elemental-ircd/libratbox/src/linebuf.c

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/*
* ircd-ratbox: A slightly useful ircd.
* linebuf.c: Maintains linebuffers.
*
* Copyright (C) 2001-2002 Adrian Chadd <adrian@creative.net.au>
* Copyright (C) 2002 Hybrid Development Team
* Copyright (C) 2002-2005 ircd-ratbox development team
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301
* USA
*
* $Id: linebuf.c 25038 2008-01-23 16:03:08Z androsyn $
*/
#include <libratbox_config.h>
#include <ratbox_lib.h>
#include <commio-int.h>
#ifndef NOBALLOC
static rb_bh *rb_linebuf_heap;
#endif
static int bufline_count = 0;
#ifndef LINEBUF_HEAP_SIZE
#define LINEBUF_HEAP_SIZE 2048
#endif
/*
* rb_linebuf_init
*
* Initialise the linebuf mechanism
*/
void
rb_linebuf_init(size_t heap_size)
{
#ifndef NOBALLOC
rb_linebuf_heap = rb_bh_create(sizeof(buf_line_t), heap_size, "librb_linebuf_heap");
#endif
}
static buf_line_t *
rb_linebuf_allocate(void)
{
buf_line_t *t;
#ifndef NOBALLOC
t = rb_bh_alloc(rb_linebuf_heap);
#else
t = rb_malloc(sizeof(buf_line_t));
#endif
return (t);
}
static void
rb_linebuf_free(buf_line_t * p)
{
#ifndef NOBALLOC
rb_bh_free(rb_linebuf_heap, p);
#else
rb_free(p);
#endif
}
/*
* rb_linebuf_new_line
*
* Create a new line, and link it to the given linebuf.
* It will be initially empty.
*/
static buf_line_t *
rb_linebuf_new_line(buf_head_t * bufhead)
{
buf_line_t *bufline;
rb_dlink_node *node;
bufline = rb_linebuf_allocate();
if(bufline == NULL)
return NULL;
++bufline_count;
node = rb_make_rb_dlink_node();
/* Stick it at the end of the buf list */
rb_dlinkAddTail(bufline, node, &bufhead->list);
bufline->refcount++;
/* And finally, update the allocated size */
bufhead->alloclen++;
bufhead->numlines++;
return bufline;
}
/*
* rb_linebuf_done_line
*
* We've finished with the given line, so deallocate it
*/
static void
rb_linebuf_done_line(buf_head_t * bufhead, buf_line_t * bufline, rb_dlink_node * node)
{
/* Remove it from the linked list */
rb_dlinkDestroy(node, &bufhead->list);
/* Update the allocated size */
bufhead->alloclen--;
bufhead->len -= bufline->len;
lrb_assert(bufhead->len >= 0);
bufhead->numlines--;
bufline->refcount--;
lrb_assert(bufline->refcount >= 0);
if(bufline->refcount == 0)
{
/* and finally, deallocate the buf */
--bufline_count;
lrb_assert(bufline_count >= 0);
rb_linebuf_free(bufline);
}
}
/*
* skip to end of line or the crlfs, return the number of bytes ..
*/
static inline int
rb_linebuf_skip_crlf(char *ch, int len)
{
int orig_len = len;
/* First, skip until the first non-CRLF */
for(; len; len--, ch++)
{
if(*ch == '\r')
break;
else if(*ch == '\n')
break;
}
/* Then, skip until the last CRLF */
for(; len; len--, ch++)
{
if((*ch != '\r') && (*ch != '\n'))
break;
}
lrb_assert(orig_len > len);
return (orig_len - len);
}
/*
* rb_linebuf_newbuf
*
* Initialise the new buffer
*/
void
rb_linebuf_newbuf(buf_head_t * bufhead)
{
/* not much to do right now :) */
memset(bufhead, 0, sizeof(buf_head_t));
}
/*
* rb_linebuf_donebuf
*
* Flush all the lines associated with this buffer
*/
void
rb_linebuf_donebuf(buf_head_t * bufhead)
{
while(bufhead->list.head != NULL)
{
rb_linebuf_done_line(bufhead, (buf_line_t *) bufhead->list.head->data, bufhead->list.head);
}
}
/*
* rb_linebuf_copy_line
*
* Okay..this functions comments made absolutely no sense.
*
* Basically what we do is this. Find the first chunk of text
* and then scan for a CRLF. If we didn't find it, but we didn't
* overflow our buffer..we wait for some more data.
* If we found a CRLF, we replace them with a \0 character.
* If we overflowed, we copy the most our buffer can handle, terminate
* it with a \0 and return.
*
* The return value is the amount of data we consumed. This could
* be different than the size of the linebuffer, as when we discard
* the overflow, we don't want to process it again.
*
* This still sucks in my opinion, but it seems to work.
*
* -Aaron
*/
static int
rb_linebuf_copy_line(buf_head_t * bufhead, buf_line_t * bufline, char *data, int len)
{
int cpylen = 0; /* how many bytes we've copied */
char *ch = data; /* Pointer to where we are in the read data */
char *bufch = bufline->buf + bufline->len;
int clen = 0; /* how many bytes we've processed,
and don't ever want to see again.. */
/* If its full or terminated, ignore it */
bufline->raw = 0;
lrb_assert(bufline->len < BUF_DATA_SIZE);
if(bufline->terminated == 1)
return 0;
clen = cpylen = rb_linebuf_skip_crlf(ch, len);
if(clen == -1)
return -1;
/* This is the ~overflow case..This doesn't happen often.. */
if(cpylen > (BUF_DATA_SIZE - bufline->len - 1))
{
memcpy(bufch, ch, (BUF_DATA_SIZE - bufline->len - 1));
bufline->buf[BUF_DATA_SIZE - 1] = '\0';
bufch = bufline->buf + BUF_DATA_SIZE - 2;
while(cpylen && (*bufch == '\r' || *bufch == '\n'))
{
*bufch = '\0';
cpylen--;
bufch--;
}
bufline->terminated = 1;
bufline->len = BUF_DATA_SIZE - 1;
bufhead->len += BUF_DATA_SIZE - 1;
return clen;
}
memcpy(bufch, ch, cpylen);
bufch += cpylen;
*bufch = '\0';
bufch--;
if(*bufch != '\r' && *bufch != '\n')
{
/* No linefeed, bail for the next time */
bufhead->len += cpylen;
bufline->len += cpylen;
bufline->terminated = 0;
return clen;
}
/* Yank the CRLF off this, replace with a \0 */
while(cpylen && (*bufch == '\r' || *bufch == '\n'))
{
*bufch = '\0';
cpylen--;
bufch--;
}
bufline->terminated = 1;
bufhead->len += cpylen;
bufline->len += cpylen;
return clen;
}
/*
* rb_linebuf_copy_raw
*
* Copy as much data as possible directly into a linebuf,
* splitting at \r\n, but without altering any data.
*
*/
static int
rb_linebuf_copy_raw(buf_head_t * bufhead, buf_line_t * bufline, char *data, int len)
{
int cpylen = 0; /* how many bytes we've copied */
char *ch = data; /* Pointer to where we are in the read data */
char *bufch = bufline->buf + bufline->len;
int clen = 0; /* how many bytes we've processed,
and don't ever want to see again.. */
/* If its full or terminated, ignore it */
bufline->raw = 1;
lrb_assert(bufline->len < BUF_DATA_SIZE);
if(bufline->terminated == 1)
return 0;
clen = cpylen = rb_linebuf_skip_crlf(ch, len);
if(clen == -1)
return -1;
/* This is the overflow case..This doesn't happen often.. */
if(cpylen > (BUF_DATA_SIZE - bufline->len - 1))
{
clen = BUF_DATA_SIZE - bufline->len - 1;
memcpy(bufch, ch, clen);
bufline->buf[BUF_DATA_SIZE - 1] = '\0';
bufch = bufline->buf + BUF_DATA_SIZE - 2;
bufline->terminated = 1;
bufline->len = BUF_DATA_SIZE - 1;
bufhead->len += BUF_DATA_SIZE - 1;
return clen;
}
memcpy(bufch, ch, cpylen);
bufch += cpylen;
*bufch = '\0';
bufch--;
if(*bufch != '\r' && *bufch != '\n')
{
/* No linefeed, bail for the next time */
bufhead->len += cpylen;
bufline->len += cpylen;
bufline->terminated = 0;
return clen;
}
bufline->terminated = 1;
bufhead->len += cpylen;
bufline->len += cpylen;
return clen;
}
/*
* rb_linebuf_parse
*
* Take a given buffer and break out as many buffers as we can.
* If we find a CRLF, we terminate that buffer and create a new one.
* If we don't find a CRLF whilst parsing a buffer, we don't mark it
* 'finished', so the next loop through we can continue appending ..
*
* A few notes here, which you'll need to understand before continuing.
*
* - right now I'm only dealing with single sized buffers. Later on,
* I might consider chaining buffers together to get longer "lines"
* but seriously, I don't see the advantage right now.
*
* - This *is* designed to turn into a reference-counter-protected setup
* to dodge copious copies.
*/
int
rb_linebuf_parse(buf_head_t * bufhead, char *data, int len, int raw)
{
buf_line_t *bufline;
int cpylen;
int linecnt = 0;
/* First, if we have a partial buffer, try to squeze data into it */
if(bufhead->list.tail != NULL)
{
/* Check we're doing the partial buffer thing */
bufline = bufhead->list.tail->data;
/* just try, the worst it could do is *reject* us .. */
if(!raw)
cpylen = rb_linebuf_copy_line(bufhead, bufline, data, len);
else
cpylen = rb_linebuf_copy_raw(bufhead, bufline, data, len);
if(cpylen == -1)
return -1;
linecnt++;
/* If we've copied the same as what we've got, quit now */
if(cpylen == len)
return linecnt; /* all the data done so soon? */
/* Skip the data and update len .. */
len -= cpylen;
lrb_assert(len >= 0);
data += cpylen;
}
/* Next, the loop */
while(len > 0)
{
/* We obviously need a new buffer, so .. */
bufline = rb_linebuf_new_line(bufhead);
/* And parse */
if(!raw)
cpylen = rb_linebuf_copy_line(bufhead, bufline, data, len);
else
cpylen = rb_linebuf_copy_raw(bufhead, bufline, data, len);
if(cpylen == -1)
return -1;
len -= cpylen;
lrb_assert(len >= 0);
data += cpylen;
linecnt++;
}
return linecnt;
}
/*
* rb_linebuf_get
*
* get the next buffer from our line. For the time being it will copy
* data into the given buffer and free the underlying linebuf.
*/
int
rb_linebuf_get(buf_head_t * bufhead, char *buf, int buflen, int partial, int raw)
{
buf_line_t *bufline;
int cpylen;
char *start, *ch;
/* make sure we have a line */
if(bufhead->list.head == NULL)
return 0; /* Obviously not.. hrm. */
bufline = bufhead->list.head->data;
/* make sure that the buffer was actually *terminated */
if(!(partial || bufline->terminated))
return 0; /* Wait for more data! */
if(buflen < bufline->len)
cpylen = buflen - 1;
else
cpylen = bufline->len;
/* Copy it */
start = bufline->buf;
/* if we left extraneous '\r\n' characters in the string,
* and we don't want to read the raw data, clean up the string.
*/
if(bufline->raw && !raw)
{
/* skip leading EOL characters */
while(cpylen && (*start == '\r' || *start == '\n'))
{
start++;
cpylen--;
}
/* skip trailing EOL characters */
ch = &start[cpylen - 1];
while(cpylen && (*ch == '\r' || *ch == '\n'))
{
ch--;
cpylen--;
}
}
memcpy(buf, start, cpylen);
/* convert CR/LF to NULL */
if(!raw)
buf[cpylen] = '\0';
lrb_assert(cpylen >= 0);
/* Deallocate the line */
rb_linebuf_done_line(bufhead, bufline, bufhead->list.head);
/* return how much we copied */
return cpylen;
}
/*
* rb_linebuf_attach
*
* attach the lines in a buf_head_t to another buf_head_t
* without copying the data (using refcounts).
*/
void
rb_linebuf_attach(buf_head_t * bufhead, buf_head_t * new)
{
rb_dlink_node *ptr;
buf_line_t *line;
RB_DLINK_FOREACH(ptr, new->list.head)
{
line = ptr->data;
rb_dlinkAddTailAlloc(line, &bufhead->list);
/* Update the allocated size */
bufhead->alloclen++;
bufhead->len += line->len;
bufhead->numlines++;
line->refcount++;
}
}
/*
* rb_linebuf_putmsg
*
* Similar to rb_linebuf_put, but designed for use by send.c.
*
* prefixfmt is used as a format for the varargs, and is inserted first.
* Then format/va_args is appended to the buffer.
*/
void
rb_linebuf_putmsg(buf_head_t * bufhead, const char *format, va_list * va_args, const char *prefixfmt, ...)
{
buf_line_t *bufline;
int len = 0;
va_list prefix_args;
/* make sure the previous line is terminated */
#ifndef NDEBUG
if(bufhead->list.tail)
{
bufline = bufhead->list.tail->data;
lrb_assert(bufline->terminated);
}
#endif
/* Create a new line */
bufline = rb_linebuf_new_line(bufhead);
if(prefixfmt != NULL)
{
va_start(prefix_args, prefixfmt);
len = rb_vsnprintf(bufline->buf, BUF_DATA_SIZE, prefixfmt, prefix_args);
va_end(prefix_args);
}
if(va_args != NULL)
{
len += rb_vsnprintf((bufline->buf + len), (BUF_DATA_SIZE - len), format, *va_args);
}
bufline->terminated = 1;
/* Truncate the data if required */
if(unlikely(len > 510))
{
len = 510;
bufline->buf[len++] = '\r';
bufline->buf[len++] = '\n';
}
else if(unlikely(len == 0))
{
bufline->buf[len++] = '\r';
bufline->buf[len++] = '\n';
bufline->buf[len] = '\0';
}
else
{
/* Chop trailing CRLF's .. */
while((bufline->buf[len] == '\r') || (bufline->buf[len] == '\n') || (bufline->buf[len] == '\0'))
{
len--;
}
bufline->buf[++len] = '\r';
bufline->buf[++len] = '\n';
bufline->buf[++len] = '\0';
}
bufline->len = len;
bufhead->len += len;
}
void
rb_linebuf_putbuf(buf_head_t *bufhead, const char *buffer)
{
buf_line_t *bufline;
int len = 0;
/* make sure the previous line is terminated */
#ifndef NDEBUG
if(bufhead->list.tail)
{
bufline = bufhead->list.tail->data;
lrb_assert(bufline->terminated);
}
#endif
/* Create a new line */
bufline = rb_linebuf_new_line(bufhead);
if(unlikely(buffer != NULL))
len = rb_strlcpy(bufline->buf, buffer, BUF_DATA_SIZE);
bufline->terminated = 1;
/* Truncate the data if required */
if(unlikely(len > 510))
{
len = 510;
bufline->buf[len++] = '\r';
bufline->buf[len++] = '\n';
}
else if(unlikely(len == 0))
{
bufline->buf[len++] = '\r';
bufline->buf[len++] = '\n';
bufline->buf[len] = '\0';
}
else
{
/* Chop trailing CRLF's .. */
while((bufline->buf[len] == '\r') || (bufline->buf[len] == '\n') || (bufline->buf[len] == '\0'))
{
len--;
}
bufline->buf[++len] = '\r';
bufline->buf[++len] = '\n';
bufline->buf[++len] = '\0';
}
bufline->len = len;
bufhead->len += len;
}
void
rb_linebuf_put(buf_head_t * bufhead, const char *format, ...)
{
buf_line_t *bufline;
int len = 0;
va_list args;
/* make sure the previous line is terminated */
#ifndef NDEBUG
if(bufhead->list.tail)
{
bufline = bufhead->list.tail->data;
lrb_assert(bufline->terminated);
}
#endif
/* Create a new line */
bufline = rb_linebuf_new_line(bufhead);
if(unlikely(format != NULL))
{
va_start(args, format);
len = rb_vsnprintf(bufline->buf, BUF_DATA_SIZE, format, args);
va_end(args);
}
bufline->terminated = 1;
/* Truncate the data if required */
if(unlikely(len > 510))
{
len = 510;
bufline->buf[len++] = '\r';
bufline->buf[len++] = '\n';
}
else if(unlikely(len == 0))
{
bufline->buf[len++] = '\r';
bufline->buf[len++] = '\n';
bufline->buf[len] = '\0';
}
else
{
/* Chop trailing CRLF's .. */
while((bufline->buf[len] == '\r') || (bufline->buf[len] == '\n') || (bufline->buf[len] == '\0'))
{
len--;
}
bufline->buf[++len] = '\r';
bufline->buf[++len] = '\n';
bufline->buf[++len] = '\0';
}
bufline->len = len;
bufhead->len += len;
}
/*
* rb_linebuf_flush
*
* Flush data to the buffer. It tries to write as much data as possible
* to the given socket. Any return values are passed straight through.
* If there is no data in the socket, EWOULDBLOCK is set as an errno
* rather than returning 0 (which would map to an EOF..)
*
* Notes: XXX We *should* have a clue here when a non-full buffer is arrived.
* and tag it so that we don't re-schedule another write until
* we have a CRLF.
*/
int
rb_linebuf_flush(rb_fde_t *F, buf_head_t * bufhead)
{
buf_line_t *bufline;
int retval;
/*
* autoconf checks for this..but really just want to use it if we have a
* native version even if libircd provides a fake version...
*/
#ifdef HAVE_WRITEV
if(!rb_fd_ssl(F))
{
rb_dlink_node *ptr;
int x = 0, y;
int xret;
static struct rb_iovec vec[RB_UIO_MAXIOV];
memset(vec, 0, sizeof(vec));
/* Check we actually have a first buffer */
if(bufhead->list.head == NULL)
{
/* nope, so we return none .. */
errno = EWOULDBLOCK;
return -1;
}
ptr = bufhead->list.head;
bufline = ptr->data;
if(!bufline->terminated)
{
errno = EWOULDBLOCK;
return -1;
}
vec[x].iov_base = bufline->buf + bufhead->writeofs;
vec[x++].iov_len = bufline->len - bufhead->writeofs;
ptr = ptr->next;
do
{
if(ptr == NULL)
break;
bufline = ptr->data;
if(!bufline->terminated)
break;
vec[x].iov_base = bufline->buf;
vec[x].iov_len = bufline->len;
ptr = ptr->next;
} while(++x < RB_UIO_MAXIOV);
if(x == 0)
{
errno = EWOULDBLOCK;
return -1;
}
xret = retval = rb_writev(F, vec, x);
if(retval <= 0)
return retval;
ptr = bufhead->list.head;
for(y = 0; y < x; y++)
{
bufline = ptr->data;
if(xret >= bufline->len - bufhead->writeofs)
{
xret -= bufline->len - bufhead->writeofs;
ptr = ptr->next;
rb_linebuf_done_line(bufhead, bufline, bufhead->list.head);
bufhead->writeofs = 0;
}
else
{
bufhead->writeofs += xret;
break;
}
}
return retval;
}
#endif
/* this is the non-writev case */
/* Check we actually have a first buffer */
if(bufhead->list.head == NULL)
{
/* nope, so we return none .. */
errno = EWOULDBLOCK;
return -1;
}
bufline = bufhead->list.head->data;
/* And that its actually full .. */
if(!bufline->terminated)
{
errno = EWOULDBLOCK;
return -1;
}
/* Now, try writing data */
retval = rb_write(F, bufline->buf + bufhead->writeofs, bufline->len - bufhead->writeofs);
if(retval <= 0)
return retval;
/* we've got data, so update the write offset */
bufhead->writeofs += retval;
/* if we've written everything *and* the CRLF, deallocate and update
bufhead */
if(bufhead->writeofs == bufline->len)
{
bufhead->writeofs = 0;
lrb_assert(bufhead->len >= 0);
rb_linebuf_done_line(bufhead, bufline, bufhead->list.head);
}
/* Return line length */
return retval;
}
/*
* count linebufs for stats z
*/
void
rb_count_rb_linebuf_memory(size_t * count, size_t * rb_linebuf_memory_used)
{
#ifndef NOBALLOC
rb_bh_usage(rb_linebuf_heap, count, NULL, rb_linebuf_memory_used, NULL);
#else
*count = 0;
*rb_linebuf_memory_used = 0;
#endif
}