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|
/*
* Copyright (c) 2002-2007 Niels Provos <provos@citi.umich.edu>
* Copyright (c) 2007-2012 Niels Provos and Nick Mathewson
*
* 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.
* 3. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* 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.
*/
#include "event2/event-config.h"
#ifdef WIN32
#include <winsock2.h>
#include <windows.h>
#include <io.h>
#endif
#ifdef _EVENT_HAVE_VASPRINTF
/* If we have vasprintf, we need to define this before we include stdio.h. */
#define _GNU_SOURCE
#endif
#include <sys/types.h>
#ifdef _EVENT_HAVE_SYS_TIME_H
#include <sys/time.h>
#endif
#ifdef _EVENT_HAVE_SYS_SOCKET_H
#include <sys/socket.h>
#endif
#ifdef _EVENT_HAVE_SYS_UIO_H
#include <sys/uio.h>
#endif
#ifdef _EVENT_HAVE_SYS_IOCTL_H
#include <sys/ioctl.h>
#endif
#ifdef _EVENT_HAVE_SYS_MMAN_H
#include <sys/mman.h>
#endif
#ifdef _EVENT_HAVE_SYS_SENDFILE_H
#include <sys/sendfile.h>
#endif
#include <errno.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#ifdef _EVENT_HAVE_STDARG_H
#include <stdarg.h>
#endif
#ifdef _EVENT_HAVE_UNISTD_H
#include <unistd.h>
#endif
#include <limits.h>
#include "event2/event.h"
#include "event2/buffer.h"
#include "event2/buffer_compat.h"
#include "event2/bufferevent.h"
#include "event2/bufferevent_compat.h"
#include "event2/bufferevent_struct.h"
#include "event2/thread.h"
#include "event2/event-config.h"
#include "log-internal.h"
#include "mm-internal.h"
#include "util-internal.h"
#include "evthread-internal.h"
#include "evbuffer-internal.h"
#include "bufferevent-internal.h"
/* some systems do not have MAP_FAILED */
#ifndef MAP_FAILED
#define MAP_FAILED ((void *)-1)
#endif
/* send file support */
#if defined(_EVENT_HAVE_SYS_SENDFILE_H) && defined(_EVENT_HAVE_SENDFILE) && defined(__linux__)
#define USE_SENDFILE 1
#define SENDFILE_IS_LINUX 1
#elif defined(_EVENT_HAVE_SENDFILE) && defined(__FreeBSD__)
#define USE_SENDFILE 1
#define SENDFILE_IS_FREEBSD 1
#elif defined(_EVENT_HAVE_SENDFILE) && defined(__APPLE__)
#define USE_SENDFILE 1
#define SENDFILE_IS_MACOSX 1
#elif defined(_EVENT_HAVE_SENDFILE) && defined(__sun__) && defined(__svr4__)
#define USE_SENDFILE 1
#define SENDFILE_IS_SOLARIS 1
#endif
#ifdef USE_SENDFILE
static int use_sendfile = 1;
#endif
#ifdef _EVENT_HAVE_MMAP
static int use_mmap = 1;
#endif
/* Mask of user-selectable callback flags. */
#define EVBUFFER_CB_USER_FLAGS 0xffff
/* Mask of all internal-use-only flags. */
#define EVBUFFER_CB_INTERNAL_FLAGS 0xffff0000
/* Flag set if the callback is using the cb_obsolete function pointer */
#define EVBUFFER_CB_OBSOLETE 0x00040000
/* evbuffer_chain support */
#define CHAIN_SPACE_PTR(ch) ((ch)->buffer + (ch)->misalign + (ch)->off)
#define CHAIN_SPACE_LEN(ch) ((ch)->flags & EVBUFFER_IMMUTABLE ? \
0 : (ch)->buffer_len - ((ch)->misalign + (ch)->off))
#define CHAIN_PINNED(ch) (((ch)->flags & EVBUFFER_MEM_PINNED_ANY) != 0)
#define CHAIN_PINNED_R(ch) (((ch)->flags & EVBUFFER_MEM_PINNED_R) != 0)
static void evbuffer_chain_align(struct evbuffer_chain *chain);
static int evbuffer_chain_should_realign(struct evbuffer_chain *chain,
size_t datalen);
static void evbuffer_deferred_callback(struct deferred_cb *cb, void *arg);
static int evbuffer_ptr_memcmp(const struct evbuffer *buf,
const struct evbuffer_ptr *pos, const char *mem, size_t len);
static struct evbuffer_chain *evbuffer_expand_singlechain(struct evbuffer *buf,
size_t datlen);
#ifdef WIN32
static int evbuffer_readfile(struct evbuffer *buf, evutil_socket_t fd,
ev_ssize_t howmuch);
#else
#define evbuffer_readfile evbuffer_read
#endif
static struct evbuffer_chain *
evbuffer_chain_new(size_t size)
{
struct evbuffer_chain *chain;
size_t to_alloc;
size += EVBUFFER_CHAIN_SIZE;
/* get the next largest memory that can hold the buffer */
to_alloc = MIN_BUFFER_SIZE;
while (to_alloc < size)
to_alloc <<= 1;
/* we get everything in one chunk */
if ((chain = mm_malloc(to_alloc)) == NULL)
return (NULL);
memset(chain, 0, EVBUFFER_CHAIN_SIZE);
chain->buffer_len = to_alloc - EVBUFFER_CHAIN_SIZE;
/* this way we can manipulate the buffer to different addresses,
* which is required for mmap for example.
*/
chain->buffer = EVBUFFER_CHAIN_EXTRA(u_char, chain);
return (chain);
}
static inline void
evbuffer_chain_free(struct evbuffer_chain *chain)
{
if (CHAIN_PINNED(chain)) {
chain->flags |= EVBUFFER_DANGLING;
return;
}
if (chain->flags & (EVBUFFER_MMAP|EVBUFFER_SENDFILE|
EVBUFFER_REFERENCE)) {
if (chain->flags & EVBUFFER_REFERENCE) {
struct evbuffer_chain_reference *info =
EVBUFFER_CHAIN_EXTRA(
struct evbuffer_chain_reference,
chain);
if (info->cleanupfn)
(*info->cleanupfn)(chain->buffer,
chain->buffer_len,
info->extra);
}
#ifdef _EVENT_HAVE_MMAP
if (chain->flags & EVBUFFER_MMAP) {
struct evbuffer_chain_fd *info =
EVBUFFER_CHAIN_EXTRA(struct evbuffer_chain_fd,
chain);
if (munmap(chain->buffer, chain->buffer_len) == -1)
event_warn("%s: munmap failed", __func__);
if (close(info->fd) == -1)
event_warn("%s: close(%d) failed",
__func__, info->fd);
}
#endif
#ifdef USE_SENDFILE
if (chain->flags & EVBUFFER_SENDFILE) {
struct evbuffer_chain_fd *info =
EVBUFFER_CHAIN_EXTRA(struct evbuffer_chain_fd,
chain);
if (close(info->fd) == -1)
event_warn("%s: close(%d) failed",
__func__, info->fd);
}
#endif
}
mm_free(chain);
}
static void
evbuffer_free_all_chains(struct evbuffer_chain *chain)
{
struct evbuffer_chain *next;
for (; chain; chain = next) {
next = chain->next;
evbuffer_chain_free(chain);
}
}
#ifndef NDEBUG
static int
evbuffer_chains_all_empty(struct evbuffer_chain *chain)
{
for (; chain; chain = chain->next) {
if (chain->off)
return 0;
}
return 1;
}
#else
/* The definition is needed for EVUTIL_ASSERT, which uses sizeof to avoid
"unused variable" warnings. */
static inline int evbuffer_chains_all_empty(struct evbuffer_chain *chain) {
return 1;
}
#endif
/* Free all trailing chains in 'buf' that are neither pinned nor empty, prior
* to replacing them all with a new chain. Return a pointer to the place
* where the new chain will go.
*
* Internal; requires lock. The caller must fix up buf->last and buf->first
* as needed; they might have been freed.
*/
static struct evbuffer_chain **
evbuffer_free_trailing_empty_chains(struct evbuffer *buf)
{
struct evbuffer_chain **ch = buf->last_with_datap;
/* Find the first victim chain. It might be *last_with_datap */
while ((*ch) && ((*ch)->off != 0 || CHAIN_PINNED(*ch)))
ch = &(*ch)->next;
if (*ch) {
EVUTIL_ASSERT(evbuffer_chains_all_empty(*ch));
evbuffer_free_all_chains(*ch);
*ch = NULL;
}
return ch;
}
/* Add a single chain 'chain' to the end of 'buf', freeing trailing empty
* chains as necessary. Requires lock. Does not schedule callbacks.
*/
static void
evbuffer_chain_insert(struct evbuffer *buf,
struct evbuffer_chain *chain)
{
ASSERT_EVBUFFER_LOCKED(buf);
if (*buf->last_with_datap == NULL) {
/* There are no chains data on the buffer at all. */
EVUTIL_ASSERT(buf->last_with_datap == &buf->first);
EVUTIL_ASSERT(buf->first == NULL);
buf->first = buf->last = chain;
} else {
struct evbuffer_chain **ch = buf->last_with_datap;
/* Find the first victim chain. It might be *last_with_datap */
while ((*ch) && ((*ch)->off != 0 || CHAIN_PINNED(*ch)))
ch = &(*ch)->next;
if (*ch == NULL) {
/* There is no victim; just append this new chain. */
buf->last->next = chain;
if (chain->off)
buf->last_with_datap = &buf->last->next;
} else {
/* Replace all victim chains with this chain. */
EVUTIL_ASSERT(evbuffer_chains_all_empty(*ch));
evbuffer_free_all_chains(*ch);
*ch = chain;
}
buf->last = chain;
}
buf->total_len += chain->off;
}
static inline struct evbuffer_chain *
evbuffer_chain_insert_new(struct evbuffer *buf, size_t datlen)
{
struct evbuffer_chain *chain;
if ((chain = evbuffer_chain_new(datlen)) == NULL)
return NULL;
evbuffer_chain_insert(buf, chain);
return chain;
}
void
_evbuffer_chain_pin(struct evbuffer_chain *chain, unsigned flag)
{
EVUTIL_ASSERT((chain->flags & flag) == 0);
chain->flags |= flag;
}
void
_evbuffer_chain_unpin(struct evbuffer_chain *chain, unsigned flag)
{
EVUTIL_ASSERT((chain->flags & flag) != 0);
chain->flags &= ~flag;
if (chain->flags & EVBUFFER_DANGLING)
evbuffer_chain_free(chain);
}
struct evbuffer *
evbuffer_new(void)
{
struct evbuffer *buffer;
buffer = mm_calloc(1, sizeof(struct evbuffer));
if (buffer == NULL)
return (NULL);
TAILQ_INIT(&buffer->callbacks);
buffer->refcnt = 1;
buffer->last_with_datap = &buffer->first;
return (buffer);
}
int
evbuffer_set_flags(struct evbuffer *buf, ev_uint64_t flags)
{
EVBUFFER_LOCK(buf);
buf->flags |= (ev_uint32_t)flags;
EVBUFFER_UNLOCK(buf);
return 0;
}
int
evbuffer_clear_flags(struct evbuffer *buf, ev_uint64_t flags)
{
EVBUFFER_LOCK(buf);
buf->flags &= ~(ev_uint32_t)flags;
EVBUFFER_UNLOCK(buf);
return 0;
}
void
_evbuffer_incref(struct evbuffer *buf)
{
EVBUFFER_LOCK(buf);
++buf->refcnt;
EVBUFFER_UNLOCK(buf);
}
void
_evbuffer_incref_and_lock(struct evbuffer *buf)
{
EVBUFFER_LOCK(buf);
++buf->refcnt;
}
int
evbuffer_defer_callbacks(struct evbuffer *buffer, struct event_base *base)
{
EVBUFFER_LOCK(buffer);
buffer->cb_queue = event_base_get_deferred_cb_queue(base);
buffer->deferred_cbs = 1;
event_deferred_cb_init(&buffer->deferred,
evbuffer_deferred_callback, buffer);
EVBUFFER_UNLOCK(buffer);
return 0;
}
int
evbuffer_enable_locking(struct evbuffer *buf, void *lock)
{
#ifdef _EVENT_DISABLE_THREAD_SUPPORT
return -1;
#else
if (buf->lock)
return -1;
if (!lock) {
EVTHREAD_ALLOC_LOCK(lock, EVTHREAD_LOCKTYPE_RECURSIVE);
if (!lock)
return -1;
buf->lock = lock;
buf->own_lock = 1;
} else {
buf->lock = lock;
buf->own_lock = 0;
}
return 0;
#endif
}
void
evbuffer_set_parent(struct evbuffer *buf, struct bufferevent *bev)
{
EVBUFFER_LOCK(buf);
buf->parent = bev;
EVBUFFER_UNLOCK(buf);
}
static void
evbuffer_run_callbacks(struct evbuffer *buffer, int running_deferred)
{
struct evbuffer_cb_entry *cbent, *next;
struct evbuffer_cb_info info;
size_t new_size;
ev_uint32_t mask, masked_val;
int clear = 1;
if (running_deferred) {
mask = EVBUFFER_CB_NODEFER|EVBUFFER_CB_ENABLED;
masked_val = EVBUFFER_CB_ENABLED;
} else if (buffer->deferred_cbs) {
mask = EVBUFFER_CB_NODEFER|EVBUFFER_CB_ENABLED;
masked_val = EVBUFFER_CB_NODEFER|EVBUFFER_CB_ENABLED;
/* Don't zero-out n_add/n_del, since the deferred callbacks
will want to see them. */
clear = 0;
} else {
mask = EVBUFFER_CB_ENABLED;
masked_val = EVBUFFER_CB_ENABLED;
}
ASSERT_EVBUFFER_LOCKED(buffer);
if (TAILQ_EMPTY(&buffer->callbacks)) {
buffer->n_add_for_cb = buffer->n_del_for_cb = 0;
return;
}
if (buffer->n_add_for_cb == 0 && buffer->n_del_for_cb == 0)
return;
new_size = buffer->total_len;
info.orig_size = new_size + buffer->n_del_for_cb - buffer->n_add_for_cb;
info.n_added = buffer->n_add_for_cb;
info.n_deleted = buffer->n_del_for_cb;
if (clear) {
buffer->n_add_for_cb = 0;
buffer->n_del_for_cb = 0;
}
for (cbent = TAILQ_FIRST(&buffer->callbacks);
cbent != NULL;
cbent = next) {
/* Get the 'next' pointer now in case this callback decides
* to remove itself or something. */
next = TAILQ_NEXT(cbent, next);
if ((cbent->flags & mask) != masked_val)
continue;
if ((cbent->flags & EVBUFFER_CB_OBSOLETE))
cbent->cb.cb_obsolete(buffer,
info.orig_size, new_size, cbent->cbarg);
else
cbent->cb.cb_func(buffer, &info, cbent->cbarg);
}
}
void
evbuffer_invoke_callbacks(struct evbuffer *buffer)
{
if (TAILQ_EMPTY(&buffer->callbacks)) {
buffer->n_add_for_cb = buffer->n_del_for_cb = 0;
return;
}
if (buffer->deferred_cbs) {
if (buffer->deferred.queued)
return;
_evbuffer_incref_and_lock(buffer);
if (buffer->parent)
bufferevent_incref(buffer->parent);
EVBUFFER_UNLOCK(buffer);
event_deferred_cb_schedule(buffer->cb_queue, &buffer->deferred);
}
evbuffer_run_callbacks(buffer, 0);
}
static void
evbuffer_deferred_callback(struct deferred_cb *cb, void *arg)
{
struct bufferevent *parent = NULL;
struct evbuffer *buffer = arg;
/* XXXX It would be better to run these callbacks without holding the
* lock */
EVBUFFER_LOCK(buffer);
parent = buffer->parent;
evbuffer_run_callbacks(buffer, 1);
_evbuffer_decref_and_unlock(buffer);
if (parent)
bufferevent_decref(parent);
}
static void
evbuffer_remove_all_callbacks(struct evbuffer *buffer)
{
struct evbuffer_cb_entry *cbent;
while ((cbent = TAILQ_FIRST(&buffer->callbacks))) {
TAILQ_REMOVE(&buffer->callbacks, cbent, next);
mm_free(cbent);
}
}
void
_evbuffer_decref_and_unlock(struct evbuffer *buffer)
{
struct evbuffer_chain *chain, *next;
ASSERT_EVBUFFER_LOCKED(buffer);
EVUTIL_ASSERT(buffer->refcnt > 0);
if (--buffer->refcnt > 0) {
EVBUFFER_UNLOCK(buffer);
return;
}
for (chain = buffer->first; chain != NULL; chain = next) {
next = chain->next;
evbuffer_chain_free(chain);
}
evbuffer_remove_all_callbacks(buffer);
if (buffer->deferred_cbs)
event_deferred_cb_cancel(buffer->cb_queue, &buffer->deferred);
EVBUFFER_UNLOCK(buffer);
if (buffer->own_lock)
EVTHREAD_FREE_LOCK(buffer->lock, EVTHREAD_LOCKTYPE_RECURSIVE);
mm_free(buffer);
}
void
evbuffer_free(struct evbuffer *buffer)
{
EVBUFFER_LOCK(buffer);
_evbuffer_decref_and_unlock(buffer);
}
void
evbuffer_lock(struct evbuffer *buf)
{
EVBUFFER_LOCK(buf);
}
void
evbuffer_unlock(struct evbuffer *buf)
{
EVBUFFER_UNLOCK(buf);
}
size_t
evbuffer_get_length(const struct evbuffer *buffer)
{
size_t result;
EVBUFFER_LOCK(buffer);
result = (buffer->total_len);
EVBUFFER_UNLOCK(buffer);
return result;
}
size_t
evbuffer_get_contiguous_space(const struct evbuffer *buf)
{
struct evbuffer_chain *chain;
size_t result;
EVBUFFER_LOCK(buf);
chain = buf->first;
result = (chain != NULL ? chain->off : 0);
EVBUFFER_UNLOCK(buf);
return result;
}
int
evbuffer_reserve_space(struct evbuffer *buf, ev_ssize_t size,
struct evbuffer_iovec *vec, int n_vecs)
{
struct evbuffer_chain *chain, **chainp;
int n = -1;
EVBUFFER_LOCK(buf);
if (buf->freeze_end)
goto done;
if (n_vecs < 1)
goto done;
if (n_vecs == 1) {
if ((chain = evbuffer_expand_singlechain(buf, size)) == NULL)
goto done;
vec[0].iov_base = CHAIN_SPACE_PTR(chain);
vec[0].iov_len = (size_t) CHAIN_SPACE_LEN(chain);
EVUTIL_ASSERT(size<0 || (size_t)vec[0].iov_len >= (size_t)size);
n = 1;
} else {
if (_evbuffer_expand_fast(buf, size, n_vecs)<0)
goto done;
n = _evbuffer_read_setup_vecs(buf, size, vec, n_vecs,
&chainp, 0);
}
done:
EVBUFFER_UNLOCK(buf);
return n;
}
static int
advance_last_with_data(struct evbuffer *buf)
{
int n = 0;
ASSERT_EVBUFFER_LOCKED(buf);
if (!*buf->last_with_datap)
return 0;
while ((*buf->last_with_datap)->next && (*buf->last_with_datap)->next->off) {
buf->last_with_datap = &(*buf->last_with_datap)->next;
++n;
}
return n;
}
int
evbuffer_commit_space(struct evbuffer *buf,
struct evbuffer_iovec *vec, int n_vecs)
{
struct evbuffer_chain *chain, **firstchainp, **chainp;
int result = -1;
size_t added = 0;
int i;
EVBUFFER_LOCK(buf);
if (buf->freeze_end)
goto done;
if (n_vecs == 0) {
result = 0;
goto done;
} else if (n_vecs == 1 &&
(buf->last && vec[0].iov_base == (void*)CHAIN_SPACE_PTR(buf->last))) {
/* The user only got or used one chain; it might not
* be the first one with space in it. */
if ((size_t)vec[0].iov_len > (size_t)CHAIN_SPACE_LEN(buf->last))
goto done;
buf->last->off += vec[0].iov_len;
added = vec[0].iov_len;
if (added)
advance_last_with_data(buf);
goto okay;
}
/* Advance 'firstchain' to the first chain with space in it. */
firstchainp = buf->last_with_datap;
if (!*firstchainp)
goto done;
if (CHAIN_SPACE_LEN(*firstchainp) == 0) {
firstchainp = &(*firstchainp)->next;
}
chain = *firstchainp;
/* pass 1: make sure that the pointers and lengths of vecs[] are in
* bounds before we try to commit anything. */
for (i=0; i<n_vecs; ++i) {
if (!chain)
goto done;
if (vec[i].iov_base != (void*)CHAIN_SPACE_PTR(chain) ||
(size_t)vec[i].iov_len > CHAIN_SPACE_LEN(chain))
goto done;
chain = chain->next;
}
/* pass 2: actually adjust all the chains. */
chainp = firstchainp;
for (i=0; i<n_vecs; ++i) {
(*chainp)->off += vec[i].iov_len;
added += vec[i].iov_len;
if (vec[i].iov_len) {
buf->last_with_datap = chainp;
}
chainp = &(*chainp)->next;
}
okay:
buf->total_len += added;
buf->n_add_for_cb += added;
result = 0;
evbuffer_invoke_callbacks(buf);
done:
EVBUFFER_UNLOCK(buf);
return result;
}
static inline int
HAS_PINNED_R(struct evbuffer *buf)
{
return (buf->last && CHAIN_PINNED_R(buf->last));
}
static inline void
ZERO_CHAIN(struct evbuffer *dst)
{
ASSERT_EVBUFFER_LOCKED(dst);
dst->first = NULL;
dst->last = NULL;
dst->last_with_datap = &(dst)->first;
dst->total_len = 0;
}
/* Prepares the contents of src to be moved to another buffer by removing
* read-pinned chains. The first pinned chain is saved in first, and the
* last in last. If src has no read-pinned chains, first and last are set
* to NULL. */
static int
PRESERVE_PINNED(struct evbuffer *src, struct evbuffer_chain **first,
struct evbuffer_chain **last)
{
struct evbuffer_chain *chain, **pinned;
ASSERT_EVBUFFER_LOCKED(src);
if (!HAS_PINNED_R(src)) {
*first = *last = NULL;
return 0;
}
pinned = src->last_with_datap;
if (!CHAIN_PINNED_R(*pinned))
pinned = &(*pinned)->next;
EVUTIL_ASSERT(CHAIN_PINNED_R(*pinned));
chain = *first = *pinned;
*last = src->last;
/* If there's data in the first pinned chain, we need to allocate
* a new chain and copy the data over. */
if (chain->off) {
struct evbuffer_chain *tmp;
EVUTIL_ASSERT(pinned == src->last_with_datap);
tmp = evbuffer_chain_new(chain->off);
if (!tmp)
return -1;
memcpy(tmp->buffer, chain->buffer + chain->misalign,
chain->off);
tmp->off = chain->off;
*src->last_with_datap = tmp;
src->last = tmp;
chain->misalign += chain->off;
chain->off = 0;
} else {
src->last = *src->last_with_datap;
*pinned = NULL;
}
return 0;
}
static inline void
RESTORE_PINNED(struct evbuffer *src, struct evbuffer_chain *pinned,
struct evbuffer_chain *last)
{
ASSERT_EVBUFFER_LOCKED(src);
if (!pinned) {
ZERO_CHAIN(src);
return;
}
src->first = pinned;
src->last = last;
src->last_with_datap = &src->first;
src->total_len = 0;
}
static inline void
COPY_CHAIN(struct evbuffer *dst, struct evbuffer *src)
{
ASSERT_EVBUFFER_LOCKED(dst);
ASSERT_EVBUFFER_LOCKED(src);
dst->first = src->first;
if (src->last_with_datap == &src->first)
dst->last_with_datap = &dst->first;
else
dst->last_with_datap = src->last_with_datap;
dst->last = src->last;
dst->total_len = src->total_len;
}
static void
APPEND_CHAIN(struct evbuffer *dst, struct evbuffer *src)
{
ASSERT_EVBUFFER_LOCKED(dst);
ASSERT_EVBUFFER_LOCKED(src);
dst->last->next = src->first;
if (src->last_with_datap == &src->first)
dst->last_with_datap = &dst->last->next;
else
dst->last_with_datap = src->last_with_datap;
dst->last = src->last;
dst->total_len += src->total_len;
}
static void
PREPEND_CHAIN(struct evbuffer *dst, struct evbuffer *src)
{
ASSERT_EVBUFFER_LOCKED(dst);
ASSERT_EVBUFFER_LOCKED(src);
src->last->next = dst->first;
dst->first = src->first;
dst->total_len += src->total_len;
if (*dst->last_with_datap == NULL) {
if (src->last_with_datap == &(src)->first)
dst->last_with_datap = &dst->first;
else
dst->last_with_datap = src->last_with_datap;
} else if (dst->last_with_datap == &dst->first) {
dst->last_with_datap = &src->last->next;
}
}
int
evbuffer_add_buffer(struct evbuffer *outbuf, struct evbuffer *inbuf)
{
struct evbuffer_chain *pinned, *last;
size_t in_total_len, out_total_len;
int result = 0;
EVBUFFER_LOCK2(inbuf, outbuf);
in_total_len = inbuf->total_len;
out_total_len = outbuf->total_len;
if (in_total_len == 0 || outbuf == inbuf)
goto done;
if (outbuf->freeze_end || inbuf->freeze_start) {
result = -1;
goto done;
}
if (PRESERVE_PINNED(inbuf, &pinned, &last) < 0) {
result = -1;
goto done;
}
if (out_total_len == 0) {
/* There might be an empty chain at the start of outbuf; free
* it. */
evbuffer_free_all_chains(outbuf->first);
COPY_CHAIN(outbuf, inbuf);
} else {
APPEND_CHAIN(outbuf, inbuf);
}
RESTORE_PINNED(inbuf, pinned, last);
inbuf->n_del_for_cb += in_total_len;
outbuf->n_add_for_cb += in_total_len;
evbuffer_invoke_callbacks(inbuf);
evbuffer_invoke_callbacks(outbuf);
done:
EVBUFFER_UNLOCK2(inbuf, outbuf);
return result;
}
int
evbuffer_prepend_buffer(struct evbuffer *outbuf, struct evbuffer *inbuf)
{
struct evbuffer_chain *pinned, *last;
size_t in_total_len, out_total_len;
int result = 0;
EVBUFFER_LOCK2(inbuf, outbuf);
in_total_len = inbuf->total_len;
out_total_len = outbuf->total_len;
if (!in_total_len || inbuf == outbuf)
goto done;
if (outbuf->freeze_start || inbuf->freeze_start) {
result = -1;
goto done;
}
if (PRESERVE_PINNED(inbuf, &pinned, &last) < 0) {
result = -1;
goto done;
}
if (out_total_len == 0) {
/* There might be an empty chain at the start of outbuf; free
* it. */
evbuffer_free_all_chains(outbuf->first);
COPY_CHAIN(outbuf, inbuf);
} else {
PREPEND_CHAIN(outbuf, inbuf);
}
RESTORE_PINNED(inbuf, pinned, last);
inbuf->n_del_for_cb += in_total_len;
outbuf->n_add_for_cb += in_total_len;
evbuffer_invoke_callbacks(inbuf);
evbuffer_invoke_callbacks(outbuf);
done:
EVBUFFER_UNLOCK2(inbuf, outbuf);
return result;
}
int
evbuffer_drain(struct evbuffer *buf, size_t len)
{
struct evbuffer_chain *chain, *next;
size_t remaining, old_len;
int result = 0;
EVBUFFER_LOCK(buf);
old_len = buf->total_len;
if (old_len == 0)
goto done;
if (buf->freeze_start) {
result = -1;
goto done;
}
if (len >= old_len && !HAS_PINNED_R(buf)) {
len = old_len;
for (chain = buf->first; chain != NULL; chain = next) {
next = chain->next;
evbuffer_chain_free(chain);
}
ZERO_CHAIN(buf);
} else {
if (len >= old_len)
len = old_len;
buf->total_len -= len;
remaining = len;
for (chain = buf->first;
remaining >= chain->off;
chain = next) {
next = chain->next;
remaining -= chain->off;
if (chain == *buf->last_with_datap) {
buf->last_with_datap = &buf->first;
}
if (&chain->next == buf->last_with_datap)
buf->last_with_datap = &buf->first;
if (CHAIN_PINNED_R(chain)) {
EVUTIL_ASSERT(remaining == 0);
chain->misalign += chain->off;
chain->off = 0;
break;
} else
evbuffer_chain_free(chain);
}
buf->first = chain;
if (chain) {
chain->misalign += remaining;
chain->off -= remaining;
}
}
buf->n_del_for_cb += len;
/* Tell someone about changes in this buffer */
evbuffer_invoke_callbacks(buf);
done:
EVBUFFER_UNLOCK(buf);
return result;
}
/* Reads data from an event buffer and drains the bytes read */
int
evbuffer_remove(struct evbuffer *buf, void *data_out, size_t datlen)
{
ev_ssize_t n;
EVBUFFER_LOCK(buf);
n = evbuffer_copyout(buf, data_out, datlen);
if (n > 0) {
if (evbuffer_drain(buf, n)<0)
n = -1;
}
EVBUFFER_UNLOCK(buf);
return (int)n;
}
ev_ssize_t
evbuffer_copyout(struct evbuffer *buf, void *data_out, size_t datlen)
{
/*XXX fails badly on sendfile case. */
struct evbuffer_chain *chain;
char *data = data_out;
size_t nread;
ev_ssize_t result = 0;
EVBUFFER_LOCK(buf);
chain = buf->first;
if (datlen >= buf->total_len)
datlen = buf->total_len;
if (datlen == 0)
goto done;
if (buf->freeze_start) {
result = -1;
goto done;
}
nread = datlen;
while (datlen && datlen >= chain->off) {
memcpy(data, chain->buffer + chain->misalign, chain->off);
data += chain->off;
datlen -= chain->off;
chain = chain->next;
EVUTIL_ASSERT(chain || datlen==0);
}
if (datlen) {
EVUTIL_ASSERT(chain);
memcpy(data, chain->buffer + chain->misalign, datlen);
}
result = nread;
done:
EVBUFFER_UNLOCK(buf);
return result;
}
/* reads data from the src buffer to the dst buffer, avoids memcpy as
* possible. */
/* XXXX should return ev_ssize_t */
int
evbuffer_remove_buffer(struct evbuffer *src, struct evbuffer *dst,
size_t datlen)
{
/*XXX We should have an option to force this to be zero-copy.*/
/*XXX can fail badly on sendfile case. */
struct evbuffer_chain *chain, *previous;
size_t nread = 0;
int result;
EVBUFFER_LOCK2(src, dst);
chain = previous = src->first;
if (datlen == 0 || dst == src) {
result = 0;
goto done;
}
if (dst->freeze_end || src->freeze_start) {
result = -1;
goto done;
}
/* short-cut if there is no more data buffered */
if (datlen >= src->total_len) {
datlen = src->total_len;
evbuffer_add_buffer(dst, src);
result = (int)datlen; /*XXXX should return ev_ssize_t*/
goto done;
}
/* removes chains if possible */
while (chain->off <= datlen) {
/* We can't remove the last with data from src unless we
* remove all chains, in which case we would have done the if
* block above */
EVUTIL_ASSERT(chain != *src->last_with_datap);
nread += chain->off;
datlen -= chain->off;
previous = chain;
if (src->last_with_datap == &chain->next)
src->last_with_datap = &src->first;
chain = chain->next;
}
if (nread) {
/* we can remove the chain */
struct evbuffer_chain **chp;
chp = evbuffer_free_trailing_empty_chains(dst);
if (dst->first == NULL) {
dst->first = src->first;
} else {
*chp = src->first;
}
dst->last = previous;
previous->next = NULL;
src->first = chain;
advance_last_with_data(dst);
dst->total_len += nread;
dst->n_add_for_cb += nread;
}
/* we know that there is more data in the src buffer than
* we want to read, so we manually drain the chain */
evbuffer_add(dst, chain->buffer + chain->misalign, datlen);
chain->misalign += datlen;
chain->off -= datlen;
nread += datlen;
/* You might think we would want to increment dst->n_add_for_cb
* here too. But evbuffer_add above already took care of that.
*/
src->total_len -= nread;
src->n_del_for_cb += nread;
if (nread) {
evbuffer_invoke_callbacks(dst);
evbuffer_invoke_callbacks(src);
}
result = (int)nread;/*XXXX should change return type */
done:
EVBUFFER_UNLOCK2(src, dst);
return result;
}
unsigned char *
evbuffer_pullup(struct evbuffer *buf, ev_ssize_t size)
{
struct evbuffer_chain *chain, *next, *tmp, *last_with_data;
unsigned char *buffer, *result = NULL;
ev_ssize_t remaining;
int removed_last_with_data = 0;
int removed_last_with_datap = 0;
EVBUFFER_LOCK(buf);
chain = buf->first;
if (size < 0)
size = buf->total_len;
/* if size > buf->total_len, we cannot guarantee to the user that she
* is going to have a long enough buffer afterwards; so we return
* NULL */
if (size == 0 || (size_t)size > buf->total_len)
goto done;
/* No need to pull up anything; the first size bytes are
* already here. */
if (chain->off >= (size_t)size) {
result = chain->buffer + chain->misalign;
goto done;
}
/* Make sure that none of the chains we need to copy from is pinned. */
remaining = size - chain->off;
EVUTIL_ASSERT(remaining >= 0);
for (tmp=chain->next; tmp; tmp=tmp->next) {
if (CHAIN_PINNED(tmp))
goto done;
if (tmp->off >= (size_t)remaining)
break;
remaining -= tmp->off;
}
if (CHAIN_PINNED(chain)) {
size_t old_off = chain->off;
if (CHAIN_SPACE_LEN(chain) < size - chain->off) {
/* not enough room at end of chunk. */
goto done;
}
buffer = CHAIN_SPACE_PTR(chain);
tmp = chain;
tmp->off = size;
size -= old_off;
chain = chain->next;
} else if (chain->buffer_len - chain->misalign >= (size_t)size) {
/* already have enough space in the first chain */
size_t old_off = chain->off;
buffer = chain->buffer + chain->misalign + chain->off;
tmp = chain;
tmp->off = size;
size -= old_off;
chain = chain->next;
} else {
if ((tmp = evbuffer_chain_new(size)) == NULL) {
event_warn("%s: out of memory", __func__);
goto done;
}
buffer = tmp->buffer;
tmp->off = size;
buf->first = tmp;
}
/* TODO(niels): deal with buffers that point to NULL like sendfile */
/* Copy and free every chunk that will be entirely pulled into tmp */
last_with_data = *buf->last_with_datap;
for (; chain != NULL && (size_t)size >= chain->off; chain = next) {
next = chain->next;
memcpy(buffer, chain->buffer + chain->misalign, chain->off);
size -= chain->off;
buffer += chain->off;
if (chain == last_with_data)
removed_last_with_data = 1;
if (&chain->next == buf->last_with_datap)
removed_last_with_datap = 1;
evbuffer_chain_free(chain);
}
if (chain != NULL) {
memcpy(buffer, chain->buffer + chain->misalign, size);
chain->misalign += size;
chain->off -= size;
} else {
buf->last = tmp;
}
tmp->next = chain;
if (removed_last_with_data) {
buf->last_with_datap = &buf->first;
} else if (removed_last_with_datap) {
if (buf->first->next && buf->first->next->off)
buf->last_with_datap = &buf->first->next;
else
buf->last_with_datap = &buf->first;
}
result = (tmp->buffer + tmp->misalign);
done:
EVBUFFER_UNLOCK(buf);
return result;
}
/*
* Reads a line terminated by either '\r\n', '\n\r' or '\r' or '\n'.
* The returned buffer needs to be freed by the called.
*/
char *
evbuffer_readline(struct evbuffer *buffer)
{
return evbuffer_readln(buffer, NULL, EVBUFFER_EOL_ANY);
}
static inline ev_ssize_t
evbuffer_strchr(struct evbuffer_ptr *it, const char chr)
{
struct evbuffer_chain *chain = it->_internal.chain;
size_t i = it->_internal.pos_in_chain;
while (chain != NULL) {
char *buffer = (char *)chain->buffer + chain->misalign;
char *cp = memchr(buffer+i, chr, chain->off-i);
if (cp) {
it->_internal.chain = chain;
it->_internal.pos_in_chain = cp - buffer;
it->pos += (cp - buffer - i);
return it->pos;
}
it->pos += chain->off - i;
i = 0;
chain = chain->next;
}
return (-1);
}
static inline char *
find_eol_char(char *s, size_t len)
{
#define CHUNK_SZ 128
/* Lots of benchmarking found this approach to be faster in practice
* than doing two memchrs over the whole buffer, doin a memchr on each
* char of the buffer, or trying to emulate memchr by hand. */
char *s_end, *cr, *lf;
s_end = s+len;
while (s < s_end) {
size_t chunk = (s + CHUNK_SZ < s_end) ? CHUNK_SZ : (s_end - s);
cr = memchr(s, '\r', chunk);
lf = memchr(s, '\n', chunk);
if (cr) {
if (lf && lf < cr)
return lf;
return cr;
} else if (lf) {
return lf;
}
s += CHUNK_SZ;
}
return NULL;
#undef CHUNK_SZ
}
static ev_ssize_t
evbuffer_find_eol_char(struct evbuffer_ptr *it)
{
struct evbuffer_chain *chain = it->_internal.chain;
size_t i = it->_internal.pos_in_chain;
while (chain != NULL) {
char *buffer = (char *)chain->buffer + chain->misalign;
char *cp = find_eol_char(buffer+i, chain->off-i);
if (cp) {
it->_internal.chain = chain;
it->_internal.pos_in_chain = cp - buffer;
it->pos += (cp - buffer) - i;
return it->pos;
}
it->pos += chain->off - i;
i = 0;
chain = chain->next;
}
return (-1);
}
static inline int
evbuffer_strspn(
struct evbuffer_ptr *ptr, const char *chrset)
{
int count = 0;
struct evbuffer_chain *chain = ptr->_internal.chain;
size_t i = ptr->_internal.pos_in_chain;
if (!chain)
return -1;
while (1) {
char *buffer = (char *)chain->buffer + chain->misalign;
for (; i < chain->off; ++i) {
const char *p = chrset;
while (*p) {
if (buffer[i] == *p++)
goto next;
}
ptr->_internal.chain = chain;
ptr->_internal.pos_in_chain = i;
ptr->pos += count;
return count;
next:
++count;
}
i = 0;
if (! chain->next) {
ptr->_internal.chain = chain;
ptr->_internal.pos_in_chain = i;
ptr->pos += count;
return count;
}
chain = chain->next;
}
}
static inline char
evbuffer_getchr(struct evbuffer_ptr *it)
{
struct evbuffer_chain *chain = it->_internal.chain;
size_t off = it->_internal.pos_in_chain;
return chain->buffer[chain->misalign + off];
}
struct evbuffer_ptr
evbuffer_search_eol(struct evbuffer *buffer,
struct evbuffer_ptr *start, size_t *eol_len_out,
enum evbuffer_eol_style eol_style)
{
struct evbuffer_ptr it, it2;
size_t extra_drain = 0;
int ok = 0;
EVBUFFER_LOCK(buffer);
if (start) {
memcpy(&it, start, sizeof(it));
} else {
it.pos = 0;
it._internal.chain = buffer->first;
it._internal.pos_in_chain = 0;
}
/* the eol_style determines our first stop character and how many
* characters we are going to drain afterwards. */
switch (eol_style) {
case EVBUFFER_EOL_ANY:
if (evbuffer_find_eol_char(&it) < 0)
goto done;
memcpy(&it2, &it, sizeof(it));
extra_drain = evbuffer_strspn(&it2, "\r\n");
break;
case EVBUFFER_EOL_CRLF_STRICT: {
it = evbuffer_search(buffer, "\r\n", 2, &it);
if (it.pos < 0)
goto done;
extra_drain = 2;
break;
}
case EVBUFFER_EOL_CRLF:
while (1) {
if (evbuffer_find_eol_char(&it) < 0)
goto done;
if (evbuffer_getchr(&it) == '\n') {
extra_drain = 1;
break;
} else if (!evbuffer_ptr_memcmp(
buffer, &it, "\r\n", 2)) {
extra_drain = 2;
break;
} else {
if (evbuffer_ptr_set(buffer, &it, 1,
EVBUFFER_PTR_ADD)<0)
goto done;
}
}
break;
case EVBUFFER_EOL_LF:
if (evbuffer_strchr(&it, '\n') < 0)
goto done;
extra_drain = 1;
break;
default:
goto done;
}
ok = 1;
done:
EVBUFFER_UNLOCK(buffer);
if (!ok) {
it.pos = -1;
}
if (eol_len_out)
*eol_len_out = extra_drain;
return it;
}
char *
evbuffer_readln(struct evbuffer *buffer, size_t *n_read_out,
enum evbuffer_eol_style eol_style)
{
struct evbuffer_ptr it;
char *line;
size_t n_to_copy=0, extra_drain=0;
char *result = NULL;
EVBUFFER_LOCK(buffer);
if (buffer->freeze_start) {
goto done;
}
it = evbuffer_search_eol(buffer, NULL, &extra_drain, eol_style);
if (it.pos < 0)
goto done;
n_to_copy = it.pos;
if ((line = mm_malloc(n_to_copy+1)) == NULL) {
event_warn("%s: out of memory", __func__);
goto done;
}
evbuffer_remove(buffer, line, n_to_copy);
line[n_to_copy] = '\0';
evbuffer_drain(buffer, extra_drain);
result = line;
done:
EVBUFFER_UNLOCK(buffer);
if (n_read_out)
*n_read_out = result ? n_to_copy : 0;
return result;
}
#define EVBUFFER_CHAIN_MAX_AUTO_SIZE 4096
/* Adds data to an event buffer */
int
evbuffer_add(struct evbuffer *buf, const void *data_in, size_t datlen)
{
struct evbuffer_chain *chain, *tmp;
const unsigned char *data = data_in;
size_t remain, to_alloc;
int result = -1;
EVBUFFER_LOCK(buf);
if (buf->freeze_end) {
goto done;
}
if (*buf->last_with_datap == NULL) {
chain = buf->last;
} else {
chain = *buf->last_with_datap;
}
/* If there are no chains allocated for this buffer, allocate one
* big enough to hold all the data. */
if (chain == NULL) {
chain = evbuffer_chain_new(datlen);
if (!chain)
goto done;
evbuffer_chain_insert(buf, chain);
}
if ((chain->flags & EVBUFFER_IMMUTABLE) == 0) {
remain = (size_t)(chain->buffer_len - chain->misalign - chain->off);
if (remain >= datlen) {
/* there's enough space to hold all the data in the
* current last chain */
memcpy(chain->buffer + chain->misalign + chain->off,
data, datlen);
chain->off += datlen;
buf->total_len += datlen;
buf->n_add_for_cb += datlen;
goto out;
} else if (!CHAIN_PINNED(chain) &&
evbuffer_chain_should_realign(chain, datlen)) {
/* we can fit the data into the misalignment */
evbuffer_chain_align(chain);
memcpy(chain->buffer + chain->off, data, datlen);
chain->off += datlen;
buf->total_len += datlen;
buf->n_add_for_cb += datlen;
goto out;
}
} else {
/* we cannot write any data to the last chain */
remain = 0;
}
/* we need to add another chain */
to_alloc = chain->buffer_len;
if (to_alloc <= EVBUFFER_CHAIN_MAX_AUTO_SIZE/2)
to_alloc <<= 1;
if (datlen > to_alloc)
to_alloc = datlen;
tmp = evbuffer_chain_new(to_alloc);
if (tmp == NULL)
goto done;
if (remain) {
memcpy(chain->buffer + chain->misalign + chain->off,
data, remain);
chain->off += remain;
buf->total_len += remain;
buf->n_add_for_cb += remain;
}
data += remain;
datlen -= remain;
memcpy(tmp->buffer, data, datlen);
tmp->off = datlen;
evbuffer_chain_insert(buf, tmp);
buf->n_add_for_cb += datlen;
out:
evbuffer_invoke_callbacks(buf);
result = 0;
done:
EVBUFFER_UNLOCK(buf);
return result;
}
int
evbuffer_prepend(struct evbuffer *buf, const void *data, size_t datlen)
{
struct evbuffer_chain *chain, *tmp;
int result = -1;
EVBUFFER_LOCK(buf);
if (buf->freeze_start) {
goto done;
}
chain = buf->first;
if (chain == NULL) {
chain = evbuffer_chain_new(datlen);
if (!chain)
goto done;
evbuffer_chain_insert(buf, chain);
}
/* we cannot touch immutable buffers */
if ((chain->flags & EVBUFFER_IMMUTABLE) == 0) {
/* If this chain is empty, we can treat it as
* 'empty at the beginning' rather than 'empty at the end' */
if (chain->off == 0)
chain->misalign = chain->buffer_len;
if ((size_t)chain->misalign >= datlen) {
/* we have enough space to fit everything */
memcpy(chain->buffer + chain->misalign - datlen,
data, datlen);
chain->off += datlen;
chain->misalign -= datlen;
buf->total_len += datlen;
buf->n_add_for_cb += datlen;
goto out;
} else if (chain->misalign) {
/* we can only fit some of the data. */
memcpy(chain->buffer,
(char*)data + datlen - chain->misalign,
(size_t)chain->misalign);
chain->off += (size_t)chain->misalign;
buf->total_len += (size_t)chain->misalign;
buf->n_add_for_cb += (size_t)chain->misalign;
datlen -= (size_t)chain->misalign;
chain->misalign = 0;
}
}
/* we need to add another chain */
if ((tmp = evbuffer_chain_new(datlen)) == NULL)
goto done;
buf->first = tmp;
if (buf->last_with_datap == &buf->first)
buf->last_with_datap = &tmp->next;
tmp->next = chain;
tmp->off = datlen;
tmp->misalign = tmp->buffer_len - datlen;
memcpy(tmp->buffer + tmp->misalign, data, datlen);
buf->total_len += datlen;
buf->n_add_for_cb += (size_t)chain->misalign;
out:
evbuffer_invoke_callbacks(buf);
result = 0;
done:
EVBUFFER_UNLOCK(buf);
return result;
}
/** Helper: realigns the memory in chain->buffer so that misalign is 0. */
static void
evbuffer_chain_align(struct evbuffer_chain *chain)
{
EVUTIL_ASSERT(!(chain->flags & EVBUFFER_IMMUTABLE));
EVUTIL_ASSERT(!(chain->flags & EVBUFFER_MEM_PINNED_ANY));
memmove(chain->buffer, chain->buffer + chain->misalign, chain->off);
chain->misalign = 0;
}
#define MAX_TO_COPY_IN_EXPAND 4096
#define MAX_TO_REALIGN_IN_EXPAND 2048
/** Helper: return true iff we should realign chain to fit datalen bytes of
data in it. */
static int
evbuffer_chain_should_realign(struct evbuffer_chain *chain,
size_t datlen)
{
return chain->buffer_len - chain->off >= datlen &&
(chain->off < chain->buffer_len / 2) &&
(chain->off <= MAX_TO_REALIGN_IN_EXPAND);
}
/* Expands the available space in the event buffer to at least datlen, all in
* a single chunk. Return that chunk. */
static struct evbuffer_chain *
evbuffer_expand_singlechain(struct evbuffer *buf, size_t datlen)
{
struct evbuffer_chain *chain, **chainp;
struct evbuffer_chain *result = NULL;
ASSERT_EVBUFFER_LOCKED(buf);
chainp = buf->last_with_datap;
/* XXX If *chainp is no longer writeable, but has enough space in its
* misalign, this might be a bad idea: we could still use *chainp, not
* (*chainp)->next. */
if (*chainp && CHAIN_SPACE_LEN(*chainp) == 0)
chainp = &(*chainp)->next;
/* 'chain' now points to the first chain with writable space (if any)
* We will either use it, realign it, replace it, or resize it. */
chain = *chainp;
if (chain == NULL ||
(chain->flags & (EVBUFFER_IMMUTABLE|EVBUFFER_MEM_PINNED_ANY))) {
/* We can't use the last_with_data chain at all. Just add a
* new one that's big enough. */
goto insert_new;
}
/* If we can fit all the data, then we don't have to do anything */
if (CHAIN_SPACE_LEN(chain) >= datlen) {
result = chain;
goto ok;
}
/* If the chain is completely empty, just replace it by adding a new
* empty chain. */
if (chain->off == 0) {
goto insert_new;
}
/* If the misalignment plus the remaining space fulfills our data
* needs, we could just force an alignment to happen. Afterwards, we
* have enough space. But only do this if we're saving a lot of space
* and not moving too much data. Otherwise the space savings are
* probably offset by the time lost in copying.
*/
if (evbuffer_chain_should_realign(chain, datlen)) {
evbuffer_chain_align(chain);
result = chain;
goto ok;
}
/* At this point, we can either resize the last chunk with space in
* it, use the next chunk after it, or If we add a new chunk, we waste
* CHAIN_SPACE_LEN(chain) bytes in the former last chunk. If we
* resize, we have to copy chain->off bytes.
*/
/* Would expanding this chunk be affordable and worthwhile? */
if (CHAIN_SPACE_LEN(chain) < chain->buffer_len / 8 ||
chain->off > MAX_TO_COPY_IN_EXPAND) {
/* It's not worth resizing this chain. Can the next one be
* used? */
if (chain->next && CHAIN_SPACE_LEN(chain->next) >= datlen) {
/* Yes, we can just use the next chain (which should
* be empty. */
result = chain->next;
goto ok;
} else {
/* No; append a new chain (which will free all
* terminal empty chains.) */
goto insert_new;
}
} else {
/* Okay, we're going to try to resize this chain: Not doing so
* would waste at least 1/8 of its current allocation, and we
* can do so without having to copy more than
* MAX_TO_COPY_IN_EXPAND bytes. */
/* figure out how much space we need */
size_t length = chain->off + datlen;
struct evbuffer_chain *tmp = evbuffer_chain_new(length);
if (tmp == NULL)
goto err;
/* copy the data over that we had so far */
tmp->off = chain->off;
memcpy(tmp->buffer, chain->buffer + chain->misalign,
chain->off);
/* fix up the list */
EVUTIL_ASSERT(*chainp == chain);
result = *chainp = tmp;
if (buf->last == chain)
buf->last = tmp;
tmp->next = chain->next;
evbuffer_chain_free(chain);
goto ok;
}
insert_new:
result = evbuffer_chain_insert_new(buf, datlen);
if (!result)
goto err;
ok:
EVUTIL_ASSERT(result);
EVUTIL_ASSERT(CHAIN_SPACE_LEN(result) >= datlen);
err:
return result;
}
/* Make sure that datlen bytes are available for writing in the last n
* chains. Never copies or moves data. */
int
_evbuffer_expand_fast(struct evbuffer *buf, size_t datlen, int n)
{
struct evbuffer_chain *chain = buf->last, *tmp, *next;
size_t avail;
int used;
ASSERT_EVBUFFER_LOCKED(buf);
EVUTIL_ASSERT(n >= 2);
if (chain == NULL || (chain->flags & EVBUFFER_IMMUTABLE)) {
/* There is no last chunk, or we can't touch the last chunk.
* Just add a new chunk. */
chain = evbuffer_chain_new(datlen);
if (chain == NULL)
return (-1);
evbuffer_chain_insert(buf, chain);
return (0);
}
used = 0; /* number of chains we're using space in. */
avail = 0; /* how much space they have. */
/* How many bytes can we stick at the end of buffer as it is? Iterate
* over the chains at the end of the buffer, tring to see how much
* space we have in the first n. */
for (chain = *buf->last_with_datap; chain; chain = chain->next) {
if (chain->off) {
size_t space = (size_t) CHAIN_SPACE_LEN(chain);
EVUTIL_ASSERT(chain == *buf->last_with_datap);
if (space) {
avail += space;
++used;
}
} else {
/* No data in chain; realign it. */
chain->misalign = 0;
avail += chain->buffer_len;
++used;
}
if (avail >= datlen) {
/* There is already enough space. Just return */
return (0);
}
if (used == n)
break;
}
/* There wasn't enough space in the first n chains with space in
* them. Either add a new chain with enough space, or replace all
* empty chains with one that has enough space, depending on n. */
if (used < n) {
/* The loop ran off the end of the chains before it hit n
* chains; we can add another. */
EVUTIL_ASSERT(chain == NULL);
tmp = evbuffer_chain_new(datlen - avail);
if (tmp == NULL)
return (-1);
buf->last->next = tmp;
buf->last = tmp;
/* (we would only set last_with_data if we added the first
* chain. But if the buffer had no chains, we would have
* just allocated a new chain earlier) */
return (0);
} else {
/* Nuke _all_ the empty chains. */
int rmv_all = 0; /* True iff we removed last_with_data. */
chain = *buf->last_with_datap;
if (!chain->off) {
EVUTIL_ASSERT(chain == buf->first);
rmv_all = 1;
avail = 0;
} else {
avail = (size_t) CHAIN_SPACE_LEN(chain);
chain = chain->next;
}
for (; chain; chain = next) {
next = chain->next;
EVUTIL_ASSERT(chain->off == 0);
evbuffer_chain_free(chain);
}
tmp = evbuffer_chain_new(datlen - avail);
if (tmp == NULL) {
if (rmv_all) {
ZERO_CHAIN(buf);
} else {
buf->last = *buf->last_with_datap;
(*buf->last_with_datap)->next = NULL;
}
return (-1);
}
if (rmv_all) {
buf->first = buf->last = tmp;
buf->last_with_datap = &buf->first;
} else {
(*buf->last_with_datap)->next = tmp;
buf->last = tmp;
}
return (0);
}
}
int
evbuffer_expand(struct evbuffer *buf, size_t datlen)
{
struct evbuffer_chain *chain;
EVBUFFER_LOCK(buf);
chain = evbuffer_expand_singlechain(buf, datlen);
EVBUFFER_UNLOCK(buf);
return chain ? 0 : -1;
}
/*
* Reads data from a file descriptor into a buffer.
*/
#if defined(_EVENT_HAVE_SYS_UIO_H) || defined(WIN32)
#define USE_IOVEC_IMPL
#endif
#ifdef USE_IOVEC_IMPL
#ifdef _EVENT_HAVE_SYS_UIO_H
/* number of iovec we use for writev, fragmentation is going to determine
* how much we end up writing */
#define DEFAULT_WRITE_IOVEC 128
#if defined(UIO_MAXIOV) && UIO_MAXIOV < DEFAULT_WRITE_IOVEC
#define NUM_WRITE_IOVEC UIO_MAXIOV
#elif defined(IOV_MAX) && IOV_MAX < DEFAULT_WRITE_IOVEC
#define NUM_WRITE_IOVEC IOV_MAX
#else
#define NUM_WRITE_IOVEC DEFAULT_WRITE_IOVEC
#endif
#define IOV_TYPE struct iovec
#define IOV_PTR_FIELD iov_base
#define IOV_LEN_FIELD iov_len
#define IOV_LEN_TYPE size_t
#else
#define NUM_WRITE_IOVEC 16
#define IOV_TYPE WSABUF
#define IOV_PTR_FIELD buf
#define IOV_LEN_FIELD len
#define IOV_LEN_TYPE unsigned long
#endif
#endif
#define NUM_READ_IOVEC 4
#define EVBUFFER_MAX_READ 4096
/** Helper function to figure out which space to use for reading data into
an evbuffer. Internal use only.
@param buf The buffer to read into
@param howmuch How much we want to read.
@param vecs An array of two or more iovecs or WSABUFs.
@param n_vecs_avail The length of vecs
@param chainp A pointer to a variable to hold the first chain we're
reading into.
@param exact Boolean: if true, we do not provide more than 'howmuch'
space in the vectors, even if more space is available.
@return The number of buffers we're using.
*/
int
_evbuffer_read_setup_vecs(struct evbuffer *buf, ev_ssize_t howmuch,
struct evbuffer_iovec *vecs, int n_vecs_avail,
struct evbuffer_chain ***chainp, int exact)
{
struct evbuffer_chain *chain;
struct evbuffer_chain **firstchainp;
size_t so_far;
int i;
ASSERT_EVBUFFER_LOCKED(buf);
if (howmuch < 0)
return -1;
so_far = 0;
/* Let firstchain be the first chain with any space on it */
firstchainp = buf->last_with_datap;
if (CHAIN_SPACE_LEN(*firstchainp) == 0) {
firstchainp = &(*firstchainp)->next;
}
chain = *firstchainp;
for (i = 0; i < n_vecs_avail && so_far < (size_t)howmuch; ++i) {
size_t avail = (size_t) CHAIN_SPACE_LEN(chain);
if (avail > (howmuch - so_far) && exact)
avail = howmuch - so_far;
vecs[i].iov_base = CHAIN_SPACE_PTR(chain);
vecs[i].iov_len = avail;
so_far += avail;
chain = chain->next;
}
*chainp = firstchainp;
return i;
}
static int
get_n_bytes_readable_on_socket(evutil_socket_t fd)
{
#if defined(FIONREAD) && defined(WIN32)
unsigned long lng = EVBUFFER_MAX_READ;
if (ioctlsocket(fd, FIONREAD, &lng) < 0)
return -1;
return (int)lng;
#elif defined(FIONREAD)
int n = EVBUFFER_MAX_READ;
if (ioctl(fd, FIONREAD, &n) < 0)
return -1;
return n;
#else
return EVBUFFER_MAX_READ;
#endif
}
/* TODO(niels): should this function return ev_ssize_t and take ev_ssize_t
* as howmuch? */
int
evbuffer_read(struct evbuffer *buf, evutil_socket_t fd, int howmuch)
{
struct evbuffer_chain **chainp;
int n;
int result;
#ifdef USE_IOVEC_IMPL
int nvecs, i, remaining;
#else
struct evbuffer_chain *chain;
unsigned char *p;
#endif
EVBUFFER_LOCK(buf);
if (buf->freeze_end) {
result = -1;
goto done;
}
n = get_n_bytes_readable_on_socket(fd);
if (n <= 0 || n > EVBUFFER_MAX_READ)
n = EVBUFFER_MAX_READ;
if (howmuch < 0 || howmuch > n)
howmuch = n;
#ifdef USE_IOVEC_IMPL
/* Since we can use iovecs, we're willing to use the last
* NUM_READ_IOVEC chains. */
if (_evbuffer_expand_fast(buf, howmuch, NUM_READ_IOVEC) == -1) {
result = -1;
goto done;
} else {
IOV_TYPE vecs[NUM_READ_IOVEC];
#ifdef _EVBUFFER_IOVEC_IS_NATIVE
nvecs = _evbuffer_read_setup_vecs(buf, howmuch, vecs,
NUM_READ_IOVEC, &chainp, 1);
#else
/* We aren't using the native struct iovec. Therefore,
we are on win32. */
struct evbuffer_iovec ev_vecs[NUM_READ_IOVEC];
nvecs = _evbuffer_read_setup_vecs(buf, howmuch, ev_vecs, 2,
&chainp, 1);
for (i=0; i < nvecs; ++i)
WSABUF_FROM_EVBUFFER_IOV(&vecs[i], &ev_vecs[i]);
#endif
#ifdef WIN32
{
DWORD bytesRead;
DWORD flags=0;
if (WSARecv(fd, vecs, nvecs, &bytesRead, &flags, NULL, NULL)) {
/* The read failed. It might be a close,
* or it might be an error. */
if (WSAGetLastError() == WSAECONNABORTED)
n = 0;
else
n = -1;
} else
n = bytesRead;
}
#else
n = readv(fd, vecs, nvecs);
#endif
}
#else /*!USE_IOVEC_IMPL*/
/* If we don't have FIONREAD, we might waste some space here */
/* XXX we _will_ waste some space here if there is any space left
* over on buf->last. */
if ((chain = evbuffer_expand_singlechain(buf, howmuch)) == NULL) {
result = -1;
goto done;
}
/* We can append new data at this point */
p = chain->buffer + chain->misalign + chain->off;
#ifndef WIN32
n = read(fd, p, howmuch);
#else
n = recv(fd, p, howmuch, 0);
#endif
#endif /* USE_IOVEC_IMPL */
if (n == -1) {
result = -1;
goto done;
}
if (n == 0) {
result = 0;
goto done;
}
#ifdef USE_IOVEC_IMPL
remaining = n;
for (i=0; i < nvecs; ++i) {
ev_ssize_t space = (ev_ssize_t) CHAIN_SPACE_LEN(*chainp);
if (space < remaining) {
(*chainp)->off += space;
remaining -= (int)space;
} else {
(*chainp)->off += remaining;
buf->last_with_datap = chainp;
break;
}
chainp = &(*chainp)->next;
}
#else
chain->off += n;
advance_last_with_data(buf);
#endif
buf->total_len += n;
buf->n_add_for_cb += n;
/* Tell someone about changes in this buffer */
evbuffer_invoke_callbacks(buf);
result = n;
done:
EVBUFFER_UNLOCK(buf);
return result;
}
#ifdef WIN32
static int
evbuffer_readfile(struct evbuffer *buf, evutil_socket_t fd, ev_ssize_t howmuch)
{
int result;
int nchains, n;
struct evbuffer_iovec v[2];
EVBUFFER_LOCK(buf);
if (buf->freeze_end) {
result = -1;
goto done;
}
if (howmuch < 0)
howmuch = 16384;
/* XXX we _will_ waste some space here if there is any space left
* over on buf->last. */
nchains = evbuffer_reserve_space(buf, howmuch, v, 2);
if (nchains < 1 || nchains > 2) {
result = -1;
goto done;
}
n = read((int)fd, v[0].iov_base, (unsigned int)v[0].iov_len);
if (n <= 0) {
result = n;
goto done;
}
v[0].iov_len = (IOV_LEN_TYPE) n; /* XXXX another problem with big n.*/
if (nchains > 1) {
n = read((int)fd, v[1].iov_base, (unsigned int)v[1].iov_len);
if (n <= 0) {
result = (unsigned long) v[0].iov_len;
evbuffer_commit_space(buf, v, 1);
goto done;
}
v[1].iov_len = n;
}
evbuffer_commit_space(buf, v, nchains);
result = n;
done:
EVBUFFER_UNLOCK(buf);
return result;
}
#endif
#ifdef USE_IOVEC_IMPL
static inline int
evbuffer_write_iovec(struct evbuffer *buffer, evutil_socket_t fd,
ev_ssize_t howmuch)
{
IOV_TYPE iov[NUM_WRITE_IOVEC];
struct evbuffer_chain *chain = buffer->first;
int n, i = 0;
if (howmuch < 0)
return -1;
ASSERT_EVBUFFER_LOCKED(buffer);
/* XXX make this top out at some maximal data length? if the
* buffer has (say) 1MB in it, split over 128 chains, there's
* no way it all gets written in one go. */
while (chain != NULL && i < NUM_WRITE_IOVEC && howmuch) {
#ifdef USE_SENDFILE
/* we cannot write the file info via writev */
if (chain->flags & EVBUFFER_SENDFILE)
break;
#endif
iov[i].IOV_PTR_FIELD = (void *) (chain->buffer + chain->misalign);
if ((size_t)howmuch >= chain->off) {
/* XXXcould be problematic when windows supports mmap*/
iov[i++].IOV_LEN_FIELD = (IOV_LEN_TYPE)chain->off;
howmuch -= chain->off;
} else {
/* XXXcould be problematic when windows supports mmap*/
iov[i++].IOV_LEN_FIELD = (IOV_LEN_TYPE)howmuch;
break;
}
chain = chain->next;
}
if (! i)
return 0;
#ifdef WIN32
{
DWORD bytesSent;
if (WSASend(fd, iov, i, &bytesSent, 0, NULL, NULL))
n = -1;
else
n = bytesSent;
}
#else
n = writev(fd, iov, i);
#endif
return (n);
}
#endif
#ifdef USE_SENDFILE
static inline int
evbuffer_write_sendfile(struct evbuffer *buffer, evutil_socket_t fd,
ev_ssize_t howmuch)
{
struct evbuffer_chain *chain = buffer->first;
struct evbuffer_chain_fd *info =
EVBUFFER_CHAIN_EXTRA(struct evbuffer_chain_fd, chain);
#if defined(SENDFILE_IS_MACOSX) || defined(SENDFILE_IS_FREEBSD)
int res;
off_t len = chain->off;
#elif defined(SENDFILE_IS_LINUX) || defined(SENDFILE_IS_SOLARIS)
ev_ssize_t res;
off_t offset = chain->misalign;
#endif
ASSERT_EVBUFFER_LOCKED(buffer);
#if defined(SENDFILE_IS_MACOSX)
res = sendfile(info->fd, fd, chain->misalign, &len, NULL, 0);
if (res == -1 && !EVUTIL_ERR_RW_RETRIABLE(errno))
return (-1);
return (len);
#elif defined(SENDFILE_IS_FREEBSD)
res = sendfile(info->fd, fd, chain->misalign, chain->off, NULL, &len, 0);
if (res == -1 && !EVUTIL_ERR_RW_RETRIABLE(errno))
return (-1);
return (len);
#elif defined(SENDFILE_IS_LINUX)
/* TODO(niels): implement splice */
res = sendfile(fd, info->fd, &offset, chain->off);
if (res == -1 && EVUTIL_ERR_RW_RETRIABLE(errno)) {
/* if this is EAGAIN or EINTR return 0; otherwise, -1 */
return (0);
}
return (res);
#elif defined(SENDFILE_IS_SOLARIS)
{
const off_t offset_orig = offset;
res = sendfile(fd, info->fd, &offset, chain->off);
if (res == -1 && EVUTIL_ERR_RW_RETRIABLE(errno)) {
if (offset - offset_orig)
return offset - offset_orig;
/* if this is EAGAIN or EINTR and no bytes were
* written, return 0 */
return (0);
}
return (res);
}
#endif
}
#endif
int
evbuffer_write_atmost(struct evbuffer *buffer, evutil_socket_t fd,
ev_ssize_t howmuch)
{
int n = -1;
EVBUFFER_LOCK(buffer);
if (buffer->freeze_start) {
goto done;
}
if (howmuch < 0 || (size_t)howmuch > buffer->total_len)
howmuch = buffer->total_len;
if (howmuch > 0) {
#ifdef USE_SENDFILE
struct evbuffer_chain *chain = buffer->first;
if (chain != NULL && (chain->flags & EVBUFFER_SENDFILE))
n = evbuffer_write_sendfile(buffer, fd, howmuch);
else {
#endif
#ifdef USE_IOVEC_IMPL
n = evbuffer_write_iovec(buffer, fd, howmuch);
#elif defined(WIN32)
/* XXX(nickm) Don't disable this code until we know if
* the WSARecv code above works. */
void *p = evbuffer_pullup(buffer, howmuch);
n = send(fd, p, howmuch, 0);
#else
void *p = evbuffer_pullup(buffer, howmuch);
n = write(fd, p, howmuch);
#endif
#ifdef USE_SENDFILE
}
#endif
}
if (n > 0)
evbuffer_drain(buffer, n);
done:
EVBUFFER_UNLOCK(buffer);
return (n);
}
int
evbuffer_write(struct evbuffer *buffer, evutil_socket_t fd)
{
return evbuffer_write_atmost(buffer, fd, -1);
}
unsigned char *
evbuffer_find(struct evbuffer *buffer, const unsigned char *what, size_t len)
{
unsigned char *search;
struct evbuffer_ptr ptr;
EVBUFFER_LOCK(buffer);
ptr = evbuffer_search(buffer, (const char *)what, len, NULL);
if (ptr.pos < 0) {
search = NULL;
} else {
search = evbuffer_pullup(buffer, ptr.pos + len);
if (search)
search += ptr.pos;
}
EVBUFFER_UNLOCK(buffer);
return search;
}
int
evbuffer_ptr_set(struct evbuffer *buf, struct evbuffer_ptr *pos,
size_t position, enum evbuffer_ptr_how how)
{
size_t left = position;
struct evbuffer_chain *chain = NULL;
EVBUFFER_LOCK(buf);
switch (how) {
case EVBUFFER_PTR_SET:
chain = buf->first;
pos->pos = position;
position = 0;
break;
case EVBUFFER_PTR_ADD:
/* this avoids iterating over all previous chains if
we just want to advance the position */
chain = pos->_internal.chain;
pos->pos += position;
position = pos->_internal.pos_in_chain;
break;
}
while (chain && position + left >= chain->off) {
left -= chain->off - position;
chain = chain->next;
position = 0;
}
if (chain) {
pos->_internal.chain = chain;
pos->_internal.pos_in_chain = position + left;
} else {
pos->_internal.chain = NULL;
pos->pos = -1;
}
EVBUFFER_UNLOCK(buf);
return chain != NULL ? 0 : -1;
}
/**
Compare the bytes in buf at position pos to the len bytes in mem. Return
less than 0, 0, or greater than 0 as memcmp.
*/
static int
evbuffer_ptr_memcmp(const struct evbuffer *buf, const struct evbuffer_ptr *pos,
const char *mem, size_t len)
{
struct evbuffer_chain *chain;
size_t position;
int r;
ASSERT_EVBUFFER_LOCKED(buf);
if (pos->pos + len > buf->total_len)
return -1;
chain = pos->_internal.chain;
position = pos->_internal.pos_in_chain;
while (len && chain) {
size_t n_comparable;
if (len + position > chain->off)
n_comparable = chain->off - position;
else
n_comparable = len;
r = memcmp(chain->buffer + chain->misalign + position, mem,
n_comparable);
if (r)
return r;
mem += n_comparable;
len -= n_comparable;
position = 0;
chain = chain->next;
}
return 0;
}
struct evbuffer_ptr
evbuffer_search(struct evbuffer *buffer, const char *what, size_t len, const struct evbuffer_ptr *start)
{
return evbuffer_search_range(buffer, what, len, start, NULL);
}
struct evbuffer_ptr
evbuffer_search_range(struct evbuffer *buffer, const char *what, size_t len, const struct evbuffer_ptr *start, const struct evbuffer_ptr *end)
{
struct evbuffer_ptr pos;
struct evbuffer_chain *chain, *last_chain = NULL;
const unsigned char *p;
char first;
EVBUFFER_LOCK(buffer);
if (start) {
memcpy(&pos, start, sizeof(pos));
chain = pos._internal.chain;
} else {
pos.pos = 0;
chain = pos._internal.chain = buffer->first;
pos._internal.pos_in_chain = 0;
}
if (end)
last_chain = end->_internal.chain;
if (!len || len > EV_SSIZE_MAX)
goto done;
first = what[0];
while (chain) {
const unsigned char *start_at =
chain->buffer + chain->misalign +
pos._internal.pos_in_chain;
p = memchr(start_at, first,
chain->off - pos._internal.pos_in_chain);
if (p) {
pos.pos += p - start_at;
pos._internal.pos_in_chain += p - start_at;
if (!evbuffer_ptr_memcmp(buffer, &pos, what, len)) {
if (end && pos.pos + (ev_ssize_t)len > end->pos)
goto not_found;
else
goto done;
}
++pos.pos;
++pos._internal.pos_in_chain;
if (pos._internal.pos_in_chain == chain->off) {
chain = pos._internal.chain = chain->next;
pos._internal.pos_in_chain = 0;
}
} else {
if (chain == last_chain)
goto not_found;
pos.pos += chain->off - pos._internal.pos_in_chain;
chain = pos._internal.chain = chain->next;
pos._internal.pos_in_chain = 0;
}
}
not_found:
pos.pos = -1;
pos._internal.chain = NULL;
done:
EVBUFFER_UNLOCK(buffer);
return pos;
}
int
evbuffer_peek(struct evbuffer *buffer, ev_ssize_t len,
struct evbuffer_ptr *start_at,
struct evbuffer_iovec *vec, int n_vec)
{
struct evbuffer_chain *chain;
int idx = 0;
ev_ssize_t len_so_far = 0;
EVBUFFER_LOCK(buffer);
if (start_at) {
chain = start_at->_internal.chain;
len_so_far = chain->off
- start_at->_internal.pos_in_chain;
idx = 1;
if (n_vec > 0) {
vec[0].iov_base = chain->buffer + chain->misalign
+ start_at->_internal.pos_in_chain;
vec[0].iov_len = len_so_far;
}
chain = chain->next;
} else {
chain = buffer->first;
}
if (n_vec == 0 && len < 0) {
/* If no vectors are provided and they asked for "everything",
* pretend they asked for the actual available amount. */
len = buffer->total_len - len_so_far;
}
while (chain) {
if (len >= 0 && len_so_far >= len)
break;
if (idx<n_vec) {
vec[idx].iov_base = chain->buffer + chain->misalign;
vec[idx].iov_len = chain->off;
} else if (len<0) {
break;
}
++idx;
len_so_far += chain->off;
chain = chain->next;
}
EVBUFFER_UNLOCK(buffer);
return idx;
}
int
evbuffer_add_vprintf(struct evbuffer *buf, const char *fmt, va_list ap)
{
char *buffer;
size_t space;
int sz, result = -1;
va_list aq;
struct evbuffer_chain *chain;
EVBUFFER_LOCK(buf);
if (buf->freeze_end) {
goto done;
}
/* make sure that at least some space is available */
if ((chain = evbuffer_expand_singlechain(buf, 64)) == NULL)
goto done;
for (;;) {
#if 0
size_t used = chain->misalign + chain->off;
buffer = (char *)chain->buffer + chain->misalign + chain->off;
EVUTIL_ASSERT(chain->buffer_len >= used);
space = chain->buffer_len - used;
#endif
buffer = (char*) CHAIN_SPACE_PTR(chain);
space = (size_t) CHAIN_SPACE_LEN(chain);
#ifndef va_copy
#define va_copy(dst, src) memcpy(&(dst), &(src), sizeof(va_list))
#endif
va_copy(aq, ap);
sz = evutil_vsnprintf(buffer, space, fmt, aq);
va_end(aq);
if (sz < 0)
goto done;
if ((size_t)sz < space) {
chain->off += sz;
buf->total_len += sz;
buf->n_add_for_cb += sz;
advance_last_with_data(buf);
evbuffer_invoke_callbacks(buf);
result = sz;
goto done;
}
if ((chain = evbuffer_expand_singlechain(buf, sz + 1)) == NULL)
goto done;
}
/* NOTREACHED */
done:
EVBUFFER_UNLOCK(buf);
return result;
}
int
evbuffer_add_printf(struct evbuffer *buf, const char *fmt, ...)
{
int res = -1;
va_list ap;
va_start(ap, fmt);
res = evbuffer_add_vprintf(buf, fmt, ap);
va_end(ap);
return (res);
}
int
evbuffer_add_reference(struct evbuffer *outbuf,
const void *data, size_t datlen,
evbuffer_ref_cleanup_cb cleanupfn, void *extra)
{
struct evbuffer_chain *chain;
struct evbuffer_chain_reference *info;
int result = -1;
chain = evbuffer_chain_new(sizeof(struct evbuffer_chain_reference));
if (!chain)
return (-1);
chain->flags |= EVBUFFER_REFERENCE | EVBUFFER_IMMUTABLE;
chain->buffer = (u_char *)data;
chain->buffer_len = datlen;
chain->off = datlen;
info = EVBUFFER_CHAIN_EXTRA(struct evbuffer_chain_reference, chain);
info->cleanupfn = cleanupfn;
info->extra = extra;
EVBUFFER_LOCK(outbuf);
if (outbuf->freeze_end) {
/* don't call chain_free; we do not want to actually invoke
* the cleanup function */
mm_free(chain);
goto done;
}
evbuffer_chain_insert(outbuf, chain);
outbuf->n_add_for_cb += datlen;
evbuffer_invoke_callbacks(outbuf);
result = 0;
done:
EVBUFFER_UNLOCK(outbuf);
return result;
}
/* TODO(niels): maybe we don't want to own the fd, however, in that
* case, we should dup it - dup is cheap. Perhaps, we should use a
* callback instead?
*/
/* TODO(niels): we may want to add to automagically convert to mmap, in
* case evbuffer_remove() or evbuffer_pullup() are being used.
*/
int
evbuffer_add_file(struct evbuffer *outbuf, int fd,
ev_off_t offset, ev_off_t length)
{
#if defined(USE_SENDFILE) || defined(_EVENT_HAVE_MMAP)
struct evbuffer_chain *chain;
struct evbuffer_chain_fd *info;
#endif
#if defined(USE_SENDFILE)
int sendfile_okay = 1;
#endif
int ok = 1;
#if defined(USE_SENDFILE)
if (use_sendfile) {
EVBUFFER_LOCK(outbuf);
sendfile_okay = outbuf->flags & EVBUFFER_FLAG_DRAINS_TO_FD;
EVBUFFER_UNLOCK(outbuf);
}
if (use_sendfile && sendfile_okay) {
chain = evbuffer_chain_new(sizeof(struct evbuffer_chain_fd));
if (chain == NULL) {
event_warn("%s: out of memory", __func__);
return (-1);
}
chain->flags |= EVBUFFER_SENDFILE | EVBUFFER_IMMUTABLE;
chain->buffer = NULL; /* no reading possible */
chain->buffer_len = length + offset;
chain->off = length;
chain->misalign = offset;
info = EVBUFFER_CHAIN_EXTRA(struct evbuffer_chain_fd, chain);
info->fd = fd;
EVBUFFER_LOCK(outbuf);
if (outbuf->freeze_end) {
mm_free(chain);
ok = 0;
} else {
outbuf->n_add_for_cb += length;
evbuffer_chain_insert(outbuf, chain);
}
} else
#endif
#if defined(_EVENT_HAVE_MMAP)
if (use_mmap) {
void *mapped = mmap(NULL, length + offset, PROT_READ,
#ifdef MAP_NOCACHE
MAP_NOCACHE |
#endif
#ifdef MAP_FILE
MAP_FILE |
#endif
MAP_PRIVATE,
fd, 0);
/* some mmap implementations require offset to be a multiple of
* the page size. most users of this api, are likely to use 0
* so mapping everything is not likely to be a problem.
* TODO(niels): determine page size and round offset to that
* page size to avoid mapping too much memory.
*/
if (mapped == MAP_FAILED) {
event_warn("%s: mmap(%d, %d, %zu) failed",
__func__, fd, 0, (size_t)(offset + length));
return (-1);
}
chain = evbuffer_chain_new(sizeof(struct evbuffer_chain_fd));
if (chain == NULL) {
event_warn("%s: out of memory", __func__);
munmap(mapped, length);
return (-1);
}
chain->flags |= EVBUFFER_MMAP | EVBUFFER_IMMUTABLE;
chain->buffer = mapped;
chain->buffer_len = length + offset;
chain->off = length + offset;
info = EVBUFFER_CHAIN_EXTRA(struct evbuffer_chain_fd, chain);
info->fd = fd;
EVBUFFER_LOCK(outbuf);
if (outbuf->freeze_end) {
info->fd = -1;
evbuffer_chain_free(chain);
ok = 0;
} else {
outbuf->n_add_for_cb += length;
evbuffer_chain_insert(outbuf, chain);
/* we need to subtract whatever we don't need */
evbuffer_drain(outbuf, offset);
}
} else
#endif
{
/* the default implementation */
struct evbuffer *tmp = evbuffer_new();
ev_ssize_t read;
if (tmp == NULL)
return (-1);
#ifdef WIN32
#define lseek _lseeki64
#endif
if (lseek(fd, offset, SEEK_SET) == -1) {
evbuffer_free(tmp);
return (-1);
}
/* we add everything to a temporary buffer, so that we
* can abort without side effects if the read fails.
*/
while (length) {
read = evbuffer_readfile(tmp, fd, (ev_ssize_t)length);
if (read == -1) {
evbuffer_free(tmp);
return (-1);
}
length -= read;
}
EVBUFFER_LOCK(outbuf);
if (outbuf->freeze_end) {
evbuffer_free(tmp);
ok = 0;
} else {
evbuffer_add_buffer(outbuf, tmp);
evbuffer_free(tmp);
#ifdef WIN32
#define close _close
#endif
close(fd);
}
}
if (ok)
evbuffer_invoke_callbacks(outbuf);
EVBUFFER_UNLOCK(outbuf);
return ok ? 0 : -1;
}
void
evbuffer_setcb(struct evbuffer *buffer, evbuffer_cb cb, void *cbarg)
{
EVBUFFER_LOCK(buffer);
if (!TAILQ_EMPTY(&buffer->callbacks))
evbuffer_remove_all_callbacks(buffer);
if (cb) {
struct evbuffer_cb_entry *ent =
evbuffer_add_cb(buffer, NULL, cbarg);
ent->cb.cb_obsolete = cb;
ent->flags |= EVBUFFER_CB_OBSOLETE;
}
EVBUFFER_UNLOCK(buffer);
}
struct evbuffer_cb_entry *
evbuffer_add_cb(struct evbuffer *buffer, evbuffer_cb_func cb, void *cbarg)
{
struct evbuffer_cb_entry *e;
if (! (e = mm_calloc(1, sizeof(struct evbuffer_cb_entry))))
return NULL;
EVBUFFER_LOCK(buffer);
e->cb.cb_func = cb;
e->cbarg = cbarg;
e->flags = EVBUFFER_CB_ENABLED;
TAILQ_INSERT_HEAD(&buffer->callbacks, e, next);
EVBUFFER_UNLOCK(buffer);
return e;
}
int
evbuffer_remove_cb_entry(struct evbuffer *buffer,
struct evbuffer_cb_entry *ent)
{
EVBUFFER_LOCK(buffer);
TAILQ_REMOVE(&buffer->callbacks, ent, next);
EVBUFFER_UNLOCK(buffer);
mm_free(ent);
return 0;
}
int
evbuffer_remove_cb(struct evbuffer *buffer, evbuffer_cb_func cb, void *cbarg)
{
struct evbuffer_cb_entry *cbent;
int result = -1;
EVBUFFER_LOCK(buffer);
TAILQ_FOREACH(cbent, &buffer->callbacks, next) {
if (cb == cbent->cb.cb_func && cbarg == cbent->cbarg) {
result = evbuffer_remove_cb_entry(buffer, cbent);
goto done;
}
}
done:
EVBUFFER_UNLOCK(buffer);
return result;
}
int
evbuffer_cb_set_flags(struct evbuffer *buffer,
struct evbuffer_cb_entry *cb, ev_uint32_t flags)
{
/* the user isn't allowed to mess with these. */
flags &= ~EVBUFFER_CB_INTERNAL_FLAGS;
EVBUFFER_LOCK(buffer);
cb->flags |= flags;
EVBUFFER_UNLOCK(buffer);
return 0;
}
int
evbuffer_cb_clear_flags(struct evbuffer *buffer,
struct evbuffer_cb_entry *cb, ev_uint32_t flags)
{
/* the user isn't allowed to mess with these. */
flags &= ~EVBUFFER_CB_INTERNAL_FLAGS;
EVBUFFER_LOCK(buffer);
cb->flags &= ~flags;
EVBUFFER_UNLOCK(buffer);
return 0;
}
int
evbuffer_freeze(struct evbuffer *buffer, int start)
{
EVBUFFER_LOCK(buffer);
if (start)
buffer->freeze_start = 1;
else
buffer->freeze_end = 1;
EVBUFFER_UNLOCK(buffer);
return 0;
}
int
evbuffer_unfreeze(struct evbuffer *buffer, int start)
{
EVBUFFER_LOCK(buffer);
if (start)
buffer->freeze_start = 0;
else
buffer->freeze_end = 0;
EVBUFFER_UNLOCK(buffer);
return 0;
}
#if 0
void
evbuffer_cb_suspend(struct evbuffer *buffer, struct evbuffer_cb_entry *cb)
{
if (!(cb->flags & EVBUFFER_CB_SUSPENDED)) {
cb->size_before_suspend = evbuffer_get_length(buffer);
cb->flags |= EVBUFFER_CB_SUSPENDED;
}
}
void
evbuffer_cb_unsuspend(struct evbuffer *buffer, struct evbuffer_cb_entry *cb)
{
if ((cb->flags & EVBUFFER_CB_SUSPENDED)) {
unsigned call = (cb->flags & EVBUFFER_CB_CALL_ON_UNSUSPEND);
size_t sz = cb->size_before_suspend;
cb->flags &= ~(EVBUFFER_CB_SUSPENDED|
EVBUFFER_CB_CALL_ON_UNSUSPEND);
cb->size_before_suspend = 0;
if (call && (cb->flags & EVBUFFER_CB_ENABLED)) {
cb->cb(buffer, sz, evbuffer_get_length(buffer), cb->cbarg);
}
}
}
#endif
/* These hooks are exposed so that the unit tests can temporarily disable
* sendfile support in order to test mmap, or both to test linear
* access. Don't use it; if we need to add a way to disable sendfile support
* in the future, it will probably be via an alternate version of
* evbuffer_add_file() with a 'flags' argument.
*/
int _evbuffer_testing_use_sendfile(void);
int _evbuffer_testing_use_mmap(void);
int _evbuffer_testing_use_linear_file_access(void);
int
_evbuffer_testing_use_sendfile(void)
{
int ok = 0;
#ifdef USE_SENDFILE
use_sendfile = 1;
ok = 1;
#endif
#ifdef _EVENT_HAVE_MMAP
use_mmap = 0;
#endif
return ok;
}
int
_evbuffer_testing_use_mmap(void)
{
int ok = 0;
#ifdef USE_SENDFILE
use_sendfile = 0;
#endif
#ifdef _EVENT_HAVE_MMAP
use_mmap = 1;
ok = 1;
#endif
return ok;
}
int
_evbuffer_testing_use_linear_file_access(void)
{
#ifdef USE_SENDFILE
use_sendfile = 0;
#endif
#ifdef _EVENT_HAVE_MMAP
use_mmap = 0;
#endif
return 1;
}
|