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memcached.c
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memcached.c
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/* -*- Mode: C; tab-width: 4; c-basic-offset: 4; indent-tabs-mode: nil -*- */
/*
* memcached - memory caching daemon
*
* http://www.danga.com/memcached/
*
* Copyright 2003 Danga Interactive, Inc. All rights reserved.
*
* Use and distribution licensed under the BSD license. See
* the LICENSE file for full text.
*
* Authors:
* Anatoly Vorobey <[email protected]>
* Brad Fitzpatrick <[email protected]>
*/
#include "memcached.h"
#include <sys/stat.h>
#include <sys/socket.h>
#include <sys/un.h>
#include <signal.h>
#include <sys/resource.h>
#include <sys/uio.h>
#include <ctype.h>
#include <stdarg.h>
/* some POSIX systems need the following definition
* to get mlockall flags out of sys/mman.h. */
#ifndef _P1003_1B_VISIBLE
#define _P1003_1B_VISIBLE
#endif
/* need this to get IOV_MAX on some platforms. */
#ifndef __need_IOV_MAX
#define __need_IOV_MAX
#endif
#include <pwd.h>
#include <sys/mman.h>
#include <fcntl.h>
#include <netinet/tcp.h>
#include <arpa/inet.h>
#include <errno.h>
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <time.h>
#include <assert.h>
#include <limits.h>
#include <sysexits.h>
#include <stddef.h>
/* include sflow_mc.h even if ENABLE_SFLOW is not defined
so that the SFLOW_SAMPLE macro can be defined to do
something or be a no-op */
#include "sflow_mc.h"
/* FreeBSD 4.x doesn't have IOV_MAX exposed. */
#ifndef IOV_MAX
#if defined(__FreeBSD__) || defined(__APPLE__)
# define IOV_MAX 1024
#endif
#endif
/*
* forward declarations
*/
static void drive_machine(conn *c);
static int new_socket(struct addrinfo *ai);
static int try_read_command(conn *c);
enum try_read_result {
READ_DATA_RECEIVED,
READ_NO_DATA_RECEIVED,
READ_ERROR, /** an error occured (on the socket) (or client closed connection) */
READ_MEMORY_ERROR /** failed to allocate more memory */
};
static enum try_read_result try_read_network(conn *c);
static enum try_read_result try_read_udp(conn *c);
static void conn_set_state(conn *c, enum conn_states state);
/* stats */
static void stats_init(void);
static void server_stats(ADD_STAT add_stats, conn *c);
static void process_stat_settings(ADD_STAT add_stats, void *c);
/* defaults */
static void settings_init(void);
/* event handling, network IO */
static void event_handler(const int fd, const short which, void *arg);
static void conn_close(conn *c);
static void conn_init(void);
static bool update_event(conn *c, const int new_flags);
static void complete_nread(conn *c);
static void process_command(conn *c, char *command);
static void write_and_free(conn *c, char *buf, int bytes);
static int ensure_iov_space(conn *c);
static int add_iov(conn *c, const void *buf, int len);
static int add_msghdr(conn *c);
static void conn_free(conn *c);
/** exported globals **/
struct stats stats;
struct settings settings;
time_t process_started; /* when the process was started */
struct slab_rebalance slab_rebal;
volatile int slab_rebalance_signal;
/** file scope variables **/
static conn *listen_conn = NULL;
static struct event_base *main_base;
enum transmit_result {
TRANSMIT_COMPLETE, /** All done writing. */
TRANSMIT_INCOMPLETE, /** More data remaining to write. */
TRANSMIT_SOFT_ERROR, /** Can't write any more right now. */
TRANSMIT_HARD_ERROR /** Can't write (c->state is set to conn_closing) */
};
static enum transmit_result transmit(conn *c);
/* This reduces the latency without adding lots of extra wiring to be able to
* notify the listener thread of when to listen again.
* Also, the clock timer could be broken out into its own thread and we
* can block the listener via a condition.
*/
static volatile bool allow_new_conns = true;
static struct event maxconnsevent;
static void maxconns_handler(const int fd, const short which, void *arg) {
struct timeval t = {.tv_sec = 0, .tv_usec = 10000};
if (fd == -42 || allow_new_conns == false) {
/* reschedule in 10ms if we need to keep polling */
evtimer_set(&maxconnsevent, maxconns_handler, 0);
event_base_set(main_base, &maxconnsevent);
evtimer_add(&maxconnsevent, &t);
} else {
evtimer_del(&maxconnsevent);
accept_new_conns(true);
}
}
#define REALTIME_MAXDELTA 60*60*24*30
/*
* given time value that's either unix time or delta from current unix time, return
* unix time. Use the fact that delta can't exceed one month (and real time value can't
* be that low).
*/
static rel_time_t realtime(const time_t exptime) {
/* no. of seconds in 30 days - largest possible delta exptime */
if (exptime == 0) return 0; /* 0 means never expire */
if (exptime > REALTIME_MAXDELTA) {
/* if item expiration is at/before the server started, give it an
expiration time of 1 second after the server started.
(because 0 means don't expire). without this, we'd
underflow and wrap around to some large value way in the
future, effectively making items expiring in the past
really expiring never */
if (exptime <= process_started)
return (rel_time_t)1;
return (rel_time_t)(exptime - process_started);
} else {
return (rel_time_t)(exptime + current_time);
}
}
static void stats_init(void) {
stats.curr_items = stats.total_items = stats.curr_conns = stats.total_conns = stats.conn_structs = 0;
stats.get_cmds = stats.set_cmds = stats.get_hits = stats.get_misses = stats.evictions = stats.reclaimed = 0;
stats.touch_cmds = stats.touch_misses = stats.touch_hits = stats.rejected_conns = 0;
stats.curr_bytes = stats.listen_disabled_num = 0;
stats.hash_power_level = stats.hash_bytes = stats.hash_is_expanding = 0;
stats.expired_unfetched = stats.evicted_unfetched = 0;
stats.slabs_moved = 0;
stats.accepting_conns = true; /* assuming we start in this state. */
stats.slab_reassign_running = false;
/* make the time we started always be 2 seconds before we really
did, so time(0) - time.started is never zero. if so, things
like 'settings.oldest_live' which act as booleans as well as
values are now false in boolean context... */
process_started = time(0) - 2;
stats_prefix_init();
}
static void stats_reset(void) {
STATS_LOCK();
stats.total_items = stats.total_conns = 0;
stats.rejected_conns = 0;
stats.evictions = 0;
stats.reclaimed = 0;
stats.listen_disabled_num = 0;
stats_prefix_clear();
STATS_UNLOCK();
threadlocal_stats_reset();
item_stats_reset();
}
static void settings_init(void) {
settings.use_cas = true;
settings.access = 0700;
settings.port = 11211;
settings.udpport = 11211;
/* By default this string should be NULL for getaddrinfo() */
settings.inter = NULL;
settings.maxbytes = 64 * 1024 * 1024; /* default is 64MB */
settings.maxconns = 1024; /* to limit connections-related memory to about 5MB */
settings.verbose = 0;
settings.oldest_live = 0;
settings.evict_to_free = 1; /* push old items out of cache when memory runs out */
settings.socketpath = NULL; /* by default, not using a unix socket */
settings.factor = 1.25;
settings.chunk_size = 48; /* space for a modest key and value */
settings.num_threads = 4; /* N workers */
settings.num_threads_per_udp = 0;
settings.prefix_delimiter = ':';
settings.detail_enabled = 0;
settings.reqs_per_event = 20;
settings.backlog = 1024;
settings.binding_protocol = negotiating_prot;
settings.item_size_max = 1024 * 1024; /* The famous 1MB upper limit. */
settings.maxconns_fast = false;
settings.hashpower_init = 0;
settings.slab_reassign = false;
settings.slab_automove = false;
}
/*
* Adds a message header to a connection.
*
* Returns 0 on success, -1 on out-of-memory.
*/
static int add_msghdr(conn *c)
{
struct msghdr *msg;
assert(c != NULL);
if (c->msgsize == c->msgused) {
msg = realloc(c->msglist, c->msgsize * 2 * sizeof(struct msghdr));
if (! msg)
return -1;
c->msglist = msg;
c->msgsize *= 2;
}
msg = c->msglist + c->msgused;
/* this wipes msg_iovlen, msg_control, msg_controllen, and
msg_flags, the last 3 of which aren't defined on solaris: */
memset(msg, 0, sizeof(struct msghdr));
msg->msg_iov = &c->iov[c->iovused];
if (c->request_addr_size > 0) {
msg->msg_name = &c->request_addr;
msg->msg_namelen = c->request_addr_size;
}
c->msgbytes = 0;
c->msgused++;
if (IS_UDP(c->transport)) {
/* Leave room for the UDP header, which we'll fill in later. */
return add_iov(c, NULL, UDP_HEADER_SIZE);
}
return 0;
}
/*
* Free list management for connections.
*/
static conn **freeconns;
static int freetotal;
static int freecurr;
/* Lock for connection freelist */
static pthread_mutex_t conn_lock = PTHREAD_MUTEX_INITIALIZER;
static void conn_init(void) {
freetotal = 200;
freecurr = 0;
if ((freeconns = calloc(freetotal, sizeof(conn *))) == NULL) {
fprintf(stderr, "Failed to allocate connection structures\n");
}
return;
}
/*
* Returns a connection from the freelist, if any.
*/
conn *conn_from_freelist() {
conn *c;
pthread_mutex_lock(&conn_lock);
if (freecurr > 0) {
c = freeconns[--freecurr];
} else {
c = NULL;
}
pthread_mutex_unlock(&conn_lock);
return c;
}
/*
* Adds a connection to the freelist. 0 = success.
*/
bool conn_add_to_freelist(conn *c) {
bool ret = true;
pthread_mutex_lock(&conn_lock);
if (freecurr < freetotal) {
freeconns[freecurr++] = c;
ret = false;
} else {
/* try to enlarge free connections array */
size_t newsize = freetotal * 2;
conn **new_freeconns = realloc(freeconns, sizeof(conn *) * newsize);
if (new_freeconns) {
freetotal = newsize;
freeconns = new_freeconns;
freeconns[freecurr++] = c;
ret = false;
}
}
pthread_mutex_unlock(&conn_lock);
return ret;
}
static const char *prot_text(enum protocol prot) {
char *rv = "unknown";
switch(prot) {
case ascii_prot:
rv = "ascii";
break;
case binary_prot:
rv = "binary";
break;
case negotiating_prot:
rv = "auto-negotiate";
break;
}
return rv;
}
conn *conn_new(const int sfd, enum conn_states init_state,
const int event_flags,
const int read_buffer_size, enum network_transport transport,
struct event_base *base) {
conn *c = conn_from_freelist();
if (NULL == c) {
if (!(c = (conn *)calloc(1, sizeof(conn)))) {
fprintf(stderr, "calloc()\n");
return NULL;
}
MEMCACHED_CONN_CREATE(c);
c->rbuf = c->wbuf = 0;
c->ilist = 0;
c->suffixlist = 0;
c->iov = 0;
c->msglist = 0;
c->hdrbuf = 0;
c->rsize = read_buffer_size;
c->wsize = DATA_BUFFER_SIZE;
c->isize = ITEM_LIST_INITIAL;
c->suffixsize = SUFFIX_LIST_INITIAL;
c->iovsize = IOV_LIST_INITIAL;
c->msgsize = MSG_LIST_INITIAL;
c->hdrsize = 0;
c->rbuf = (char *)malloc((size_t)c->rsize);
c->wbuf = (char *)malloc((size_t)c->wsize);
c->ilist = (item **)malloc(sizeof(item *) * c->isize);
c->suffixlist = (char **)malloc(sizeof(char *) * c->suffixsize);
c->iov = (struct iovec *)malloc(sizeof(struct iovec) * c->iovsize);
c->msglist = (struct msghdr *)malloc(sizeof(struct msghdr) * c->msgsize);
if (c->rbuf == 0 || c->wbuf == 0 || c->ilist == 0 || c->iov == 0 ||
c->msglist == 0 || c->suffixlist == 0) {
conn_free(c);
fprintf(stderr, "malloc()\n");
return NULL;
}
STATS_LOCK();
stats.conn_structs++;
STATS_UNLOCK();
}
c->transport = transport;
c->protocol = settings.binding_protocol;
/* unix socket mode doesn't need this, so zeroed out. but why
* is this done for every command? presumably for UDP
* mode. */
if (!settings.socketpath) {
c->request_addr_size = sizeof(c->request_addr);
} else {
c->request_addr_size = 0;
}
if (settings.verbose > 1) {
if (init_state == conn_listening) {
fprintf(stderr, "<%d server listening (%s)\n", sfd,
prot_text(c->protocol));
} else if (IS_UDP(transport)) {
fprintf(stderr, "<%d server listening (udp)\n", sfd);
} else if (c->protocol == negotiating_prot) {
fprintf(stderr, "<%d new auto-negotiating client connection\n",
sfd);
} else if (c->protocol == ascii_prot) {
fprintf(stderr, "<%d new ascii client connection.\n", sfd);
} else if (c->protocol == binary_prot) {
fprintf(stderr, "<%d new binary client connection.\n", sfd);
} else {
fprintf(stderr, "<%d new unknown (%d) client connection\n",
sfd, c->protocol);
assert(false);
}
}
c->sfd = sfd;
c->state = init_state;
c->rlbytes = 0;
c->cmd = -1;
c->rbytes = c->wbytes = 0;
c->wcurr = c->wbuf;
c->rcurr = c->rbuf;
c->ritem = 0;
c->icurr = c->ilist;
c->suffixcurr = c->suffixlist;
c->ileft = 0;
c->suffixleft = 0;
c->iovused = 0;
c->msgcurr = 0;
c->msgused = 0;
c->write_and_go = init_state;
c->write_and_free = 0;
c->item = 0;
c->noreply = false;
event_set(&c->event, sfd, event_flags, event_handler, (void *)c);
event_base_set(base, &c->event);
c->ev_flags = event_flags;
if (event_add(&c->event, 0) == -1) {
if (conn_add_to_freelist(c)) {
conn_free(c);
}
perror("event_add");
return NULL;
}
STATS_LOCK();
stats.curr_conns++;
stats.total_conns++;
STATS_UNLOCK();
MEMCACHED_CONN_ALLOCATE(c->sfd);
return c;
}
static void conn_cleanup(conn *c) {
assert(c != NULL);
if (c->item) {
item_remove(c->item);
c->item = 0;
}
if (c->ileft != 0) {
for (; c->ileft > 0; c->ileft--,c->icurr++) {
item_remove(*(c->icurr));
}
}
if (c->suffixleft != 0) {
for (; c->suffixleft > 0; c->suffixleft--, c->suffixcurr++) {
cache_free(c->thread->suffix_cache, *(c->suffixcurr));
}
}
if (c->write_and_free) {
free(c->write_and_free);
c->write_and_free = 0;
}
if (c->sasl_conn) {
assert(settings.sasl);
sasl_dispose(&c->sasl_conn);
c->sasl_conn = NULL;
}
if (IS_UDP(c->transport)) {
conn_set_state(c, conn_read);
}
}
/*
* Frees a connection.
*/
void conn_free(conn *c) {
if (c) {
MEMCACHED_CONN_DESTROY(c);
if (c->hdrbuf)
free(c->hdrbuf);
if (c->msglist)
free(c->msglist);
if (c->rbuf)
free(c->rbuf);
if (c->wbuf)
free(c->wbuf);
if (c->ilist)
free(c->ilist);
if (c->suffixlist)
free(c->suffixlist);
if (c->iov)
free(c->iov);
free(c);
}
}
static void conn_close(conn *c) {
assert(c != NULL);
/* delete the event, the socket and the conn */
event_del(&c->event);
if (settings.verbose > 1)
fprintf(stderr, "<%d connection closed.\n", c->sfd);
MEMCACHED_CONN_RELEASE(c->sfd);
close(c->sfd);
pthread_mutex_lock(&conn_lock);
allow_new_conns = true;
pthread_mutex_unlock(&conn_lock);
conn_cleanup(c);
/* if the connection has big buffers, just free it */
if (c->rsize > READ_BUFFER_HIGHWAT || conn_add_to_freelist(c)) {
conn_free(c);
}
STATS_LOCK();
stats.curr_conns--;
STATS_UNLOCK();
return;
}
/*
* Shrinks a connection's buffers if they're too big. This prevents
* periodic large "get" requests from permanently chewing lots of server
* memory.
*
* This should only be called in between requests since it can wipe output
* buffers!
*/
static void conn_shrink(conn *c) {
assert(c != NULL);
if (IS_UDP(c->transport))
return;
if (c->rsize > READ_BUFFER_HIGHWAT && c->rbytes < DATA_BUFFER_SIZE) {
char *newbuf;
if (c->rcurr != c->rbuf)
memmove(c->rbuf, c->rcurr, (size_t)c->rbytes);
newbuf = (char *)realloc((void *)c->rbuf, DATA_BUFFER_SIZE);
if (newbuf) {
c->rbuf = newbuf;
c->rsize = DATA_BUFFER_SIZE;
}
/* TODO check other branch... */
c->rcurr = c->rbuf;
}
if (c->isize > ITEM_LIST_HIGHWAT) {
item **newbuf = (item**) realloc((void *)c->ilist, ITEM_LIST_INITIAL * sizeof(c->ilist[0]));
if (newbuf) {
c->ilist = newbuf;
c->isize = ITEM_LIST_INITIAL;
}
/* TODO check error condition? */
}
if (c->msgsize > MSG_LIST_HIGHWAT) {
struct msghdr *newbuf = (struct msghdr *) realloc((void *)c->msglist, MSG_LIST_INITIAL * sizeof(c->msglist[0]));
if (newbuf) {
c->msglist = newbuf;
c->msgsize = MSG_LIST_INITIAL;
}
/* TODO check error condition? */
}
if (c->iovsize > IOV_LIST_HIGHWAT) {
struct iovec *newbuf = (struct iovec *) realloc((void *)c->iov, IOV_LIST_INITIAL * sizeof(c->iov[0]));
if (newbuf) {
c->iov = newbuf;
c->iovsize = IOV_LIST_INITIAL;
}
/* TODO check return value */
}
}
/**
* Convert a state name to a human readable form.
*/
static const char *state_text(enum conn_states state) {
const char* const statenames[] = { "conn_listening",
"conn_new_cmd",
"conn_waiting",
"conn_read",
"conn_parse_cmd",
"conn_write",
"conn_nread",
"conn_swallow",
"conn_closing",
"conn_mwrite" };
return statenames[state];
}
/*
* Sets a connection's current state in the state machine. Any special
* processing that needs to happen on certain state transitions can
* happen here.
*/
static void conn_set_state(conn *c, enum conn_states state) {
assert(c != NULL);
assert(state >= conn_listening && state < conn_max_state);
if (state != c->state) {
if (settings.verbose > 2) {
fprintf(stderr, "%d: going from %s to %s\n",
c->sfd, state_text(c->state),
state_text(state));
}
if (state == conn_write || state == conn_mwrite) {
MEMCACHED_PROCESS_COMMAND_END(c->sfd, c->wbuf, c->wbytes);
SFLOW_SAMPLE(SFMC_CMD_OTHER, c, NULL, 0, 0, -1, -1); // catch-all
}
c->state = state;
}
}
/*
* Ensures that there is room for another struct iovec in a connection's
* iov list.
*
* Returns 0 on success, -1 on out-of-memory.
*/
static int ensure_iov_space(conn *c) {
assert(c != NULL);
if (c->iovused >= c->iovsize) {
int i, iovnum;
struct iovec *new_iov = (struct iovec *)realloc(c->iov,
(c->iovsize * 2) * sizeof(struct iovec));
if (! new_iov)
return -1;
c->iov = new_iov;
c->iovsize *= 2;
/* Point all the msghdr structures at the new list. */
for (i = 0, iovnum = 0; i < c->msgused; i++) {
c->msglist[i].msg_iov = &c->iov[iovnum];
iovnum += c->msglist[i].msg_iovlen;
}
}
return 0;
}
/*
* Adds data to the list of pending data that will be written out to a
* connection.
*
* Returns 0 on success, -1 on out-of-memory.
*/
static int add_iov(conn *c, const void *buf, int len) {
struct msghdr *m;
int leftover;
bool limit_to_mtu;
assert(c != NULL);
do {
m = &c->msglist[c->msgused - 1];
/*
* Limit UDP packets, and the first payloads of TCP replies, to
* UDP_MAX_PAYLOAD_SIZE bytes.
*/
limit_to_mtu = IS_UDP(c->transport) || (1 == c->msgused);
/* We may need to start a new msghdr if this one is full. */
if (m->msg_iovlen == IOV_MAX ||
(limit_to_mtu && c->msgbytes >= UDP_MAX_PAYLOAD_SIZE)) {
add_msghdr(c);
m = &c->msglist[c->msgused - 1];
}
if (ensure_iov_space(c) != 0)
return -1;
/* If the fragment is too big to fit in the datagram, split it up */
if (limit_to_mtu && len + c->msgbytes > UDP_MAX_PAYLOAD_SIZE) {
leftover = len + c->msgbytes - UDP_MAX_PAYLOAD_SIZE;
len -= leftover;
} else {
leftover = 0;
}
m = &c->msglist[c->msgused - 1];
m->msg_iov[m->msg_iovlen].iov_base = (void *)buf;
m->msg_iov[m->msg_iovlen].iov_len = len;
c->msgbytes += len;
c->iovused++;
m->msg_iovlen++;
buf = ((char *)buf) + len;
len = leftover;
} while (leftover > 0);
return 0;
}
/*
* Constructs a set of UDP headers and attaches them to the outgoing messages.
*/
static int build_udp_headers(conn *c) {
int i;
unsigned char *hdr;
assert(c != NULL);
if (c->msgused > c->hdrsize) {
void *new_hdrbuf;
if (c->hdrbuf)
new_hdrbuf = realloc(c->hdrbuf, c->msgused * 2 * UDP_HEADER_SIZE);
else
new_hdrbuf = malloc(c->msgused * 2 * UDP_HEADER_SIZE);
if (! new_hdrbuf)
return -1;
c->hdrbuf = (unsigned char *)new_hdrbuf;
c->hdrsize = c->msgused * 2;
}
hdr = c->hdrbuf;
for (i = 0; i < c->msgused; i++) {
c->msglist[i].msg_iov[0].iov_base = (void*)hdr;
c->msglist[i].msg_iov[0].iov_len = UDP_HEADER_SIZE;
*hdr++ = c->request_id / 256;
*hdr++ = c->request_id % 256;
*hdr++ = i / 256;
*hdr++ = i % 256;
*hdr++ = c->msgused / 256;
*hdr++ = c->msgused % 256;
*hdr++ = 0;
*hdr++ = 0;
assert((void *) hdr == (caddr_t)c->msglist[i].msg_iov[0].iov_base + UDP_HEADER_SIZE);
}
return 0;
}
static void out_string(conn *c, const char *str) {
size_t len;
assert(c != NULL);
if (c->noreply) {
if (settings.verbose > 1)
fprintf(stderr, ">%d NOREPLY %s\n", c->sfd, str);
c->noreply = false;
conn_set_state(c, conn_new_cmd);
return;
}
if (settings.verbose > 1)
fprintf(stderr, ">%d %s\n", c->sfd, str);
/* Nuke a partial output... */
c->msgcurr = 0;
c->msgused = 0;
c->iovused = 0;
add_msghdr(c);
len = strlen(str);
if ((len + 2) > c->wsize) {
/* ought to be always enough. just fail for simplicity */
str = "SERVER_ERROR output line too long";
len = strlen(str);
}
memcpy(c->wbuf, str, len);
memcpy(c->wbuf + len, "\r\n", 2);
c->wbytes = len + 2;
c->wcurr = c->wbuf;
conn_set_state(c, conn_write);
c->write_and_go = conn_new_cmd;
return;
}
/*
* we get here after reading the value in set/add/replace commands. The command
* has been stored in c->cmd, and the item is ready in c->item.
*/
static void complete_nread_ascii(conn *c) {
assert(c != NULL);
item *it = c->item;
int comm = c->cmd;
enum store_item_type ret;
pthread_mutex_lock(&c->thread->stats.mutex);
c->thread->stats.slab_stats[it->slabs_clsid].set_cmds++;
pthread_mutex_unlock(&c->thread->stats.mutex);
if (strncmp(ITEM_data(it) + it->nbytes - 2, "\r\n", 2) != 0) {
out_string(c, "CLIENT_ERROR bad data chunk");
} else {
ret = store_item(it, comm, c);
SFLOW_SAMPLE(SFMC_CMD_OTHER, c, ITEM_key(it), it->nkey, 0, (ret==STORED) ? it->nbytes : 0, ret);
#ifdef ENABLE_DTRACE
uint64_t cas = ITEM_get_cas(it);
switch (c->cmd) {
case NREAD_ADD:
MEMCACHED_COMMAND_ADD(c->sfd, ITEM_key(it), it->nkey,
(ret == 1) ? it->nbytes : -1, cas);
break;
case NREAD_REPLACE:
MEMCACHED_COMMAND_REPLACE(c->sfd, ITEM_key(it), it->nkey,
(ret == 1) ? it->nbytes : -1, cas);
break;
case NREAD_APPEND:
MEMCACHED_COMMAND_APPEND(c->sfd, ITEM_key(it), it->nkey,
(ret == 1) ? it->nbytes : -1, cas);
break;
case NREAD_PREPEND:
MEMCACHED_COMMAND_PREPEND(c->sfd, ITEM_key(it), it->nkey,
(ret == 1) ? it->nbytes : -1, cas);
break;
case NREAD_SET:
MEMCACHED_COMMAND_SET(c->sfd, ITEM_key(it), it->nkey,
(ret == 1) ? it->nbytes : -1, cas);
break;
case NREAD_CAS:
MEMCACHED_COMMAND_CAS(c->sfd, ITEM_key(it), it->nkey, it->nbytes,
cas);
break;
}
#endif
switch (ret) {
case STORED:
out_string(c, "STORED");
break;
case EXISTS:
out_string(c, "EXISTS");
break;
case NOT_FOUND:
out_string(c, "NOT_FOUND");
break;
case NOT_STORED:
out_string(c, "NOT_STORED");
break;
default:
out_string(c, "SERVER_ERROR Unhandled storage type.");
}
}
item_remove(c->item); /* release the c->item reference */
c->item = 0;
}
/**
* get a pointer to the start of the request struct for the current command
*/
static void* binary_get_request(conn *c) {
char *ret = c->rcurr;
ret -= (sizeof(c->binary_header) + c->binary_header.request.keylen +
c->binary_header.request.extlen);
assert(ret >= c->rbuf);
return ret;
}
/**
* get a pointer to the key in this request
*/
static char* binary_get_key(conn *c) {
return c->rcurr - (c->binary_header.request.keylen);
}
static void add_bin_header(conn *c, uint16_t err, uint8_t hdr_len, uint16_t key_len, uint32_t body_len) {
protocol_binary_response_header* header;
assert(c);
c->msgcurr = 0;
c->msgused = 0;
c->iovused = 0;
if (add_msghdr(c) != 0) {
/* XXX: out_string is inappropriate here */
out_string(c, "SERVER_ERROR out of memory");
return;
}
header = (protocol_binary_response_header *)c->wbuf;
header->response.magic = (uint8_t)PROTOCOL_BINARY_RES;
header->response.opcode = c->binary_header.request.opcode;
header->response.keylen = (uint16_t)htons(key_len);
header->response.extlen = (uint8_t)hdr_len;
header->response.datatype = (uint8_t)PROTOCOL_BINARY_RAW_BYTES;
header->response.status = (uint16_t)htons(err);
header->response.bodylen = htonl(body_len);
header->response.opaque = c->opaque;
header->response.cas = htonll(c->cas);
if (settings.verbose > 1) {
int ii;
fprintf(stderr, ">%d Writing bin response:", c->sfd);
for (ii = 0; ii < sizeof(header->bytes); ++ii) {
if (ii % 4 == 0) {
fprintf(stderr, "\n>%d ", c->sfd);
}
fprintf(stderr, " 0x%02x", header->bytes[ii]);
}
fprintf(stderr, "\n");
}
add_iov(c, c->wbuf, sizeof(header->response));
}
static void write_bin_error(conn *c, protocol_binary_response_status err, int swallow) {
const char *errstr = "Unknown error";
size_t len;
switch (err) {
case PROTOCOL_BINARY_RESPONSE_ENOMEM:
errstr = "Out of memory";
break;
case PROTOCOL_BINARY_RESPONSE_UNKNOWN_COMMAND:
errstr = "Unknown command";
break;
case PROTOCOL_BINARY_RESPONSE_KEY_ENOENT:
errstr = "Not found";
break;
case PROTOCOL_BINARY_RESPONSE_EINVAL:
errstr = "Invalid arguments";
break;
case PROTOCOL_BINARY_RESPONSE_KEY_EEXISTS:
errstr = "Data exists for key.";
break;
case PROTOCOL_BINARY_RESPONSE_E2BIG:
errstr = "Too large.";
break;
case PROTOCOL_BINARY_RESPONSE_DELTA_BADVAL:
errstr = "Non-numeric server-side value for incr or decr";
break;
case PROTOCOL_BINARY_RESPONSE_NOT_STORED:
errstr = "Not stored.";
break;
case PROTOCOL_BINARY_RESPONSE_AUTH_ERROR:
errstr = "Auth failure.";
break;
default: