dev->dev_evcb = dev_evcb;
2019-01-27 02:09:22 +00:00
MIO_INIT_NTIME (&dev->rtmout, 0, 0);
2019-01-17 08:09:19 +00:00
dev->rtmridx = MIO_TMRIDX_INVALID;
MIO_WQ_INIT (&dev->wq);
dev->cw_count = 0;
/* call the callback function first */
2018-12-12 13:15:54 +00:00
mio->errnum = MIO_ENOERR;
2019-01-11 07:35:43 +00:00
if (dev->dev_mth->make(dev, make_ctx) <= -1)
{
2018-12-12 13:15:54 +00:00
if (mio->errnum == MIO_ENOERR) mio->errnum = MIO_EDEVMAKE;
goto oops;
}
2016-04-02 15:25:35 +00:00
/* the make callback must not change these fields */
2019-01-27 02:09:22 +00:00
MIO_ASSERT (mio, dev->dev_mth == dev_mth);
MIO_ASSERT (mio, dev->dev_evcb == dev_evcb);
MIO_ASSERT (mio, dev->dev_prev == MIO_NULL);
MIO_ASSERT (mio, dev->dev_next == MIO_NULL);
2016-04-02 15:25:35 +00:00
/* set some internal capability bits according to the capabilities
* removed by the device making callback for convenience sake. */
2018-12-12 13:15:54 +00:00
if (!(dev->dev_capa & MIO_DEV_CAPA_IN)) dev->dev_capa |= MIO_DEV_CAPA_IN_CLOSED;
if (!(dev->dev_capa & MIO_DEV_CAPA_OUT)) dev->dev_capa |= MIO_DEV_CAPA_OUT_CLOSED;
#if defined(_WIN32)
if (CreateIoCompletionPort((HANDLE)dev->dev_mth->getsyshnd(dev), mio->iocp, MIO_IOCP_KEY, 0) == NULL)
{
/* TODO: set errnum from GetLastError()... */
goto oops_after_make;
}
#else
2019-01-11 07:35:43 +00:00
if (mio_dev_watch(dev, MIO_DEV_WATCH_START, 0) <= -1) goto oops_after_make;
#endif
/* and place the new device object at the back of the active device list */
2018-12-12 13:15:54 +00:00
APPEND_DEVICE_TO_LIST (&mio->actdev, dev);
dev->dev_capa |= MIO_DEV_CAPA_ACTIVE;
return dev;
oops_after_make:
2019-01-11 07:35:43 +00:00
if (kill_and_free_device(dev, 0) <= -1)
{
/* schedule a timer job that reattempts to destroy the device */
2019-01-11 07:35:43 +00:00
if (schedule_kill_zombie_job(dev) <= -1)
{
/* job scheduling failed. i have no choice but to
* destroy the device now.
*
* NOTE: this while loop can block the process
* if the kill method keep returning failure */
2019-01-11 07:35:43 +00:00
while (kill_and_free_device(dev, 1) <= -1)
{
2018-12-12 13:15:54 +00:00
if (mio->stopreq != MIO_STOPREQ_NONE)
{
/* i can't wait until destruction attempt gets
* fully successful. there is a chance that some
* resources can leak inside the device */
kill_and_free_device (dev, 2);
break;
}
}
}
2018-12-12 13:15:54 +00:00
return MIO_NULL;
}
oops:
2018-12-12 13:15:54 +00:00
MIO_MMGR_FREE (mio->mmgr, dev);
return MIO_NULL;
2016-01-26 16:02:20 +00:00
}
2018-12-12 13:15:54 +00:00
static int kill_and_free_device (mio_dev_t* dev, int force)
{
2018-12-12 13:15:54 +00:00
mio_t* mio;
2019-01-27 02:09:22 +00:00
MIO_ASSERT (mio, !(dev->dev_capa & MIO_DEV_CAPA_ACTIVE));
MIO_ASSERT (mio, !(dev->dev_capa & MIO_DEV_CAPA_HALTED));
2018-12-12 13:15:54 +00:00
mio = dev->mio;
if (dev->dev_mth->kill(dev, force) <= -1)
{
if (force >= 2) goto free_device;
2018-12-12 13:15:54 +00:00
if (!(dev->dev_capa & MIO_DEV_CAPA_ZOMBIE))
{
2018-12-12 13:15:54 +00:00
APPEND_DEVICE_TO_LIST (&mio->zmbdev, dev);
dev->dev_capa |= MIO_DEV_CAPA_ZOMBIE;
}
return -1;
}
free_device:
2018-12-12 13:15:54 +00:00
if (dev->dev_capa & MIO_DEV_CAPA_ZOMBIE)
{
/* detach it from the zombie device list */
2018-12-12 13:15:54 +00:00
UNLINK_DEVICE_FROM_LIST (&mio->zmbdev, dev);
dev->dev_capa &= ~MIO_DEV_CAPA_ZOMBIE;
}
2018-12-12 13:15:54 +00:00
MIO_MMGR_FREE (mio->mmgr, dev);
return 0;
}
2018-12-12 13:15:54 +00:00
static void kill_zombie_job_handler (mio_t* mio, const mio_ntime_t* now, mio_tmrjob_t* job)
{
2018-12-12 13:15:54 +00:00
mio_dev_t* dev = (mio_dev_t*)job->ctx;
2019-01-27 02:09:22 +00:00
MIO_ASSERT (mio, dev->dev_capa & MIO_DEV_CAPA_ZOMBIE);
2019-01-11 07:35:43 +00:00
if (kill_and_free_device(dev, 0) <= -1)
{
2019-01-11 07:35:43 +00:00
if (schedule_kill_zombie_job(dev) <= -1)
{
/* i have to choice but to free up the devide by force */
2019-01-11 07:35:43 +00:00
while (kill_and_free_device(dev, 1) <= -1)
{
2019-01-11 07:35:43 +00:00
if (mio->stopreq != MIO_STOPREQ_NONE)
{
/* i can't wait until destruction attempt gets
* fully successful. there is a chance that some
* resources can leak inside the device */
kill_and_free_device (dev, 2);
break;
}
}
}
}
}
2018-12-12 13:15:54 +00:00
static int schedule_kill_zombie_job (mio_dev_t* dev)
{
2018-12-12 13:15:54 +00:00
mio_tmrjob_t kill_zombie_job;
mio_ntime_t tmout;
2019-01-27 02:09:22 +00:00
MIO_INIT_NTIME (&tmout, 3, 0); /* TODO: take it from configuration */
2018-12-12 13:15:54 +00:00
MIO_MEMSET (&kill_zombie_job, 0, MIO_SIZEOF(kill_zombie_job));
kill_zombie_job.ctx = dev;
2019-01-27 02:09:22 +00:00
mio_sys_gettime (&kill_zombie_job.when);
MIO_ADD_NTIME (&kill_zombie_job.when, &kill_zombie_job.when, &tmout);
kill_zombie_job.handler = kill_zombie_job_handler;
/*kill_zombie_job.idxptr = &rdev->tmridx_kill_zombie;*/
2018-12-12 13:15:54 +00:00
return mio_instmrjob (dev->mio, &kill_zombie_job) == MIO_TMRIDX_INVALID? -1: 0;
}
2018-12-12 13:15:54 +00:00
void mio_killdev (mio_t* mio, mio_dev_t* dev)
2016-01-26 16:02:20 +00:00
{
2019-01-27 02:09:22 +00:00
MIO_ASSERT (mio, mio == dev->mio);
2016-01-26 16:02:20 +00:00
2018-12-12 13:15:54 +00:00
if (dev->dev_capa & MIO_DEV_CAPA_ZOMBIE)
{
2019-01-27 02:09:22 +00:00
MIO_ASSERT (mio, MIO_WQ_ISEMPTY(&dev->wq));
MIO_ASSERT (mio, dev->cw_count == 0);
MIO_ASSERT (mio, dev->rtmridx == MIO_TMRIDX_INVALID);
goto kill_device;
}
2019-01-17 08:09:19 +00:00
if (dev->rtmridx != MIO_TMRIDX_INVALID)
{
mio_deltmrjob (mio, dev->rtmridx);
dev->rtmridx = MIO_TMRIDX_INVALID;
}
/* clear completed write event queues - TODO: do i need to fire these? */
if (dev->cw_count > 0)
{
mio_cwq_t* cwq, * next;
cwq = MIO_CWQ_HEAD(&mio->cwq);
while (cwq != &mio->cwq)
{
next = MIO_CWQ_NEXT(cwq);
if (cwq->dev == dev)
{
MIO_CWQ_UNLINK (cwq);
MIO_MMGR_FREE (mio->mmgr, cwq);
}
cwq = next;
}
}
/* clear pending send requests */
2018-12-12 13:15:54 +00:00
while (!MIO_WQ_ISEMPTY(&dev->wq))
{
2018-12-12 13:15:54 +00:00
mio_wq_t* q;
q = MIO_WQ_HEAD(&dev->wq);
unlink_wq (mio, q);
MIO_MMGR_FREE (mio->mmgr, q);
}
2018-12-12 13:15:54 +00:00
if (dev->dev_capa & MIO_DEV_CAPA_HALTED)
{
/* this device is in the halted state.
* unlink it from the halted device list */
2018-12-12 13:15:54 +00:00
UNLINK_DEVICE_FROM_LIST (&mio->hltdev, dev);
dev->dev_capa &= ~MIO_DEV_CAPA_HALTED;
}
else
{
2019-01-27 02:09:22 +00:00
MIO_ASSERT (mio, dev->dev_capa & MIO_DEV_CAPA_ACTIVE);
2018-12-12 13:15:54 +00:00
UNLINK_DEVICE_FROM_LIST (&mio->actdev, dev);
dev->dev_capa &= ~MIO_DEV_CAPA_ACTIVE;
}
2018-12-12 13:15:54 +00:00
mio_dev_watch (dev, MIO_DEV_WATCH_STOP, 0);
kill_device:
if (kill_and_free_device(dev, 0) <= -1)
{
2019-01-27 02:09:22 +00:00
MIO_ASSERT (mio, dev->dev_capa & MIO_DEV_CAPA_ZOMBIE);
if (schedule_kill_zombie_job (dev) <= -1)
{
/* i have to choice but to free up the devide by force */
while (kill_and_free_device (dev, 1) <= -1)
{
2018-12-12 13:15:54 +00:00
if (mio->stopreq != MIO_STOPREQ_NONE)
{
/* i can't wait until destruction attempt gets
* fully successful. there is a chance that some
* resources can leak inside the device */
kill_and_free_device (dev, 2);
break;
}
}
}
}
}
2018-12-12 13:15:54 +00:00
void mio_dev_halt (mio_dev_t* dev)
{
2018-12-12 13:15:54 +00:00
if (dev->dev_capa & MIO_DEV_CAPA_ACTIVE)
{
2018-12-12 13:15:54 +00:00
mio_t* mio;
2018-12-12 13:15:54 +00:00
mio = dev->mio;
/* delink the device object from the active device list */
2018-12-12 13:15:54 +00:00
UNLINK_DEVICE_FROM_LIST (&mio->actdev, dev);
dev->dev_capa &= ~MIO_DEV_CAPA_ACTIVE;
/* place it at the back of the halted device list */
2018-12-12 13:15:54 +00:00
APPEND_DEVICE_TO_LIST (&mio->hltdev, dev);
dev->dev_capa |= MIO_DEV_CAPA_HALTED;
}
}
2018-12-12 13:15:54 +00:00
int mio_dev_ioctl (mio_dev_t* dev, int cmd, void* arg)
{
if (dev->dev_mth->ioctl) return dev->dev_mth->ioctl (dev, cmd, arg);
dev->mio->errnum = MIO_ENOIMPL; /* TODO: different error code ? */
return -1;
}
2018-12-12 13:15:54 +00:00
int mio_dev_watch (mio_dev_t* dev, mio_dev_watch_cmd_t cmd, int events)
{
int mux_cmd;
int dev_capa;
2016-01-26 16:02:20 +00:00
/* the virtual device doesn't perform actual I/O.
2018-12-12 13:15:54 +00:00
* it's different from not hanving MIO_DEV_CAPA_IN and MIO_DEV_CAPA_OUT.
* a non-virtual device without the capabilities still gets attention
* of the system multiplexer for hangup and error. */
2018-12-12 13:15:54 +00:00
if (dev->dev_capa & MIO_DEV_CAPA_VIRTUAL) return 0;
/*ev.data.ptr = dev;*/
2016-01-26 16:02:20 +00:00
switch (cmd)
{
2018-12-12 13:15:54 +00:00
case MIO_DEV_WATCH_START:
/* upon start, only input watching is requested */
2018-12-12 13:15:54 +00:00
events = MIO_DEV_EVENT_IN;
2019-01-27 02:09:22 +00:00
mux_cmd = MIO_SYS_MUX_CMD_INSERT;
2016-01-26 16:02:20 +00:00
break;
2018-12-12 13:15:54 +00:00
case MIO_DEV_WATCH_RENEW:
/* auto-renwal mode. input watching is requested all the time.
* output watching is requested only if there're enqueued
* data for writing. */
2018-12-12 13:15:54 +00:00
events = MIO_DEV_EVENT_IN;
if (!MIO_WQ_ISEMPTY(&dev->wq)) events |= MIO_DEV_EVENT_OUT;
/* fall through */
2018-12-12 13:15:54 +00:00
case MIO_DEV_WATCH_UPDATE:
/* honor event watching requests as given by the caller */
2019-01-27 02:09:22 +00:00
mux_cmd = MIO_SYS_MUX_CMD_UPDATE;
2016-01-26 16:02:20 +00:00
break;
2018-12-12 13:15:54 +00:00
case MIO_DEV_WATCH_STOP:
events = 0; /* override events */
2019-01-27 02:09:22 +00:00
mux_cmd = MIO_SYS_MUX_CMD_DELETE;
2016-01-26 16:02:20 +00:00
break;
default:
2018-12-12 13:15:54 +00:00
dev->mio->errnum = MIO_EINVAL;
2016-01-26 16:02:20 +00:00
return -1;
}
dev_capa = dev->dev_capa;
dev_capa &= ~(DEV_CAPA_ALL_WATCHED);
2018-12-12 13:15:54 +00:00
/* this function honors MIO_DEV_EVENT_IN and MIO_DEV_EVENT_OUT only
* as valid input event bits. it intends to provide simple abstraction
* by reducing the variety of event bits that the caller has to handle. */
2018-12-12 13:15:54 +00:00
if ((events & MIO_DEV_EVENT_IN) && !(dev->dev_capa & (MIO_DEV_CAPA_IN_CLOSED | MIO_DEV_CAPA_IN_DISABLED)))
2016-01-26 16:02:20 +00:00
{
2018-12-12 13:15:54 +00:00
if (dev->dev_capa & MIO_DEV_CAPA_IN)
{
2018-12-12 13:15:54 +00:00
if (dev->dev_capa & MIO_DEV_CAPA_PRI) dev_capa |= MIO_DEV_CAPA_PRI_WATCHED;
dev_capa |= MIO_DEV_CAPA_IN_WATCHED;
}
2016-01-26 16:02:20 +00:00
}
2018-12-12 13:15:54 +00:00
if ((events & MIO_DEV_EVENT_OUT) && !(dev->dev_capa & MIO_DEV_CAPA_OUT_CLOSED))
{
2018-12-12 13:15:54 +00:00
if (dev->dev_capa & MIO_DEV_CAPA_OUT) dev_capa |= MIO_DEV_CAPA_OUT_WATCHED;
}
2019-01-27 02:09:22 +00:00
if (mux_cmd == MIO_SYS_MUX_CMD_UPDATE && (dev_capa & DEV_CAPA_ALL_WATCHED) == (dev->dev_capa & DEV_CAPA_ALL_WATCHED))
{
2016-04-18 14:21:23 +00:00
/* no change in the device capacity. skip calling epoll_ctl */
}
else
{
2019-01-27 02:09:22 +00:00
if (mio_sys_ctrlmux(dev->mio, mux_cmd, dev, dev_capa) <= -1) return -1;
}
dev->dev_capa = dev_capa;
2016-01-26 16:02:20 +00:00
return 0;
}
2019-01-17 08:09:19 +00:00
static void on_read_timeout (mio_t* mio, const mio_ntime_t* now, mio_tmrjob_t* job)
{
mio_dev_t* dev;
int x;
dev = (mio_dev_t*)job->ctx;
dev->mio->errnum = MIO_ETMOUT;
x = dev->dev_evcb->on_read(dev, MIO_NULL, -1, MIO_NULL);
2019-01-27 02:09:22 +00:00
MIO_ASSERT (mio, dev->rtmridx == MIO_TMRIDX_INVALID);
2019-01-17 08:09:19 +00:00
if (x <= -1) mio_dev_halt (dev);
}
static int __dev_read (mio_dev_t* dev, int enabled, const mio_ntime_t* tmout, void* rdctx)
{
if (dev->dev_capa & MIO_DEV_CAPA_IN_CLOSED)
{
dev->mio->errnum = MIO_ENOCAPA;
return -1;
}
if (enabled)
{
dev->dev_capa &= ~MIO_DEV_CAPA_IN_DISABLED;
if (!dev->mio->in_exec && (dev->dev_capa & MIO_DEV_CAPA_IN_WATCHED)) goto renew_watch_now;
}
else
{
dev->dev_capa |= MIO_DEV_CAPA_IN_DISABLED;
if (!dev->mio->in_exec && !(dev->dev_capa & MIO_DEV_CAPA_IN_WATCHED)) goto renew_watch_now;
}
dev->mio->renew_watch = 1;
goto update_timer;
renew_watch_now:
if (mio_dev_watch(dev, MIO_DEV_WATCH_RENEW, 0) <= -1) return -1;
goto update_timer;
update_timer:
if (dev->rtmridx != MIO_TMRIDX_INVALID)
{
/* read timeout already on the socket. remove it first */
mio_deltmrjob (dev->mio, dev->rtmridx);
dev->rtmridx = MIO_TMRIDX_INVALID;
}
2019-01-27 02:09:22 +00:00
if (tmout && MIO_IS_POS_NTIME(tmout))
2019-01-17 08:09:19 +00:00
{
mio_tmrjob_t tmrjob;
MIO_MEMSET (&tmrjob, 0, MIO_SIZEOF(tmrjob));
tmrjob.ctx = dev;
2019-01-27 02:09:22 +00:00
mio_sys_gettime (&tmrjob.when);
MIO_ADD_NTIME (&tmrjob.when, &tmrjob.when, tmout);
2019-01-17 08:09:19 +00:00
tmrjob.handler = on_read_timeout;
tmrjob.idxptr = &dev->rtmridx;
dev->rtmridx = mio_instmrjob(dev->mio, &tmrjob);
if (dev->rtmridx == MIO_TMRIDX_INVALID)
{
/* if timer registration fails, timeout will never be triggered */
return -1;
}
dev->rtmout = *tmout;
2019-01-17 08:09:19 +00:00
}
return 0;
}
2018-12-12 13:15:54 +00:00
int mio_dev_read (mio_dev_t* dev, int enabled)
{
2019-01-17 08:09:19 +00:00
return __dev_read(dev, enabled, MIO_NULL, MIO_NULL);
#if 0
2018-12-12 13:15:54 +00:00
if (dev->dev_capa & MIO_DEV_CAPA_IN_CLOSED)
2016-02-05 13:25:59 +00:00
{
2018-12-12 13:15:54 +00:00
dev->mio->errnum = MIO_ENOCAPA;
2016-02-05 13:25:59 +00:00
return -1;
}
if (enabled)
2016-02-05 13:25:59 +00:00
{
2018-12-12 13:15:54 +00:00
dev->dev_capa &= ~MIO_DEV_CAPA_IN_DISABLED;
if (!dev->mio->in_exec && (dev->dev_capa & MIO_DEV_CAPA_IN_WATCHED)) goto renew_watch_now;
2016-02-05 13:25:59 +00:00
}
else
2016-02-05 13:25:59 +00:00
{
2018-12-12 13:15:54 +00:00
dev->dev_capa |= MIO_DEV_CAPA_IN_DISABLED;
if (!dev->mio->in_exec && !(dev->dev_capa & MIO_DEV_CAPA_IN_WATCHED)) goto renew_watch_now;
2016-02-05 13:25:59 +00:00
}
2018-12-12 13:15:54 +00:00
dev->mio->renew_watch = 1;
2016-02-05 13:25:59 +00:00
return 0;
renew_watch_now:
if (mio_dev_watch(dev, MIO_DEV_WATCH_RENEW, 0) <= -1) return -1;
2016-02-05 13:25:59 +00:00
return 0;
2019-01-17 08:09:19 +00:00
#endif
}
int mio_dev_timedread (mio_dev_t* dev, int enabled, const mio_ntime_t* tmout)
{
return __dev_read(dev, enabled, tmout, MIO_NULL);
}
2018-12-12 13:15:54 +00:00
static void on_write_timeout (mio_t* mio, const mio_ntime_t* now, mio_tmrjob_t* job)
2016-02-05 13:25:59 +00:00
{
2018-12-12 13:15:54 +00:00
mio_wq_t* q;
mio_dev_t* dev;
2016-02-05 13:25:59 +00:00
int x;
2018-12-12 13:15:54 +00:00
q = (mio_wq_t*)job->ctx;
2016-02-05 13:25:59 +00:00
dev = q->dev;
2018-12-12 13:15:54 +00:00
dev->mio->errnum = MIO_ETMOUT;
x = dev->dev_evcb->on_write(dev, -1, q->ctx, &q->dstaddr);
2016-02-05 13:25:59 +00:00
2019-01-27 02:09:22 +00:00
MIO_ASSERT (mio, q->tmridx == MIO_TMRIDX_INVALID);
2018-12-12 13:15:54 +00:00
MIO_WQ_UNLINK(q);
MIO_MMGR_FREE (mio->mmgr, q);
2016-02-05 13:25:59 +00:00
2018-12-12 13:15:54 +00:00
if (x <= -1) mio_dev_halt (dev);
2016-02-05 13:25:59 +00:00
}
2018-12-12 13:15:54 +00:00
static int __dev_write (mio_dev_t* dev, const void* data, mio_iolen_t len, const mio_ntime_t* tmout, void* wrctx, const mio_devaddr_t* dstaddr)
{
2018-12-12 13:15:54 +00:00
const mio_uint8_t* uptr;
mio_iolen_t urem, ulen;
mio_wq_t* q;
mio_cwq_t* cwq;
mio_oow_t cwq_extra_aligned, cwqfl_index;
int x;
2018-12-12 13:15:54 +00:00
if (dev->dev_capa & MIO_DEV_CAPA_OUT_CLOSED)
{
2018-12-12 13:15:54 +00:00
dev->mio->errnum = MIO_ENOCAPA;
return -1;
}
uptr = data;
urem = len;
2018-12-12 13:15:54 +00:00
if (!MIO_WQ_ISEMPTY(&dev->wq))
{
/* the writing queue is not empty.
* enqueue this request immediately */
goto enqueue_data;
}
2018-12-12 13:15:54 +00:00
if (dev->dev_capa & MIO_DEV_CAPA_STREAM)
{
2016-02-05 13:25:59 +00:00
/* use the do..while() loop to be able to send a zero-length data */
do
{
2016-02-05 13:25:59 +00:00
ulen = urem;
x = dev->dev_mth->write(dev, data, &ulen, dstaddr);
2016-02-05 13:25:59 +00:00
if (x <= -1) return -1;
else if (x == 0)
{
/* [NOTE]
* the write queue is empty at this moment. a zero-length
2019-01-11 07:35:43 +00:00
* request for a stream device can still get enqueued if the
2016-02-05 13:25:59 +00:00
* write callback returns 0 though i can't figure out if there
* is a compelling reason to do so
*/
goto enqueue_data; /* enqueue remaining data */
}
else
{
urem -= ulen;
uptr += ulen;
}
}
2016-02-05 13:25:59 +00:00
while (urem > 0);
if (len <= 0) /* original length */
{
2016-02-05 13:25:59 +00:00
/* a zero-length writing request is to close the writing end */
2018-12-12 13:15:54 +00:00
dev->dev_capa |= MIO_DEV_CAPA_OUT_CLOSED;
}
/* if i trigger the write completion callback here, the performance
* may increase, but there can be annoying recursion issues if the
* callback requests another writing operation. it's imperative to
* delay the callback until this write function is finished.
* ---> if (dev->dev_evcb->on_write(dev, len, wrctx, dstaddr) <= -1) return -1; */
goto enqueue_completed_write;
2016-02-05 13:25:59 +00:00
}
else
{
2016-02-05 13:25:59 +00:00
ulen = urem;
2016-04-02 15:25:35 +00:00
2016-04-18 14:21:23 +00:00
x = dev->dev_mth->write (dev, data, &ulen, dstaddr);
2016-02-05 13:25:59 +00:00
if (x <= -1) return -1;
else if (x == 0) goto enqueue_data;
/* partial writing is still considered ok for a non-stream device. */
/* read the comment in the 'if' block above for why i enqueue the write completion event
* instead of calling the event callback here...
* --> if (dev->dev_evcb->on_write(dev, ulen, wrctx, dstaddr) <= -1) return -1; */
goto enqueue_completed_write;
}
2016-02-05 13:25:59 +00:00
return 1; /* written immediately and called on_write callback */
enqueue_data:
2018-12-12 13:15:54 +00:00
if (!(dev->dev_capa & MIO_DEV_CAPA_OUT_QUEUED))
2016-03-29 15:02:01 +00:00
{
/* writing queuing is not requested. so return failure */
2018-12-12 13:15:54 +00:00
dev->mio->errnum = MIO_ENOCAPA;
2016-03-29 15:02:01 +00:00
return -1;
}
/* queue the remaining data*/
q = (mio_wq_t*)MIO_MMGR_ALLOC(dev->mio->mmgr, MIO_SIZEOF(*q) + (dstaddr? dstaddr->len: 0) + urem);
if (!q)
{
dev->mio->errnum = MIO_ESYSMEM;
return -1;
}
2018-12-12 13:15:54 +00:00
q->tmridx = MIO_TMRIDX_INVALID;
2016-02-05 13:25:59 +00:00
q->dev = dev;
q->ctx = wrctx;
2016-03-29 15:02:01 +00:00
2016-04-18 14:21:23 +00:00
if (dstaddr)
2016-03-29 15:02:01 +00:00
{
2018-12-12 13:15:54 +00:00
q->dstaddr.ptr = (mio_uint8_t*)(q + 1);
2016-04-18 14:21:23 +00:00
q->dstaddr.len = dstaddr->len;
2018-12-12 13:15:54 +00:00
MIO_MEMCPY (q->dstaddr.ptr, dstaddr->ptr, dstaddr->len);
2016-03-29 15:02:01 +00:00
}
else
{
2016-04-18 14:21:23 +00:00
q->dstaddr.len = 0;
2016-03-29 15:02:01 +00:00
}
2018-12-12 13:15:54 +00:00
q->ptr = (mio_uint8_t*)(q + 1) + q->dstaddr.len;
q->len = urem;
2016-02-05 13:25:59 +00:00
q->olen = len;
2018-12-12 13:15:54 +00:00
MIO_MEMCPY (q->ptr, uptr, urem);
2019-01-27 02:09:22 +00:00
if (tmout && MIO_IS_POS_NTIME(tmout))
2016-02-05 13:25:59 +00:00
{
2018-12-12 13:15:54 +00:00
mio_tmrjob_t tmrjob;
2018-12-12 13:15:54 +00:00
MIO_MEMSET (&tmrjob, 0, MIO_SIZEOF(tmrjob));
2016-02-05 13:25:59 +00:00
tmrjob.ctx = q;
2019-01-27 02:09:22 +00:00
mio_sys_gettime (&tmrjob.when);
MIO_ADD_NTIME (&tmrjob.when, &tmrjob.when, tmout);
2016-02-05 13:25:59 +00:00
tmrjob.handler = on_write_timeout;
tmrjob.idxptr = &q->tmridx;
2019-01-11 07:35:43 +00:00
q->tmridx = mio_instmrjob(dev->mio, &tmrjob);
2018-12-12 13:15:54 +00:00
if (q->tmridx == MIO_TMRIDX_INVALID)
2016-02-05 13:25:59 +00:00
{
2018-12-12 13:15:54 +00:00
MIO_MMGR_FREE (dev->mio->mmgr, q);
2016-02-05 13:25:59 +00:00
return -1;
}
}
2018-12-12 13:15:54 +00:00
MIO_WQ_ENQ (&dev->wq, q);
if (!dev->mio->in_exec && !(dev->dev_capa & MIO_DEV_CAPA_OUT_WATCHED))
{
/* if output is not being watched, arrange to do so */
2019-01-11 07:35:43 +00:00
if (mio_dev_watch(dev, MIO_DEV_WATCH_RENEW, 0) <= -1)
{
2018-12-12 13:15:54 +00:00
unlink_wq (dev->mio, q);
MIO_MMGR_FREE (dev->mio->mmgr, q);
return -1;
}
}
2016-02-05 13:25:59 +00:00
else
{
2018-12-12 13:15:54 +00:00
dev->mio->renew_watch = 1;
2016-02-05 13:25:59 +00:00
}
2016-02-05 13:25:59 +00:00
return 0; /* request pused to a write queue. */
enqueue_completed_write:
/* queue the remaining data*/
cwq_extra_aligned = (dstaddr? dstaddr->len: 0);
cwq_extra_aligned = MIO_ALIGN_POW2(cwq_extra_aligned, MIO_CWQFL_ALIGN);
cwqfl_index = cwq_extra_aligned / MIO_CWQFL_SIZE;
if (cwqfl_index < MIO_COUNTOF(dev->mio->cwqfl) && dev->mio->cwqfl[cwqfl_index])
{
/* take an available cwq object from the free cwq list */
cwq = dev->mio->cwqfl[cwqfl_index];
dev->mio->cwqfl[cwqfl_index] = cwq->next;
}
else
{
cwq = (mio_cwq_t*)MIO_MMGR_ALLOC(dev->mio->mmgr, MIO_SIZEOF(*cwq) + cwq_extra_aligned);
if (!cwq)
{
dev->mio->errnum = MIO_ESYSMEM;
return -1;
}
}
MIO_MEMSET (cwq, 0, MIO_SIZEOF(*cwq));
cwq->dev = dev;
cwq->ctx = wrctx;
if (dstaddr)
{
cwq->dstaddr.ptr = (mio_uint8_t*)(cwq + 1);
cwq->dstaddr.len = dstaddr->len;
MIO_MEMCPY (cwq->dstaddr.ptr, dstaddr->ptr, dstaddr->len);
}
else
{
cwq->dstaddr.len = 0;
}
cwq->olen = len;
MIO_CWQ_ENQ (&dev->mio->cwq, cwq);
dev->cw_count++; /* increment the number of complete write operations */
return 0;
2016-02-05 13:25:59 +00:00
}
2018-12-12 13:15:54 +00:00
int mio_dev_write (mio_dev_t* dev, const void* data, mio_iolen_t len, void* wrctx, const mio_devaddr_t* dstaddr)
2016-02-05 13:25:59 +00:00
{
2019-01-11 07:35:43 +00:00
return __dev_write(dev, data, len, MIO_NULL, wrctx, dstaddr);
2016-02-05 13:25:59 +00:00
}
2018-12-12 13:15:54 +00:00
int mio_dev_timedwrite (mio_dev_t* dev, const void* data, mio_iolen_t len, const mio_ntime_t* tmout, void* wrctx, const mio_devaddr_t* dstaddr)
2016-02-05 13:25:59 +00:00
{
2019-01-11 07:35:43 +00:00
return __dev_write(dev, data, len, tmout, wrctx, dstaddr);
}
2016-01-31 02:05:39 +00:00
2018-12-12 13:15:54 +00:00
int mio_makesyshndasync (mio_t* mio, mio_syshnd_t hnd)
{
#if defined(F_GETFL) && defined(F_SETFL) && defined(O_NONBLOCK)
int flags;
2019-01-11 07:35:43 +00:00
if ((flags = fcntl(hnd, F_GETFL)) <= -1 ||
(flags = fcntl(hnd, F_SETFL, flags | O_NONBLOCK)) <= -1)
{
2019-01-27 02:09:22 +00:00
mio_seterrwithsyserr (mio, 0, errno);
return -1;
}
return 0;
#else
2019-01-27 02:09:22 +00:00
mio->errnum = MIO_ENOIMPL;
return -1;
#endif
}
/* -------------------------------------------------------------------------- */
void* mio_allocmem (mio_t* mio, mio_oow_t size)
{
void* ptr;
ptr = MIO_MMGR_ALLOC (mio->mmgr, size);
if (!ptr) mio_seterrnum (mio, MIO_ESYSMEM);
return ptr;
}
void* mio_callocmem (mio_t* mio, mio_oow_t size)
{
void* ptr;
ptr = MIO_MMGR_ALLOC (mio->mmgr, size);
if (!ptr) mio_seterrnum (mio, MIO_ESYSMEM);
else MIO_MEMSET (ptr, 0, size);
return ptr;
}
void* mio_reallocmem (mio_t* mio, void* ptr, mio_oow_t size)
{
ptr = MIO_MMGR_REALLOC (mio->mmgr, ptr, size);
if (!ptr) mio_seterrnum (mio, MIO_ESYSMEM);
return ptr;
}
void mio_freemem (mio_t* mio, void* ptr)
{
MIO_MMGR_FREE (mio->mmgr, ptr);
}