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mtclient.cc
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/* Masstree
* Eddie Kohler, Yandong Mao, Robert Morris
* Copyright (c) 2012-2014 President and Fellows of Harvard College
* Copyright (c) 2012-2014 Massachusetts Institute of Technology
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, subject to the conditions
* listed in the Masstree LICENSE file. These conditions include: you must
* preserve this copyright notice, and you cannot mention the copyright
* holders in advertising related to the Software without their permission.
* The Software is provided WITHOUT ANY WARRANTY, EXPRESS OR IMPLIED. This
* notice is a summary of the Masstree LICENSE file; the license in that file
* is legally binding.
*/
#include <stdio.h>
#include <stdlib.h>
#include <stdarg.h>
#include <unistd.h>
#include <limits.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include <netinet/tcp.h>
#include <sys/select.h>
#include <sys/wait.h>
#include <assert.h>
#include <string.h>
#include <pthread.h>
#include <ctype.h>
#include <sys/types.h>
#include <sys/time.h>
#include <sys/select.h>
#include <arpa/inet.h>
#include <math.h>
#include <fcntl.h>
#include "kvstats.hh"
#include "kvio.hh"
#include "json.hh"
#include "kvtest.hh"
#include "mtclient.hh"
#include "kvrandom.hh"
#include "clp.h"
const char *serverip = "127.0.0.1";
typedef void (*get_async_cb)(struct child *c, struct async *a,
bool has_val, const Str &val);
typedef void (*put_async_cb)(struct child *c, struct async *a,
int status);
typedef void (*remove_async_cb)(struct child *c, struct async *a,
int status);
struct async {
int cmd; // Cmd_ constant
unsigned seq;
union {
get_async_cb get_fn;
put_async_cb put_fn;
remove_async_cb remove_fn;
};
char key[16]; // just first 16 bytes
char wanted[16]; // just first 16 bytes
int wantedlen;
int acked;
};
#define MAXWINDOW 512
unsigned window = MAXWINDOW;
struct child {
int s;
int udp; // 1 -> udp, 0 -> tcp
KVConn *conn;
struct async a[MAXWINDOW];
unsigned seq0_;
unsigned seq1_;
unsigned long long nsent_;
int childno;
inline void check_flush();
};
void checkasync(struct child *c, int force);
inline void child::check_flush() {
if ((seq1_ & ((window - 1) >> 1)) == 0)
conn->flush();
while (seq1_ - seq0_ >= window)
checkasync(this, 1);
}
void aget(struct child *, const Str &key, const Str &wanted, get_async_cb fn);
void aget(struct child *c, long ikey, long iwanted, get_async_cb fn);
void aget_col(struct child *c, const Str& key, int col, const Str& wanted,
get_async_cb fn);
int get(struct child *c, const Str &key, char *val, int max);
void asyncgetcb(struct child *, struct async *a, bool, const Str &val);
void asyncgetcb_int(struct child *, struct async *a, bool, const Str &val);
void aput(struct child *c, const Str &key, const Str &val,
put_async_cb fn = 0, const Str &wanted = Str());
void aput_col(struct child *c, const Str &key, int col, const Str &val,
put_async_cb fn = 0, const Str &wanted = Str());
int put(struct child *c, const Str &key, const Str &val);
void asyncputcb(struct child *, struct async *a, int status);
void aremove(struct child *c, const Str &key, remove_async_cb fn);
bool remove(struct child *c, const Str &key);
void udp1(struct child *);
void w1b(struct child *);
void u1(struct child *);
void over1(struct child *);
void over2(struct child *);
void rec1(struct child *);
void rec2(struct child *);
void cpa(struct child *);
void cpb(struct child *);
void cpc(struct child *);
void cpd(struct child *);
void volt1a(struct child *);
void volt1b(struct child *);
void volt2a(struct child *);
void volt2b(struct child *);
void scantest(struct child *);
static int children = 1;
static uint64_t nkeys = 0;
static int prefixLen = 0;
static int keylen = 0;
static uint64_t limit = ~uint64_t(0);
double duration = 10;
double duration2 = 0;
int udpflag = 0;
int quiet = 0;
int first_server_port = 2117;
// Should all child processes connects to the same UDP PORT on server
bool share_server_port = false;
volatile bool timeout[2] = {false, false};
int first_local_port = 0;
const char *input = NULL;
static int rsinit_part = 0;
int kvtest_first_seed = 0;
static int rscale_partsz = 0;
static int getratio = -1;
static int minkeyletter = '0';
static int maxkeyletter = '9';
struct kvtest_client {
kvtest_client(struct child& c)
: c_(&c) {
}
struct child* child() const {
return c_;
}
int id() const {
return c_->childno;
}
int nthreads() const {
return ::children;
}
char minkeyletter() const {
return ::minkeyletter;
}
char maxkeyletter() const {
return ::maxkeyletter;
}
void register_timeouts(int n) {
(void) n;
}
bool timeout(int which) const {
return ::timeout[which];
}
uint64_t limit() const {
return ::limit;
}
int getratio() const {
assert(::getratio >= 0);
return ::getratio;
}
uint64_t nkeys() const {
return ::nkeys;
}
int keylen() const {
return ::keylen;
}
int prefixLen() const {
return ::prefixLen;
}
double now() const {
return ::now();
}
void get(long ikey, Str *value) {
quick_istr key(ikey);
aget(c_, key.string(),
Str(reinterpret_cast<const char *>(&value), sizeof(value)),
asyncgetcb);
}
void get(const Str &key, int *ivalue) {
aget(c_, key,
Str(reinterpret_cast<const char *>(&ivalue), sizeof(ivalue)),
asyncgetcb_int);
}
bool get_sync(long ikey) {
char got[512];
quick_istr key(ikey);
return ::get(c_, key.string(), got, sizeof(got)) >= 0;
}
void get_check(long ikey, long iexpected) {
aget(c_, ikey, iexpected, 0);
}
void get_check(const char *key, const char *val) {
aget(c_, Str(key), Str(val), 0);
}
void get_check(const Str &key, const Str &val) {
aget(c_, key, val, 0);
}
void get_check_key8(long ikey, long iexpected) {
quick_istr key(ikey, 8), expected(iexpected);
aget(c_, key.string(), expected.string(), 0);
}
void get_check_key10(long ikey, long iexpected) {
quick_istr key(ikey, 10), expected(iexpected);
aget(c_, key.string(), expected.string(), 0);
}
void many_get_check(int, long [], long []) {
assert(0);
}
void get_col_check(const Str &key, int col, const Str &value) {
aget_col(c_, key, col, value, 0);
}
void get_col_check(long ikey, int col, long ivalue) {
quick_istr key(ikey), value(ivalue);
get_col_check(key.string(), col, value.string());
}
void get_col_check_key10(long ikey, int col, long ivalue) {
quick_istr key(ikey, 10), value(ivalue);
get_col_check(key.string(), col, value.string());
}
void get_check_sync(long ikey, long iexpected) {
char key[512], val[512], got[512];
sprintf(key, "%010ld", ikey);
sprintf(val, "%ld", iexpected);
memset(got, 0, sizeof(got));
::get(c_, Str(key), got, sizeof(got));
if (strcmp(val, got)) {
fprintf(stderr, "key %s, expected %s, got %s\n", key, val, got);
always_assert(0);
}
}
void put(const Str &key, const Str &value) {
aput(c_, key, value);
}
void put(const Str &key, const Str &value, int *status) {
aput(c_, key, value,
asyncputcb,
Str(reinterpret_cast<const char *>(&status), sizeof(status)));
}
void put(const char *key, const char *value) {
aput(c_, Str(key), Str(value));
}
void put(const Str &key, long ivalue) {
quick_istr value(ivalue);
aput(c_, key, value.string());
}
void put(long ikey, long ivalue) {
quick_istr key(ikey), value(ivalue);
aput(c_, key.string(), value.string());
}
void put_key8(long ikey, long ivalue) {
quick_istr key(ikey, 8), value(ivalue);
aput(c_, key.string(), value.string());
}
void put_key10(long ikey, long ivalue) {
quick_istr key(ikey, 10), value(ivalue);
aput(c_, key.string(), value.string());
}
void put_col(const Str &key, int col, const Str &value) {
aput_col(c_, key, col, value);
}
void put_col(long ikey, int col, long ivalue) {
quick_istr key(ikey), value(ivalue);
put_col(key.string(), col, value.string());
}
void put_col_key10(long ikey, int col, long ivalue) {
quick_istr key(ikey, 10), value(ivalue);
put_col(key.string(), col, value.string());
}
void put_sync(long ikey, long ivalue) {
quick_istr key(ikey, 10), value(ivalue);
::put(c_, key.string(), value.string());
}
void remove(const Str &key) {
aremove(c_, key, 0);
}
void remove(long ikey) {
quick_istr key(ikey);
remove(key.string());
}
bool remove_sync(long ikey) {
quick_istr key(ikey);
return ::remove(c_, key.string());
}
int ruscale_partsz() const {
return ::rscale_partsz;
}
int ruscale_init_part_no() const {
return ::rsinit_part;
}
long nseqkeys() const {
return 16 * ::rscale_partsz;
}
void wait_all() {
checkasync(c_, 2);
}
void puts_done() {
}
void rcu_quiesce() {
}
void notice(String s) {
if (!quiet) {
if (!s.empty() && s.back() == '\n')
s = s.substr(0, -1);
if (s.empty() || isspace((unsigned char) s[0]))
fprintf(stderr, "%d%.*s\n", c_->childno, s.length(), s.data());
else
fprintf(stderr, "%d %.*s\n", c_->childno, s.length(), s.data());
}
}
void notice(const char *fmt, ...) {
if (!quiet) {
va_list val;
va_start(val, fmt);
String x;
if (!*fmt || isspace((unsigned char) *fmt))
x = String(c_->childno) + fmt;
else
x = String(c_->childno) + String(" ") + fmt;
vfprintf(stderr, x.c_str(), val);
va_end(val);
}
}
const Json& report(const Json& x) {
return report_.merge(x);
}
void finish() {
if (!quiet) {
lcdf::StringAccum sa;
double dv;
if (report_.count("puts"))
sa << " total " << report_.get("puts");
if (report_.get("puts_per_sec", dv))
sa.snprintf(100, " %.0f put/s", dv);
if (report_.get("gets_per_sec", dv))
sa.snprintf(100, " %.0f get/s", dv);
if (!sa.empty())
notice(sa.take_string());
}
printf("%s\n", report_.unparse().c_str());
}
kvrandom_random rand;
struct child *c_;
Json report_;
};
#define TESTRUNNER_CLIENT_TYPE kvtest_client&
#include "testrunner.hh"
MAKE_TESTRUNNER(rw1, kvtest_rw1(client));
MAKE_TESTRUNNER(rw2, kvtest_rw2(client));
MAKE_TESTRUNNER(rw3, kvtest_rw3(client));
MAKE_TESTRUNNER(rw4, kvtest_rw4(client));
MAKE_TESTRUNNER(rw1fixed, kvtest_rw1fixed(client));
MAKE_TESTRUNNER(rw16, kvtest_rw16(client));
MAKE_TESTRUNNER(sync_rw1, kvtest_sync_rw1(client));
MAKE_TESTRUNNER(r1, kvtest_r1_seed(client, kvtest_first_seed + client.id()));
MAKE_TESTRUNNER(w1, kvtest_w1_seed(client, kvtest_first_seed + client.id()));
MAKE_TESTRUNNER(w1b, w1b(client.child()));
MAKE_TESTRUNNER(u1, u1(client.child()));
MAKE_TESTRUNNER(wd1, kvtest_wd1(10000000, 1, client));
MAKE_TESTRUNNER(wd1m1, kvtest_wd1(100000000, 1, client));
MAKE_TESTRUNNER(wd1m2, kvtest_wd1(1000000000, 4, client));
MAKE_TESTRUNNER(wd1check, kvtest_wd1_check(10000000, 1, client));
MAKE_TESTRUNNER(wd1m1check, kvtest_wd1_check(100000000, 1, client));
MAKE_TESTRUNNER(wd1m2check, kvtest_wd1_check(1000000000, 4, client));
MAKE_TESTRUNNER(wd2, kvtest_wd2(client));
MAKE_TESTRUNNER(wd2check, kvtest_wd2_check(client));
MAKE_TESTRUNNER(tri1, kvtest_tri1(10000000, 1, client));
MAKE_TESTRUNNER(tri1check, kvtest_tri1_check(10000000, 1, client));
MAKE_TESTRUNNER(same, kvtest_same(client));
MAKE_TESTRUNNER(wcol1, kvtest_wcol1at(client, client.id() % 24, kvtest_first_seed + client.id() % 48, 5000000));
MAKE_TESTRUNNER(rcol1, kvtest_rcol1at(client, client.id() % 24, kvtest_first_seed + client.id() % 48, 5000000));
MAKE_TESTRUNNER(wcol1o1, kvtest_wcol1at(client, (client.id() + 1) % 24, kvtest_first_seed + client.id() % 48, 5000000));
MAKE_TESTRUNNER(rcol1o1, kvtest_rcol1at(client, (client.id() + 1) % 24, kvtest_first_seed + client.id() % 48, 5000000));
MAKE_TESTRUNNER(wcol1o2, kvtest_wcol1at(client, (client.id() + 2) % 24, kvtest_first_seed + client.id() % 48, 5000000));
MAKE_TESTRUNNER(rcol1o2, kvtest_rcol1at(client, (client.id() + 2) % 24, kvtest_first_seed + client.id() % 48, 5000000));
MAKE_TESTRUNNER(over1, over1(client.child()));
MAKE_TESTRUNNER(over2, over2(client.child()));
MAKE_TESTRUNNER(rec1, rec1(client.child()));
MAKE_TESTRUNNER(rec2, rec2(client.child()));
MAKE_TESTRUNNER(cpa, cpa(client.child()));
MAKE_TESTRUNNER(cpb, cpb(client.child()));
MAKE_TESTRUNNER(cpc, cpc(client.child()));
MAKE_TESTRUNNER(cpd, cpd(client.child()));
MAKE_TESTRUNNER(volt1a, volt1a(client.child()));
MAKE_TESTRUNNER(volt1b, volt1b(client.child()));
MAKE_TESTRUNNER(volt2a, volt2a(client.child()));
MAKE_TESTRUNNER(volt2b, volt2b(client.child()));
MAKE_TESTRUNNER(scantest, scantest(client.child()));
MAKE_TESTRUNNER(wscale, kvtest_wscale(client));
MAKE_TESTRUNNER(ruscale_init, kvtest_ruscale_init(client));
MAKE_TESTRUNNER(rscale, kvtest_rscale(client));
MAKE_TESTRUNNER(uscale, kvtest_uscale(client));
MAKE_TESTRUNNER(long_init, kvtest_long_init(client));
MAKE_TESTRUNNER(long_go, kvtest_long_go(client));
MAKE_TESTRUNNER(udp1, kvtest_udp1(client));
void run_child(testrunner*, int childno);
void
usage()
{
fprintf(stderr, "Usage: mtclient [-s serverip] [-w window] [--udp] "\
"[-j nchildren] [-d duration] [--ssp] [--flp first_local_port] "\
"[--fsp first_server_port] [-i json_input]\nTests:\n");
testrunner::print_names(stderr, 5);
exit(1);
}
void
settimeout(int)
{
if (!timeout[0]) {
timeout[0] = true;
if (duration2)
alarm((int) ceil(duration2));
} else
timeout[1] = true;
}
enum { clp_val_suffixdouble = Clp_ValFirstUser };
enum { opt_threads = 1, opt_threads_deprecated, opt_duration, opt_duration2,
opt_window, opt_server, opt_first_server_port, opt_quiet, opt_udp,
opt_first_local_port, opt_share_server_port, opt_input,
opt_rsinit_part, opt_first_seed, opt_rscale_partsz, opt_keylen,
opt_limit, opt_prefix_len, opt_nkeys, opt_get_ratio, opt_minkeyletter,
opt_maxkeyletter, opt_nofork };
static const Clp_Option options[] = {
{ "threads", 'j', opt_threads, Clp_ValInt, 0 },
{ 0, 'n', opt_threads_deprecated, Clp_ValInt, 0 },
{ "duration", 'd', opt_duration, Clp_ValDouble, 0 },
{ "duration2", 0, opt_duration2, Clp_ValDouble, 0 },
{ "d2", 0, opt_duration2, Clp_ValDouble, 0 },
{ "window", 'w', opt_window, Clp_ValUnsigned, 0 },
{ "server-ip", 's', opt_server, Clp_ValString, 0 },
{ "first-server-port", 0, opt_first_server_port, Clp_ValInt, 0 },
{ "fsp", 0, opt_first_server_port, Clp_ValInt, 0 },
{ "quiet", 'q', opt_quiet, 0, Clp_Negate },
{ "udp", 'u', opt_udp, 0, Clp_Negate },
{ "first-local-port", 0, opt_first_local_port, Clp_ValInt, 0 },
{ "flp", 0, opt_first_local_port, Clp_ValInt, 0 },
{ "share-server-port", 0, opt_share_server_port, 0, Clp_Negate },
{ "ssp", 0, opt_share_server_port, 0, Clp_Negate },
{ "input", 'i', opt_input, Clp_ValString, 0 },
{ "rsinit_part", 0, opt_rsinit_part, Clp_ValInt, 0 },
{ "first_seed", 0, opt_first_seed, Clp_ValInt, 0 },
{ "rscale_partsz", 0, opt_rscale_partsz, Clp_ValInt, 0 },
{ "keylen", 0, opt_keylen, Clp_ValInt, 0 },
{ "limit", 'l', opt_limit, clp_val_suffixdouble, 0 },
{ "prefixLen", 0, opt_prefix_len, Clp_ValInt, 0 },
{ "nkeys", 0, opt_nkeys, Clp_ValInt, 0 },
{ "getratio", 0, opt_get_ratio, Clp_ValInt, 0 },
{ "minkeyletter", 0, opt_minkeyletter, Clp_ValString, 0 },
{ "maxkeyletter", 0, opt_maxkeyletter, Clp_ValString, 0 },
{ "no-fork", 0, opt_nofork, 0, 0 }
};
int
main(int argc, char *argv[])
{
int i, pid, status;
testrunner* test = 0;
int pipes[512];
int dofork = 1;
Clp_Parser *clp = Clp_NewParser(argc, argv, (int) arraysize(options), options);
Clp_AddType(clp, clp_val_suffixdouble, Clp_DisallowOptions, clp_parse_suffixdouble, 0);
int opt;
while ((opt = Clp_Next(clp)) != Clp_Done) {
switch (opt) {
case opt_threads:
children = clp->val.i;
break;
case opt_threads_deprecated:
Clp_OptionError(clp, "%<%O%> is deprecated, use %<-j%>");
children = clp->val.i;
break;
case opt_duration:
duration = clp->val.d;
break;
case opt_duration2:
duration2 = clp->val.d;
break;
case opt_window:
window = clp->val.u;
always_assert(window <= MAXWINDOW);
always_assert((window & (window - 1)) == 0); // power of 2
break;
case opt_server:
serverip = clp->vstr;
break;
case opt_first_server_port:
first_server_port = clp->val.i;
break;
case opt_quiet:
quiet = !clp->negated;
break;
case opt_udp:
udpflag = !clp->negated;
break;
case opt_first_local_port:
first_local_port = clp->val.i;
break;
case opt_share_server_port:
share_server_port = !clp->negated;
break;
case opt_input:
input = clp->vstr;
break;
case opt_rsinit_part:
rsinit_part = clp->val.i;
break;
case opt_first_seed:
kvtest_first_seed = clp->val.i;
break;
case opt_rscale_partsz:
rscale_partsz = clp->val.i;
break;
case opt_keylen:
keylen = clp->val.i;
break;
case opt_limit:
limit = (uint64_t) clp->val.d;
break;
case opt_prefix_len:
prefixLen = clp->val.i;
break;
case opt_nkeys:
nkeys = clp->val.i;
break;
case opt_get_ratio:
getratio = clp->val.i;
break;
case opt_minkeyletter:
minkeyletter = clp->vstr[0];
break;
case opt_maxkeyletter:
maxkeyletter = clp->vstr[0];
break;
case opt_nofork:
dofork = !clp->negated;
break;
case Clp_NotOption:
test = testrunner::find(clp->vstr);
if (!test)
usage();
break;
case Clp_BadOption:
usage();
break;
}
}
if(children < 1 || (children != 1 && !dofork))
usage();
if (!test)
test = testrunner::first();
printf("%s, w %d, test %s, children %d\n",
udpflag ? "udp" : "tcp", window,
test->name().c_str(), children);
fflush(stdout);
if (dofork) {
for(i = 0; i < children; i++){
int ptmp[2];
int r = pipe(ptmp);
always_assert(r == 0);
pid = fork();
if(pid < 0){
perror("fork");
exit(1);
}
if(pid == 0){
close(ptmp[0]);
dup2(ptmp[1], 1);
close(ptmp[1]);
signal(SIGALRM, settimeout);
alarm((int) ceil(duration));
run_child(test, i);
exit(0);
}
pipes[i] = ptmp[0];
close(ptmp[1]);
}
for(i = 0; i < children; i++){
if(wait(&status) <= 0){
perror("wait");
exit(1);
}
if (WIFSIGNALED(status))
fprintf(stderr, "child %d died by signal %d\n", i, WTERMSIG(status));
}
} else {
int ptmp[2];
int r = pipe(ptmp);
always_assert(r == 0);
pipes[0] = ptmp[0];
int stdout_fd = dup(STDOUT_FILENO);
always_assert(stdout_fd > 0);
r = dup2(ptmp[1], STDOUT_FILENO);
always_assert(r >= 0);
close(ptmp[1]);
signal(SIGALRM, settimeout);
alarm((int) ceil(duration));
run_child(test, 0);
fflush(stdout);
r = dup2(stdout_fd, STDOUT_FILENO);
always_assert(r >= 0);
close(stdout_fd);
}
long long total = 0;
kvstats puts, gets, scans, puts_per_sec, gets_per_sec, scans_per_sec;
for(i = 0; i < children; i++){
char buf[2048];
int cc = read(pipes[i], buf, sizeof(buf)-1);
assert(cc > 0);
buf[cc] = 0;
printf("%s", buf);
Json bufj = Json::parse(buf, buf + cc);
long long iv;
double dv;
if (bufj.to_i(iv))
total += iv;
else if (bufj.is_object()) {
if (bufj.get("ops", iv)
|| bufj.get("total", iv)
|| bufj.get("count", iv))
total += iv;
if (bufj.get("puts", iv))
puts.add(iv);
if (bufj.get("gets", iv))
gets.add(iv);
if (bufj.get("scans", iv))
scans.add(iv);
if (bufj.get("puts_per_sec", dv))
puts_per_sec.add(dv);
if (bufj.get("gets_per_sec", dv))
gets_per_sec.add(dv);
if (bufj.get("scans_per_sec", dv))
scans_per_sec.add(dv);
}
}
printf("total %lld\n", total);
puts.print_report("puts");
gets.print_report("gets");
scans.print_report("scans");
puts_per_sec.print_report("puts/s");
gets_per_sec.print_report("gets/s");
scans_per_sec.print_report("scans/s");
exit(0);
}
void
run_child(testrunner* test, int childno)
{
struct sockaddr_in sin;
int ret, yes = 1;
struct child c;
bzero(&c, sizeof(c));
c.childno = childno;
if(udpflag){
c.udp = 1;
c.s = socket(AF_INET, SOCK_DGRAM, 0);
} else {
c.s = socket(AF_INET, SOCK_STREAM, 0);
}
if (first_local_port) {
bzero(&sin, sizeof(sin));
sin.sin_family = AF_INET;
sin.sin_port = htons(first_local_port + (childno % 48));
ret = ::bind(c.s, (struct sockaddr *) &sin, sizeof(sin));
if (ret < 0) {
perror("bind");
exit(1);
}
}
assert(c.s >= 0);
setsockopt(c.s, IPPROTO_TCP, TCP_NODELAY, &yes, sizeof(yes));
bzero(&sin, sizeof(sin));
sin.sin_family = AF_INET;
if (udpflag && !share_server_port)
sin.sin_port = htons(first_server_port + (childno % 48));
else
sin.sin_port = htons(first_server_port);
sin.sin_addr.s_addr = inet_addr(serverip);
ret = connect(c.s, (struct sockaddr *) &sin, sizeof(sin));
if(ret < 0){
perror("connect");
exit(1);
}
c.conn = new KVConn(c.s, !udpflag);
kvtest_client client(c);
test->run(client);
checkasync(&c, 2);
delete c.conn;
close(c.s);
}
void KVConn::hard_check(int tryhard) {
masstree_precondition(inbufpos_ == inbuflen_);
if (parser_.empty()) {
inbufpos_ = inbuflen_ = 0;
for (auto x : oldinbuf_)
delete[] x;
oldinbuf_.clear();
} else if (inbufpos_ == inbufsz) {
oldinbuf_.push_back(inbuf_);
inbuf_ = new char[inbufsz];
inbufpos_ = inbuflen_ = 0;
}
if (tryhard == 1) {
fd_set rfds;
FD_ZERO(&rfds);
FD_SET(infd_, &rfds);
struct timeval tv = {0, 0};
if (select(infd_ + 1, &rfds, NULL, NULL, &tv) <= 0)
return;
} else
kvflush(out_);
ssize_t r = read(infd_, inbuf_ + inbufpos_, inbufsz - inbufpos_);
if (r != -1)
inbuflen_ += r;
}
int
get(struct child *c, const Str &key, char *val, int max)
{
assert(c->seq0_ == c->seq1_);
unsigned sseq = c->seq1_;
++c->seq1_;
++c->nsent_;
c->conn->sendgetwhole(key, sseq);
c->conn->flush();
const Json& result = c->conn->receive();
always_assert(result && result[0] == sseq);
++c->seq0_;
if (!result[2])
return -1;
always_assert(result.size() == 3 && result[2].is_s()
&& result[2].as_s().length() <= max);
memcpy(val, result[2].as_s().data(), result[2].as_s().length());
return result[2].as_s().length();
}
// builtin aget callback: no check
void
nocheck(struct child *, struct async *, bool, const Str &)
{
}
// builtin aget callback: store string
void
asyncgetcb(struct child *, struct async *a, bool, const Str &val)
{
Str *sptr;
assert(a->wantedlen == sizeof(Str *));
memcpy(&sptr, a->wanted, sizeof(Str *));
sptr->len = std::min(sptr->len, val.len);
memcpy(const_cast<char *>(sptr->s), val.s, sptr->len);
}
// builtin aget callback: store string
void
asyncgetcb_int(struct child *, struct async *a, bool, const Str &val)
{
int *vptr;
assert(a->wantedlen == sizeof(int *));
memcpy(&vptr, a->wanted, sizeof(int *));
long x = 0;
if (val.len <= 0)
x = -1;
else
for (int i = 0; i < val.len; ++i)
if (val.s[i] >= '0' && val.s[i] <= '9')
x = (x * 10) + (val.s[i] - '0');
else {
x = -1;
break;
}
*vptr = x;
}
// default aget callback: check val against wanted
void
defaultget(struct child *, struct async *a, bool have_val, const Str &val)
{
// check that we got the expected value
int wanted_avail = std::min(a->wantedlen, int(sizeof(a->wanted)));
if (!have_val
|| a->wantedlen != val.len
|| memcmp(val.s, a->wanted, wanted_avail) != 0)
fprintf(stderr, "oops wanted %.*s(%d) got %.*s(%d)\n",
wanted_avail, a->wanted, a->wantedlen, val.len, val.s, val.len);
else {
always_assert(a->wantedlen == val.len);
always_assert(memcmp(val.s, a->wanted, wanted_avail) == 0);
}
}
// builtin aput/aremove callback: store status
void
asyncputcb(struct child *, struct async *a, int status)
{
int *sptr;
assert(a->wantedlen == sizeof(int *));
memcpy(&sptr, a->wanted, sizeof(int *));
*sptr = status;
}
// process any waiting replies to aget() and aput().
// force=0 means non-blocking check if anything waiting on socket.
// force=1 means wait for at least one reply.
// force=2 means wait for all pending (nw-nr) replies.
void
checkasync(struct child *c, int force)
{
while (c->seq0_ != c->seq1_) {
if (force)
c->conn->flush();
if (c->conn->check(force ? 2 : 1) > 0) {
const Json& result = c->conn->receive();
always_assert(result);
// is rseq in the nr..nw window?
// replies might arrive out of order if UDP
unsigned rseq = result[0].as_i();
always_assert(rseq - c->seq0_ < c->seq1_ - c->seq0_);
struct async *a = &c->a[rseq & (window - 1)];
always_assert(a->seq == rseq);
// advance the nr..nw window
always_assert(a->acked == 0);
a->acked = 1;
while (c->seq0_ != c->seq1_ && c->a[c->seq0_ & (window - 1)].acked)
++c->seq0_;
// might have been the last free slot,
// don't want to re-use it underfoot.
struct async tmpa = *a;
if(tmpa.cmd == Cmd_Get){
// this is a reply to a get
String s = result.size() > 2 ? result[2].as_s() : String();
if (tmpa.get_fn)
(tmpa.get_fn)(c, &tmpa, result.size() > 2, s);
} else if (tmpa.cmd == Cmd_Put || tmpa.cmd == Cmd_Replace) {
// this is a reply to a put
if (tmpa.put_fn)
(tmpa.put_fn)(c, &tmpa, result[2].as_i());
} else if(tmpa.cmd == Cmd_Scan){
// this is a reply to a scan
always_assert((result.size() - 2) / 2 <= tmpa.wantedlen);
} else if (tmpa.cmd == Cmd_Remove) {
// this is a reply to a remove
if (tmpa.remove_fn)
(tmpa.remove_fn)(c, &tmpa, result[2].as_i());
} else {
always_assert(0);
}
if (force < 2)
force = 0;
} else if (!force)
break;
}
}
// async get, checkasync() will eventually check reply
// against wanted.
void
aget(struct child *c, const Str &key, const Str &wanted, get_async_cb fn)
{
c->check_flush();
c->conn->sendgetwhole(key, c->seq1_);
if (c->udp)
c->conn->flush();
struct async *a = &c->a[c->seq1_ & (window - 1)];
a->cmd = Cmd_Get;
a->seq = c->seq1_;
a->get_fn = (fn ? fn : defaultget);
assert(key.len < int(sizeof(a->key)));
memcpy(a->key, key.s, key.len);
a->key[key.len] = 0;
a->wantedlen = wanted.len;
int wantedavail = std::min(wanted.len, int(sizeof(a->wanted)));
memcpy(a->wanted, wanted.s, wantedavail);
a->acked = 0;
++c->seq1_;
++c->nsent_;
}
void aget_col(struct child *c, const Str& key, int col, const Str& wanted,
get_async_cb fn)
{
c->check_flush();
c->conn->sendgetcol(key, col, c->seq1_);
if (c->udp)
c->conn->flush();
struct async *a = &c->a[c->seq1_ & (window - 1)];
a->cmd = Cmd_Get;
a->seq = c->seq1_;
a->get_fn = (fn ? fn : defaultget);
assert(key.len < int(sizeof(a->key)));
memcpy(a->key, key.s, key.len);
a->key[key.len] = 0;
a->wantedlen = wanted.len;
int wantedavail = std::min(wanted.len, int(sizeof(a->wanted)));
memcpy(a->wanted, wanted.s, wantedavail);
a->acked = 0;
++c->seq1_;
++c->nsent_;
}
void
aget(struct child *c, long ikey, long iwanted, get_async_cb fn)
{
quick_istr key(ikey), wanted(iwanted);
aget(c, key.string(), wanted.string(), fn);
}
int
put(struct child *c, const Str &key, const Str &val)
{
always_assert(c->seq0_ == c->seq1_);
unsigned int sseq = c->seq1_;
c->conn->sendputwhole(key, val, sseq);
c->conn->flush();
const Json& result = c->conn->receive();
always_assert(result && result[0] == sseq);
++c->seq0_;
++c->seq1_;
++c->nsent_;
return 0;
}
void
aput(struct child *c, const Str &key, const Str &val,
put_async_cb fn, const Str &wanted)
{
c->check_flush();
c->conn->sendputwhole(key, val, c->seq1_);
if (c->udp)
c->conn->flush();