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futriix/test.c
Yossi Gottlieb 418de21d8f Squashed 'deps/hiredis/' changes from 00272d669..f8de9a4bd 
f8de9a4bd Merge pull request #1046 from redis/rockylinux-ci
a41c9bc8b CentOS 8 is EOL, switch to RockyLinux
be41ed60d Avoid incorrect call to the previous reply's callback (#1040)
f2e8010d9 fix building on AIX and SunOS (#1031)
e73ab2f23 Add timeout support for libuv adapter (#1016)
f2ce5980e Allow sending commands after sending an unsubscribe (#1036)
ff860e55d Correction for command timeout during pubsub (#1038)
24d534493 CMakeLists.txt: allow building without a C++ compiler (#872)
4ece9a02e Fix adapters/libevent.h compilation for 64-bit Windows (#937)
799edfaad Don't link with crypto libs if USE_SSL isn't set.
f74b08182 Makefile: move SSL options into a block and refine rules
f347743b7 Update CMakeLists.txt for more portability (#1005)
f2be74802 Fix integer overflow when format command larger than 4GB (#1030)
58aacdac6 Handle array response in parallell with pubsub using RESP3 (#1014)
d3384260e Support PING while subscribing (RESP2) (#1027)
e3a479e40 FreeBSD build fixes + CI (#1026)
da5a4ff36 Add asynchronous test for pubsub using RESP3 (#1012)
b5716ee82 Valgrind returns error exit code when errors found (#1011)
1aed21a8c Move to using make directly in Cygwin (#1020)
a83f4b890 Correct CMake warning for libevent adapter example
c4333203e Remove unused parameter warning in libev adapter
7ad38dc4a Small tweaks of the async tests
4021726a6 Add asynchronous test for pubsub using RESP2
648763c36 Add build options for enabling async tests
c98c6994d Correcting the build target `coverage` for enabled SSL (#1009)
30ff8d850 Run SSL tests in CI
4a126e8a9 Add valgrind and CMake to tests
b73c2d410 Add Centos8
e9f647384 We should run actions on PRs
6ad4ccf3c Add Cygwin build test
783a3789c Add Windows tests in GitHub actions
0cac8dae1 Switch to GitHub actions
fa900ef76 Fix unused variable warning.
e489846b7 Minor refactor of CVE-2021-32765 fix.
51c740824 Remove extra comma from cmake var. Or it'll be treated as part of the var name.
632bf0718 Merge branch 'release/v1.0.2'
b73128324 Prepare for v1.0.2 GA
d4e6f109a Revert erroneous SONAME bump
a39824a5d Merge branch 'release/v1.0.1'
8d1bfac46  Prepare for v1.0.1 GA
76a7b1000 Fix for integer/buffer overflow CVE-2021-32765
9eca1f36f Allow to override OPENSSL_PREFIX in Linux
2d9d77518 Don't leak memory if an invalid type is set (#906)
f5f31ff9b Added REDIS_NO_AUTO_FREE_REPLIES flag (#962)
5850a8ecd Ensure we curry any connect error to an async context.
b6f86f38c Fix README.md
667dbf536 Merge pull request #935 from kristjanvalur/pr5
9bf6c250e Merge pull request #939 from zmartzone/improve_pr_896_ssl_leak
959af9760 Merge pull request #949 from plan-do-break-fix/Typo-corrections
0743f57bb fix(docs): corrects typos in project README
5f4382247 improve SSL leak fix redis/hiredis#896
e06ecf7e4 Ignore timeout callback from a successful connect
dfa33e60b Change order independant push logic to not change behavior.
6204182aa Handle the case where an invalidation is sent second.
d6a0b192b Merge branch 'reader-updates'
410c24d2a Fix off-by-one error in seekNewline
bd7488d27 read: Validate line items prior to checking for object creation callbacks
5f9242a1f read: Remove obsolete comment on nested multi bulk depth limitation
83c145042 read: Add support for the RESP3 bignum type
c6646cb19 read: Ensure no invalid '\r' or '\n' in simple status/error strings
e43061156 read: Additional validation and test case for RESP3 double
c8adea402 redisReply: Fix parent type assertions during double, nil, bool creation
ff73f1f9e redisReply: Explicitly list nil and bool cases in freeReplyObject() switch.
0f9251884 test: Add test case for RESP3 set
33c06dd50 test: Add test case for RESP3 map
397fe2630 read: Use memchr() in seekNewline() instead of looping over entire string
81c48a982 test: Add test cases for RESP3 bool
51e693f4f read: Add additional RESP3 bool validation
790b4d3b4 test: Add test cases for RESP3 nil
d8899fbc1 read: Add additional RESP3 nil validation
96e8ea611 test: Add test cases for infinite and NaN doubles
f913e9b99 read: Fix double validation and infinity parsing
8039c7d26 test: Add test case for doubles
49539fd1a redisReply: Fix - set len in double objects
53a8144c8 Merge pull request #924 from cheese1/master
9390de006 http -> https
7d99b5635 Merge pull request #917 from Nordix/stack-alloc-dict-iter
4bba72103 Handle OOM during async command callback registration
920128a26 Stack allocate dict iterators
297ecbecb Tiny formatting changes + suppress implicit memcpy warning
f746a28e7 Removed 2 typecasts
940a04f4d Added fuzzer
e4a200040 Merge pull request #896 from ayeganov/bugfix/ssl_leak
aefef8987 Free SSL object when redisSSLConnect fails
e3f88ebcf Merge pull request #894 from jcohen02/fix/issue893
308ffcab8 Updating SSL connection example
297f6551d Merge pull request #889 from redis/wincert
e7dda9785 Formatting
f44945a0a Merge pull request #874 from masariello/position-independent-code
74e78498c Merge pull request #888 from michael-grunder/nil-push-invalidation
b9b9f446f Fix handling of NIL invalidation messages.
acc917548 Merge pull request #885 from gkorland/patch-1
b086f763e clean a warning, remvoe empty else block
b47fae4e7 Merge pull request #881 from timgates42/bugfix_typo_terminated
f989670e5 docs: Fix simple typo, termined -> terminated
773d6ea8a Copy error to redisAsyncContext on timeout
e35300a66 add pdb files to packages for MSVC builds
dde6916b4 Add d suffix to debug libraries so that can packaged together with optimized builds (Release, RelWithDebInfo, etc)
3b68b5018 Enable position-independent code
6693863f4 Add support for system CA certificate store on Windows
2a5a57b90 Remove whitespace
1b40ec509 fixed issue with unit test linking on windows with SSL
d7b1d21e8 Merge branch 'master' of github.com:redis/hiredis
fb0e6c0dd Merge pull request #870 from michael-grunder/cmake-c99
13a35bdb6 Explicitly set c99 in CMake
bea137ca9 Merge pull request #868 from michael-grunder/fix-sockaddr-typo
bd6f86eb6 Fix sockaddr typo
48696e7e5 Don't use non-installed win32.h helper in examples (#863)
faa1c4863 Merge tag 'v1.0.0'
5003906d6 Define a no op assert if we detect NDEBUG (#861)
ea063b7cc Use development specific versions in master
04a27f480 We can run SSL tests everywhere except mingw/Windows (#859)
8966a1fc2 Remove extra whitespace (#858)
34b7f7a0f Keep libev's code style (#857)
07c3618ff Add static library target and cpack support
REVERT: 00272d669 Rename sds calls so they don't conflict in Redis.

git-subtree-dir: deps/hiredis
git-subtree-split: f8de9a4bd433791890572f7b9147e685653ddef9
2022-02-14 13:51:42 +02:00

2042 lines
70 KiB
C
Raw Blame History

#include "fmacros.h"
#include "sockcompat.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#ifndef _WIN32
#include <strings.h>
#include <sys/time.h>
#endif
#include <assert.h>
#include <signal.h>
#include <errno.h>
#include <limits.h>
#include <math.h>
#include "hiredis.h"
#include "async.h"
#ifdef HIREDIS_TEST_SSL
#include "hiredis_ssl.h"
#endif
#ifdef HIREDIS_TEST_ASYNC
#include "adapters/libevent.h"
#include <event2/event.h>
#endif
#include "net.h"
#include "win32.h"
enum connection_type {
CONN_TCP,
CONN_UNIX,
CONN_FD,
CONN_SSL
};
struct config {
enum connection_type type;
struct {
const char *host;
int port;
struct timeval timeout;
} tcp;
struct {
const char *path;
} unix_sock;
struct {
const char *host;
int port;
const char *ca_cert;
const char *cert;
const char *key;
} ssl;
};
struct privdata {
int dtor_counter;
};
struct pushCounters {
int nil;
int str;
};
static int insecure_calloc_calls;
#ifdef HIREDIS_TEST_SSL
redisSSLContext *_ssl_ctx = NULL;
#endif
/* The following lines make up our testing "framework" :) */
static int tests = 0, fails = 0, skips = 0;
#define test(_s) { printf("#%02d ", ++tests); printf(_s); }
#define test_cond(_c) if(_c) printf("\033[0;32mPASSED\033[0;0m\n"); else {printf("\033[0;31mFAILED\033[0;0m\n"); fails++;}
#define test_skipped() { printf("\033[01;33mSKIPPED\033[0;0m\n"); skips++; }
static long long usec(void) {
#ifndef _MSC_VER
struct timeval tv;
gettimeofday(&tv,NULL);
return (((long long)tv.tv_sec)*1000000)+tv.tv_usec;
#else
FILETIME ft;
GetSystemTimeAsFileTime(&ft);
return (((long long)ft.dwHighDateTime << 32) | ft.dwLowDateTime) / 10;
#endif
}
/* The assert() calls below have side effects, so we need assert()
* even if we are compiling without asserts (-DNDEBUG). */
#ifdef NDEBUG
#undef assert
#define assert(e) (void)(e)
#endif
/* Helper to extract Redis version information. Aborts on any failure. */
#define REDIS_VERSION_FIELD "redis_version:"
void get_redis_version(redisContext *c, int *majorptr, int *minorptr) {
redisReply *reply;
char *eptr, *s, *e;
int major, minor;
reply = redisCommand(c, "INFO");
if (reply == NULL || c->err || reply->type != REDIS_REPLY_STRING)
goto abort;
if ((s = strstr(reply->str, REDIS_VERSION_FIELD)) == NULL)
goto abort;
s += strlen(REDIS_VERSION_FIELD);
/* We need a field terminator and at least 'x.y.z' (5) bytes of data */
if ((e = strstr(s, "\r\n")) == NULL || (e - s) < 5)
goto abort;
/* Extract version info */
major = strtol(s, &eptr, 10);
if (*eptr != '.') goto abort;
minor = strtol(eptr+1, NULL, 10);
/* Push info the caller wants */
if (majorptr) *majorptr = major;
if (minorptr) *minorptr = minor;
freeReplyObject(reply);
return;
abort:
freeReplyObject(reply);
fprintf(stderr, "Error: Cannot determine Redis version, aborting\n");
exit(1);
}
static redisContext *select_database(redisContext *c) {
redisReply *reply;
/* Switch to DB 9 for testing, now that we know we can chat. */
reply = redisCommand(c,"SELECT 9");
assert(reply != NULL);
freeReplyObject(reply);
/* Make sure the DB is emtpy */
reply = redisCommand(c,"DBSIZE");
assert(reply != NULL);
if (reply->type == REDIS_REPLY_INTEGER && reply->integer == 0) {
/* Awesome, DB 9 is empty and we can continue. */
freeReplyObject(reply);
} else {
printf("Database #9 is not empty, test can not continue\n");
exit(1);
}
return c;
}
/* Switch protocol */
static void send_hello(redisContext *c, int version) {
redisReply *reply;
int expected;
reply = redisCommand(c, "HELLO %d", version);
expected = version == 3 ? REDIS_REPLY_MAP : REDIS_REPLY_ARRAY;
assert(reply != NULL && reply->type == expected);
freeReplyObject(reply);
}
/* Togggle client tracking */
static void send_client_tracking(redisContext *c, const char *str) {
redisReply *reply;
reply = redisCommand(c, "CLIENT TRACKING %s", str);
assert(reply != NULL && reply->type == REDIS_REPLY_STATUS);
freeReplyObject(reply);
}
static int disconnect(redisContext *c, int keep_fd) {
redisReply *reply;
/* Make sure we're on DB 9. */
reply = redisCommand(c,"SELECT 9");
assert(reply != NULL);
freeReplyObject(reply);
reply = redisCommand(c,"FLUSHDB");
assert(reply != NULL);
freeReplyObject(reply);
/* Free the context as well, but keep the fd if requested. */
if (keep_fd)
return redisFreeKeepFd(c);
redisFree(c);
return -1;
}
static void do_ssl_handshake(redisContext *c) {
#ifdef HIREDIS_TEST_SSL
redisInitiateSSLWithContext(c, _ssl_ctx);
if (c->err) {
printf("SSL error: %s\n", c->errstr);
redisFree(c);
exit(1);
}
#else
(void) c;
#endif
}
static redisContext *do_connect(struct config config) {
redisContext *c = NULL;
if (config.type == CONN_TCP) {
c = redisConnect(config.tcp.host, config.tcp.port);
} else if (config.type == CONN_SSL) {
c = redisConnect(config.ssl.host, config.ssl.port);
} else if (config.type == CONN_UNIX) {
c = redisConnectUnix(config.unix_sock.path);
} else if (config.type == CONN_FD) {
/* Create a dummy connection just to get an fd to inherit */
redisContext *dummy_ctx = redisConnectUnix(config.unix_sock.path);
if (dummy_ctx) {
int fd = disconnect(dummy_ctx, 1);
printf("Connecting to inherited fd %d\n", fd);
c = redisConnectFd(fd);
}
} else {
assert(NULL);
}
if (c == NULL) {
printf("Connection error: can't allocate redis context\n");
exit(1);
} else if (c->err) {
printf("Connection error: %s\n", c->errstr);
redisFree(c);
exit(1);
}
if (config.type == CONN_SSL) {
do_ssl_handshake(c);
}
return select_database(c);
}
static void do_reconnect(redisContext *c, struct config config) {
redisReconnect(c);
if (config.type == CONN_SSL) {
do_ssl_handshake(c);
}
}
static void test_format_commands(void) {
char *cmd;
int len;
test("Format command without interpolation: ");
len = redisFormatCommand(&cmd,"SET foo bar");
test_cond(strncmp(cmd,"*3\r\n$3\r\nSET\r\n$3\r\nfoo\r\n$3\r\nbar\r\n",len) == 0 &&
len == 4+4+(3+2)+4+(3+2)+4+(3+2));
hi_free(cmd);
test("Format command with %%s string interpolation: ");
len = redisFormatCommand(&cmd,"SET %s %s","foo","bar");
test_cond(strncmp(cmd,"*3\r\n$3\r\nSET\r\n$3\r\nfoo\r\n$3\r\nbar\r\n",len) == 0 &&
len == 4+4+(3+2)+4+(3+2)+4+(3+2));
hi_free(cmd);
test("Format command with %%s and an empty string: ");
len = redisFormatCommand(&cmd,"SET %s %s","foo","");
test_cond(strncmp(cmd,"*3\r\n$3\r\nSET\r\n$3\r\nfoo\r\n$0\r\n\r\n",len) == 0 &&
len == 4+4+(3+2)+4+(3+2)+4+(0+2));
hi_free(cmd);
test("Format command with an empty string in between proper interpolations: ");
len = redisFormatCommand(&cmd,"SET %s %s","","foo");
test_cond(strncmp(cmd,"*3\r\n$3\r\nSET\r\n$0\r\n\r\n$3\r\nfoo\r\n",len) == 0 &&
len == 4+4+(3+2)+4+(0+2)+4+(3+2));
hi_free(cmd);
test("Format command with %%b string interpolation: ");
len = redisFormatCommand(&cmd,"SET %b %b","foo",(size_t)3,"b\0r",(size_t)3);
test_cond(strncmp(cmd,"*3\r\n$3\r\nSET\r\n$3\r\nfoo\r\n$3\r\nb\0r\r\n",len) == 0 &&
len == 4+4+(3+2)+4+(3+2)+4+(3+2));
hi_free(cmd);
test("Format command with %%b and an empty string: ");
len = redisFormatCommand(&cmd,"SET %b %b","foo",(size_t)3,"",(size_t)0);
test_cond(strncmp(cmd,"*3\r\n$3\r\nSET\r\n$3\r\nfoo\r\n$0\r\n\r\n",len) == 0 &&
len == 4+4+(3+2)+4+(3+2)+4+(0+2));
hi_free(cmd);
test("Format command with literal %%: ");
len = redisFormatCommand(&cmd,"SET %% %%");
test_cond(strncmp(cmd,"*3\r\n$3\r\nSET\r\n$1\r\n%\r\n$1\r\n%\r\n",len) == 0 &&
len == 4+4+(3+2)+4+(1+2)+4+(1+2));
hi_free(cmd);
/* Vararg width depends on the type. These tests make sure that the
* width is correctly determined using the format and subsequent varargs
* can correctly be interpolated. */
#define INTEGER_WIDTH_TEST(fmt, type) do { \
type value = 123; \
test("Format command with printf-delegation (" #type "): "); \
len = redisFormatCommand(&cmd,"key:%08" fmt " str:%s", value, "hello"); \
test_cond(strncmp(cmd,"*2\r\n$12\r\nkey:00000123\r\n$9\r\nstr:hello\r\n",len) == 0 && \
len == 4+5+(12+2)+4+(9+2)); \
hi_free(cmd); \
} while(0)
#define FLOAT_WIDTH_TEST(type) do { \
type value = 123.0; \
test("Format command with printf-delegation (" #type "): "); \
len = redisFormatCommand(&cmd,"key:%08.3f str:%s", value, "hello"); \
test_cond(strncmp(cmd,"*2\r\n$12\r\nkey:0123.000\r\n$9\r\nstr:hello\r\n",len) == 0 && \
len == 4+5+(12+2)+4+(9+2)); \
hi_free(cmd); \
} while(0)
INTEGER_WIDTH_TEST("d", int);
INTEGER_WIDTH_TEST("hhd", char);
INTEGER_WIDTH_TEST("hd", short);
INTEGER_WIDTH_TEST("ld", long);
INTEGER_WIDTH_TEST("lld", long long);
INTEGER_WIDTH_TEST("u", unsigned int);
INTEGER_WIDTH_TEST("hhu", unsigned char);
INTEGER_WIDTH_TEST("hu", unsigned short);
INTEGER_WIDTH_TEST("lu", unsigned long);
INTEGER_WIDTH_TEST("llu", unsigned long long);
FLOAT_WIDTH_TEST(float);
FLOAT_WIDTH_TEST(double);
test("Format command with invalid printf format: ");
len = redisFormatCommand(&cmd,"key:%08p %b",(void*)1234,"foo",(size_t)3);
test_cond(len == -1);
const char *argv[3];
argv[0] = "SET";
argv[1] = "foo\0xxx";
argv[2] = "bar";
size_t lens[3] = { 3, 7, 3 };
int argc = 3;
test("Format command by passing argc/argv without lengths: ");
len = redisFormatCommandArgv(&cmd,argc,argv,NULL);
test_cond(strncmp(cmd,"*3\r\n$3\r\nSET\r\n$3\r\nfoo\r\n$3\r\nbar\r\n",len) == 0 &&
len == 4+4+(3+2)+4+(3+2)+4+(3+2));
hi_free(cmd);
test("Format command by passing argc/argv with lengths: ");
len = redisFormatCommandArgv(&cmd,argc,argv,lens);
test_cond(strncmp(cmd,"*3\r\n$3\r\nSET\r\n$7\r\nfoo\0xxx\r\n$3\r\nbar\r\n",len) == 0 &&
len == 4+4+(3+2)+4+(7+2)+4+(3+2));
hi_free(cmd);
sds sds_cmd;
sds_cmd = NULL;
test("Format command into sds by passing argc/argv without lengths: ");
len = redisFormatSdsCommandArgv(&sds_cmd,argc,argv,NULL);
test_cond(strncmp(sds_cmd,"*3\r\n$3\r\nSET\r\n$3\r\nfoo\r\n$3\r\nbar\r\n",len) == 0 &&
len == 4+4+(3+2)+4+(3+2)+4+(3+2));
sdsfree(sds_cmd);
sds_cmd = NULL;
test("Format command into sds by passing argc/argv with lengths: ");
len = redisFormatSdsCommandArgv(&sds_cmd,argc,argv,lens);
test_cond(strncmp(sds_cmd,"*3\r\n$3\r\nSET\r\n$7\r\nfoo\0xxx\r\n$3\r\nbar\r\n",len) == 0 &&
len == 4+4+(3+2)+4+(7+2)+4+(3+2));
sdsfree(sds_cmd);
}
static void test_append_formatted_commands(struct config config) {
redisContext *c;
redisReply *reply;
char *cmd;
int len;
c = do_connect(config);
test("Append format command: ");
len = redisFormatCommand(&cmd, "SET foo bar");
test_cond(redisAppendFormattedCommand(c, cmd, len) == REDIS_OK);
assert(redisGetReply(c, (void*)&reply) == REDIS_OK);
hi_free(cmd);
freeReplyObject(reply);
disconnect(c, 0);
}
static void test_reply_reader(void) {
redisReader *reader;
void *reply, *root;
int ret;
int i;
test("Error handling in reply parser: ");
reader = redisReaderCreate();
redisReaderFeed(reader,(char*)"@foo\r\n",6);
ret = redisReaderGetReply(reader,NULL);
test_cond(ret == REDIS_ERR &&
strcasecmp(reader->errstr,"Protocol error, got \"@\" as reply type byte") == 0);
redisReaderFree(reader);
/* when the reply already contains multiple items, they must be free'd
* on an error. valgrind will bark when this doesn't happen. */
test("Memory cleanup in reply parser: ");
reader = redisReaderCreate();
redisReaderFeed(reader,(char*)"*2\r\n",4);
redisReaderFeed(reader,(char*)"$5\r\nhello\r\n",11);
redisReaderFeed(reader,(char*)"@foo\r\n",6);
ret = redisReaderGetReply(reader,NULL);
test_cond(ret == REDIS_ERR &&
strcasecmp(reader->errstr,"Protocol error, got \"@\" as reply type byte") == 0);
redisReaderFree(reader);
reader = redisReaderCreate();
test("Can handle arbitrarily nested multi-bulks: ");
for (i = 0; i < 128; i++) {
redisReaderFeed(reader,(char*)"*1\r\n", 4);
}
redisReaderFeed(reader,(char*)"$6\r\nLOLWUT\r\n",12);
ret = redisReaderGetReply(reader,&reply);
root = reply; /* Keep track of the root reply */
test_cond(ret == REDIS_OK &&
((redisReply*)reply)->type == REDIS_REPLY_ARRAY &&
((redisReply*)reply)->elements == 1);
test("Can parse arbitrarily nested multi-bulks correctly: ");
while(i--) {
assert(reply != NULL && ((redisReply*)reply)->type == REDIS_REPLY_ARRAY);
reply = ((redisReply*)reply)->element[0];
}
test_cond(((redisReply*)reply)->type == REDIS_REPLY_STRING &&
!memcmp(((redisReply*)reply)->str, "LOLWUT", 6));
freeReplyObject(root);
redisReaderFree(reader);
test("Correctly parses LLONG_MAX: ");
reader = redisReaderCreate();
redisReaderFeed(reader, ":9223372036854775807\r\n",22);
ret = redisReaderGetReply(reader,&reply);
test_cond(ret == REDIS_OK &&
((redisReply*)reply)->type == REDIS_REPLY_INTEGER &&
((redisReply*)reply)->integer == LLONG_MAX);
freeReplyObject(reply);
redisReaderFree(reader);
test("Set error when > LLONG_MAX: ");
reader = redisReaderCreate();
redisReaderFeed(reader, ":9223372036854775808\r\n",22);
ret = redisReaderGetReply(reader,&reply);
test_cond(ret == REDIS_ERR &&
strcasecmp(reader->errstr,"Bad integer value") == 0);
freeReplyObject(reply);
redisReaderFree(reader);
test("Correctly parses LLONG_MIN: ");
reader = redisReaderCreate();
redisReaderFeed(reader, ":-9223372036854775808\r\n",23);
ret = redisReaderGetReply(reader,&reply);
test_cond(ret == REDIS_OK &&
((redisReply*)reply)->type == REDIS_REPLY_INTEGER &&
((redisReply*)reply)->integer == LLONG_MIN);
freeReplyObject(reply);
redisReaderFree(reader);
test("Set error when < LLONG_MIN: ");
reader = redisReaderCreate();
redisReaderFeed(reader, ":-9223372036854775809\r\n",23);
ret = redisReaderGetReply(reader,&reply);
test_cond(ret == REDIS_ERR &&
strcasecmp(reader->errstr,"Bad integer value") == 0);
freeReplyObject(reply);
redisReaderFree(reader);
test("Set error when array < -1: ");
reader = redisReaderCreate();
redisReaderFeed(reader, "*-2\r\n+asdf\r\n",12);
ret = redisReaderGetReply(reader,&reply);
test_cond(ret == REDIS_ERR &&
strcasecmp(reader->errstr,"Multi-bulk length out of range") == 0);
freeReplyObject(reply);
redisReaderFree(reader);
test("Set error when bulk < -1: ");
reader = redisReaderCreate();
redisReaderFeed(reader, "$-2\r\nasdf\r\n",11);
ret = redisReaderGetReply(reader,&reply);
test_cond(ret == REDIS_ERR &&
strcasecmp(reader->errstr,"Bulk string length out of range") == 0);
freeReplyObject(reply);
redisReaderFree(reader);
test("Can configure maximum multi-bulk elements: ");
reader = redisReaderCreate();
reader->maxelements = 1024;
redisReaderFeed(reader, "*1025\r\n", 7);
ret = redisReaderGetReply(reader,&reply);
test_cond(ret == REDIS_ERR &&
strcasecmp(reader->errstr, "Multi-bulk length out of range") == 0);
freeReplyObject(reply);
redisReaderFree(reader);
test("Multi-bulk never overflows regardless of maxelements: ");
size_t bad_mbulk_len = (SIZE_MAX / sizeof(void *)) + 3;
char bad_mbulk_reply[100];
snprintf(bad_mbulk_reply, sizeof(bad_mbulk_reply), "*%llu\r\n+asdf\r\n",
(unsigned long long) bad_mbulk_len);
reader = redisReaderCreate();
reader->maxelements = 0; /* Don't rely on default limit */
redisReaderFeed(reader, bad_mbulk_reply, strlen(bad_mbulk_reply));
ret = redisReaderGetReply(reader,&reply);
test_cond(ret == REDIS_ERR && strcasecmp(reader->errstr, "Out of memory") == 0);
freeReplyObject(reply);
redisReaderFree(reader);
#if LLONG_MAX > SIZE_MAX
test("Set error when array > SIZE_MAX: ");
reader = redisReaderCreate();
redisReaderFeed(reader, "*9223372036854775807\r\n+asdf\r\n",29);
ret = redisReaderGetReply(reader,&reply);
test_cond(ret == REDIS_ERR &&
strcasecmp(reader->errstr,"Multi-bulk length out of range") == 0);
freeReplyObject(reply);
redisReaderFree(reader);
test("Set error when bulk > SIZE_MAX: ");
reader = redisReaderCreate();
redisReaderFeed(reader, "$9223372036854775807\r\nasdf\r\n",28);
ret = redisReaderGetReply(reader,&reply);
test_cond(ret == REDIS_ERR &&
strcasecmp(reader->errstr,"Bulk string length out of range") == 0);
freeReplyObject(reply);
redisReaderFree(reader);
#endif
test("Works with NULL functions for reply: ");
reader = redisReaderCreate();
reader->fn = NULL;
redisReaderFeed(reader,(char*)"+OK\r\n",5);
ret = redisReaderGetReply(reader,&reply);
test_cond(ret == REDIS_OK && reply == (void*)REDIS_REPLY_STATUS);
redisReaderFree(reader);
test("Works when a single newline (\\r\\n) covers two calls to feed: ");
reader = redisReaderCreate();
reader->fn = NULL;
redisReaderFeed(reader,(char*)"+OK\r",4);
ret = redisReaderGetReply(reader,&reply);
assert(ret == REDIS_OK && reply == NULL);
redisReaderFeed(reader,(char*)"\n",1);
ret = redisReaderGetReply(reader,&reply);
test_cond(ret == REDIS_OK && reply == (void*)REDIS_REPLY_STATUS);
redisReaderFree(reader);
test("Don't reset state after protocol error: ");
reader = redisReaderCreate();
reader->fn = NULL;
redisReaderFeed(reader,(char*)"x",1);
ret = redisReaderGetReply(reader,&reply);
assert(ret == REDIS_ERR);
ret = redisReaderGetReply(reader,&reply);
test_cond(ret == REDIS_ERR && reply == NULL);
redisReaderFree(reader);
/* Regression test for issue #45 on GitHub. */
test("Don't do empty allocation for empty multi bulk: ");
reader = redisReaderCreate();
redisReaderFeed(reader,(char*)"*0\r\n",4);
ret = redisReaderGetReply(reader,&reply);
test_cond(ret == REDIS_OK &&
((redisReply*)reply)->type == REDIS_REPLY_ARRAY &&
((redisReply*)reply)->elements == 0);
freeReplyObject(reply);
redisReaderFree(reader);
/* RESP3 verbatim strings (GitHub issue #802) */
test("Can parse RESP3 verbatim strings: ");
reader = redisReaderCreate();
redisReaderFeed(reader,(char*)"=10\r\ntxt:LOLWUT\r\n",17);
ret = redisReaderGetReply(reader,&reply);
test_cond(ret == REDIS_OK &&
((redisReply*)reply)->type == REDIS_REPLY_VERB &&
!memcmp(((redisReply*)reply)->str,"LOLWUT", 6));
freeReplyObject(reply);
redisReaderFree(reader);
/* RESP3 push messages (Github issue #815) */
test("Can parse RESP3 push messages: ");
reader = redisReaderCreate();
redisReaderFeed(reader,(char*)">2\r\n$6\r\nLOLWUT\r\n:42\r\n",21);
ret = redisReaderGetReply(reader,&reply);
test_cond(ret == REDIS_OK &&
((redisReply*)reply)->type == REDIS_REPLY_PUSH &&
((redisReply*)reply)->elements == 2 &&
((redisReply*)reply)->element[0]->type == REDIS_REPLY_STRING &&
!memcmp(((redisReply*)reply)->element[0]->str,"LOLWUT",6) &&
((redisReply*)reply)->element[1]->type == REDIS_REPLY_INTEGER &&
((redisReply*)reply)->element[1]->integer == 42);
freeReplyObject(reply);
redisReaderFree(reader);
test("Can parse RESP3 doubles: ");
reader = redisReaderCreate();
redisReaderFeed(reader, ",3.14159265358979323846\r\n",25);
ret = redisReaderGetReply(reader,&reply);
test_cond(ret == REDIS_OK &&
((redisReply*)reply)->type == REDIS_REPLY_DOUBLE &&
fabs(((redisReply*)reply)->dval - 3.14159265358979323846) < 0.00000001 &&
((redisReply*)reply)->len == 22 &&
strcmp(((redisReply*)reply)->str, "3.14159265358979323846") == 0);
freeReplyObject(reply);
redisReaderFree(reader);
test("Set error on invalid RESP3 double: ");
reader = redisReaderCreate();
redisReaderFeed(reader, ",3.14159\000265358979323846\r\n",26);
ret = redisReaderGetReply(reader,&reply);
test_cond(ret == REDIS_ERR &&
strcasecmp(reader->errstr,"Bad double value") == 0);
freeReplyObject(reply);
redisReaderFree(reader);
test("Correctly parses RESP3 double INFINITY: ");
reader = redisReaderCreate();
redisReaderFeed(reader, ",inf\r\n",6);
ret = redisReaderGetReply(reader,&reply);
test_cond(ret == REDIS_OK &&
((redisReply*)reply)->type == REDIS_REPLY_DOUBLE &&
isinf(((redisReply*)reply)->dval) &&
((redisReply*)reply)->dval > 0);
freeReplyObject(reply);
redisReaderFree(reader);
test("Set error when RESP3 double is NaN: ");
reader = redisReaderCreate();
redisReaderFeed(reader, ",nan\r\n",6);
ret = redisReaderGetReply(reader,&reply);
test_cond(ret == REDIS_ERR &&
strcasecmp(reader->errstr,"Bad double value") == 0);
freeReplyObject(reply);
redisReaderFree(reader);
test("Can parse RESP3 nil: ");
reader = redisReaderCreate();
redisReaderFeed(reader, "_\r\n",3);
ret = redisReaderGetReply(reader,&reply);
test_cond(ret == REDIS_OK &&
((redisReply*)reply)->type == REDIS_REPLY_NIL);
freeReplyObject(reply);
redisReaderFree(reader);
test("Set error on invalid RESP3 nil: ");
reader = redisReaderCreate();
redisReaderFeed(reader, "_nil\r\n",6);
ret = redisReaderGetReply(reader,&reply);
test_cond(ret == REDIS_ERR &&
strcasecmp(reader->errstr,"Bad nil value") == 0);
freeReplyObject(reply);
redisReaderFree(reader);
test("Can parse RESP3 bool (true): ");
reader = redisReaderCreate();
redisReaderFeed(reader, "#t\r\n",4);
ret = redisReaderGetReply(reader,&reply);
test_cond(ret == REDIS_OK &&
((redisReply*)reply)->type == REDIS_REPLY_BOOL &&
((redisReply*)reply)->integer);
freeReplyObject(reply);
redisReaderFree(reader);
test("Can parse RESP3 bool (false): ");
reader = redisReaderCreate();
redisReaderFeed(reader, "#f\r\n",4);
ret = redisReaderGetReply(reader,&reply);
test_cond(ret == REDIS_OK &&
((redisReply*)reply)->type == REDIS_REPLY_BOOL &&
!((redisReply*)reply)->integer);
freeReplyObject(reply);
redisReaderFree(reader);
test("Set error on invalid RESP3 bool: ");
reader = redisReaderCreate();
redisReaderFeed(reader, "#foobar\r\n",9);
ret = redisReaderGetReply(reader,&reply);
test_cond(ret == REDIS_ERR &&
strcasecmp(reader->errstr,"Bad bool value") == 0);
freeReplyObject(reply);
redisReaderFree(reader);
test("Can parse RESP3 map: ");
reader = redisReaderCreate();
redisReaderFeed(reader, "%2\r\n+first\r\n:123\r\n$6\r\nsecond\r\n#t\r\n",34);
ret = redisReaderGetReply(reader,&reply);
test_cond(ret == REDIS_OK &&
((redisReply*)reply)->type == REDIS_REPLY_MAP &&
((redisReply*)reply)->elements == 4 &&
((redisReply*)reply)->element[0]->type == REDIS_REPLY_STATUS &&
((redisReply*)reply)->element[0]->len == 5 &&
!strcmp(((redisReply*)reply)->element[0]->str,"first") &&
((redisReply*)reply)->element[1]->type == REDIS_REPLY_INTEGER &&
((redisReply*)reply)->element[1]->integer == 123 &&
((redisReply*)reply)->element[2]->type == REDIS_REPLY_STRING &&
((redisReply*)reply)->element[2]->len == 6 &&
!strcmp(((redisReply*)reply)->element[2]->str,"second") &&
((redisReply*)reply)->element[3]->type == REDIS_REPLY_BOOL &&
((redisReply*)reply)->element[3]->integer);
freeReplyObject(reply);
redisReaderFree(reader);
test("Can parse RESP3 set: ");
reader = redisReaderCreate();
redisReaderFeed(reader, "~5\r\n+orange\r\n$5\r\napple\r\n#f\r\n:100\r\n:999\r\n",40);
ret = redisReaderGetReply(reader,&reply);
test_cond(ret == REDIS_OK &&
((redisReply*)reply)->type == REDIS_REPLY_SET &&
((redisReply*)reply)->elements == 5 &&
((redisReply*)reply)->element[0]->type == REDIS_REPLY_STATUS &&
((redisReply*)reply)->element[0]->len == 6 &&
!strcmp(((redisReply*)reply)->element[0]->str,"orange") &&
((redisReply*)reply)->element[1]->type == REDIS_REPLY_STRING &&
((redisReply*)reply)->element[1]->len == 5 &&
!strcmp(((redisReply*)reply)->element[1]->str,"apple") &&
((redisReply*)reply)->element[2]->type == REDIS_REPLY_BOOL &&
!((redisReply*)reply)->element[2]->integer &&
((redisReply*)reply)->element[3]->type == REDIS_REPLY_INTEGER &&
((redisReply*)reply)->element[3]->integer == 100 &&
((redisReply*)reply)->element[4]->type == REDIS_REPLY_INTEGER &&
((redisReply*)reply)->element[4]->integer == 999);
freeReplyObject(reply);
redisReaderFree(reader);
test("Can parse RESP3 bignum: ");
reader = redisReaderCreate();
redisReaderFeed(reader,"(3492890328409238509324850943850943825024385\r\n",46);
ret = redisReaderGetReply(reader,&reply);
test_cond(ret == REDIS_OK &&
((redisReply*)reply)->type == REDIS_REPLY_BIGNUM &&
((redisReply*)reply)->len == 43 &&
!strcmp(((redisReply*)reply)->str,"3492890328409238509324850943850943825024385"));
freeReplyObject(reply);
redisReaderFree(reader);
}
static void test_free_null(void) {
void *redisCtx = NULL;
void *reply = NULL;
test("Don't fail when redisFree is passed a NULL value: ");
redisFree(redisCtx);
test_cond(redisCtx == NULL);
test("Don't fail when freeReplyObject is passed a NULL value: ");
freeReplyObject(reply);
test_cond(reply == NULL);
}
static void *hi_malloc_fail(size_t size) {
(void)size;
return NULL;
}
static void *hi_calloc_fail(size_t nmemb, size_t size) {
(void)nmemb;
(void)size;
return NULL;
}
static void *hi_calloc_insecure(size_t nmemb, size_t size) {
(void)nmemb;
(void)size;
insecure_calloc_calls++;
return (void*)0xdeadc0de;
}
static void *hi_realloc_fail(void *ptr, size_t size) {
(void)ptr;
(void)size;
return NULL;
}
static void test_allocator_injection(void) {
void *ptr;
hiredisAllocFuncs ha = {
.mallocFn = hi_malloc_fail,
.callocFn = hi_calloc_fail,
.reallocFn = hi_realloc_fail,
.strdupFn = strdup,
.freeFn = free,
};
// Override hiredis allocators
hiredisSetAllocators(&ha);
test("redisContext uses injected allocators: ");
redisContext *c = redisConnect("localhost", 6379);
test_cond(c == NULL);
test("redisReader uses injected allocators: ");
redisReader *reader = redisReaderCreate();
test_cond(reader == NULL);
/* Make sure hiredis itself protects against a non-overflow checking calloc */
test("hiredis calloc wrapper protects against overflow: ");
ha.callocFn = hi_calloc_insecure;
hiredisSetAllocators(&ha);
ptr = hi_calloc((SIZE_MAX / sizeof(void*)) + 3, sizeof(void*));
test_cond(ptr == NULL && insecure_calloc_calls == 0);
// Return allocators to default
hiredisResetAllocators();
}
#define HIREDIS_BAD_DOMAIN "idontexist-noreally.com"
static void test_blocking_connection_errors(void) {
redisContext *c;
struct addrinfo hints = {.ai_family = AF_INET};
struct addrinfo *ai_tmp = NULL;
int rv = getaddrinfo(HIREDIS_BAD_DOMAIN, "6379", &hints, &ai_tmp);
if (rv != 0) {
// Address does *not* exist
test("Returns error when host cannot be resolved: ");
// First see if this domain name *actually* resolves to NXDOMAIN
c = redisConnect(HIREDIS_BAD_DOMAIN, 6379);
test_cond(
c->err == REDIS_ERR_OTHER &&
(strcmp(c->errstr, "Name or service not known") == 0 ||
strcmp(c->errstr, "Can't resolve: " HIREDIS_BAD_DOMAIN) == 0 ||
strcmp(c->errstr, "Name does not resolve") == 0 ||
strcmp(c->errstr, "nodename nor servname provided, or not known") == 0 ||
strcmp(c->errstr, "No address associated with hostname") == 0 ||
strcmp(c->errstr, "Temporary failure in name resolution") == 0 ||
strcmp(c->errstr, "hostname nor servname provided, or not known") == 0 ||
strcmp(c->errstr, "no address associated with name") == 0 ||
strcmp(c->errstr, "No such host is known. ") == 0));
redisFree(c);
} else {
printf("Skipping NXDOMAIN test. Found evil ISP!\n");
freeaddrinfo(ai_tmp);
}
#ifndef _WIN32
test("Returns error when the port is not open: ");
c = redisConnect((char*)"localhost", 1);
test_cond(c->err == REDIS_ERR_IO &&
strcmp(c->errstr,"Connection refused") == 0);
redisFree(c);
test("Returns error when the unix_sock socket path doesn't accept connections: ");
c = redisConnectUnix((char*)"/tmp/idontexist.sock");
test_cond(c->err == REDIS_ERR_IO); /* Don't care about the message... */
redisFree(c);
#endif
}
/* Test push handler */
void push_handler(void *privdata, void *r) {
struct pushCounters *pcounts = privdata;
redisReply *reply = r, *payload;
assert(reply && reply->type == REDIS_REPLY_PUSH && reply->elements == 2);
payload = reply->element[1];
if (payload->type == REDIS_REPLY_ARRAY) {
payload = payload->element[0];
}
if (payload->type == REDIS_REPLY_STRING) {
pcounts->str++;
} else if (payload->type == REDIS_REPLY_NIL) {
pcounts->nil++;
}
freeReplyObject(reply);
}
/* Dummy function just to test setting a callback with redisOptions */
void push_handler_async(redisAsyncContext *ac, void *reply) {
(void)ac;
(void)reply;
}
static void test_resp3_push_handler(redisContext *c) {
struct pushCounters pc = {0};
redisPushFn *old = NULL;
redisReply *reply;
void *privdata;
/* Switch to RESP3 and turn on client tracking */
send_hello(c, 3);
send_client_tracking(c, "ON");
privdata = c->privdata;
c->privdata = &pc;
reply = redisCommand(c, "GET key:0");
assert(reply != NULL);
freeReplyObject(reply);
test("RESP3 PUSH messages are handled out of band by default: ");
reply = redisCommand(c, "SET key:0 val:0");
test_cond(reply != NULL && reply->type == REDIS_REPLY_STATUS);
freeReplyObject(reply);
assert((reply = redisCommand(c, "GET key:0")) != NULL);
freeReplyObject(reply);
old = redisSetPushCallback(c, push_handler);
test("We can set a custom RESP3 PUSH handler: ");
reply = redisCommand(c, "SET key:0 val:0");
test_cond(reply != NULL && reply->type == REDIS_REPLY_STATUS && pc.str == 1);
freeReplyObject(reply);
test("We properly handle a NIL invalidation payload: ");
reply = redisCommand(c, "FLUSHDB");
test_cond(reply != NULL && reply->type == REDIS_REPLY_STATUS && pc.nil == 1);
freeReplyObject(reply);
/* Unset the push callback and generate an invalidate message making
* sure it is not handled out of band. */
test("With no handler, PUSH replies come in-band: ");
redisSetPushCallback(c, NULL);
assert((reply = redisCommand(c, "GET key:0")) != NULL);
freeReplyObject(reply);
assert((reply = redisCommand(c, "SET key:0 invalid")) != NULL);
test_cond(reply->type == REDIS_REPLY_PUSH);
freeReplyObject(reply);
test("With no PUSH handler, no replies are lost: ");
assert(redisGetReply(c, (void**)&reply) == REDIS_OK);
test_cond(reply != NULL && reply->type == REDIS_REPLY_STATUS);
freeReplyObject(reply);
/* Return to the originally set PUSH handler */
assert(old != NULL);
redisSetPushCallback(c, old);
/* Switch back to RESP2 and disable tracking */
c->privdata = privdata;
send_client_tracking(c, "OFF");
send_hello(c, 2);
}
redisOptions get_redis_tcp_options(struct config config) {
redisOptions options = {0};
REDIS_OPTIONS_SET_TCP(&options, config.tcp.host, config.tcp.port);
return options;
}
static void test_resp3_push_options(struct config config) {
redisAsyncContext *ac;
redisContext *c;
redisOptions options;
test("We set a default RESP3 handler for redisContext: ");
options = get_redis_tcp_options(config);
assert((c = redisConnectWithOptions(&options)) != NULL);
test_cond(c->push_cb != NULL);
redisFree(c);
test("We don't set a default RESP3 push handler for redisAsyncContext: ");
options = get_redis_tcp_options(config);
assert((ac = redisAsyncConnectWithOptions(&options)) != NULL);
test_cond(ac->c.push_cb == NULL);
redisAsyncFree(ac);
test("Our REDIS_OPT_NO_PUSH_AUTOFREE flag works: ");
options = get_redis_tcp_options(config);
options.options |= REDIS_OPT_NO_PUSH_AUTOFREE;
assert((c = redisConnectWithOptions(&options)) != NULL);
test_cond(c->push_cb == NULL);
redisFree(c);
test("We can use redisOptions to set a custom PUSH handler for redisContext: ");
options = get_redis_tcp_options(config);
options.push_cb = push_handler;
assert((c = redisConnectWithOptions(&options)) != NULL);
test_cond(c->push_cb == push_handler);
redisFree(c);
test("We can use redisOptions to set a custom PUSH handler for redisAsyncContext: ");
options = get_redis_tcp_options(config);
options.async_push_cb = push_handler_async;
assert((ac = redisAsyncConnectWithOptions(&options)) != NULL);
test_cond(ac->push_cb == push_handler_async);
redisAsyncFree(ac);
}
void free_privdata(void *privdata) {
struct privdata *data = privdata;
data->dtor_counter++;
}
static void test_privdata_hooks(struct config config) {
struct privdata data = {0};
redisOptions options;
redisContext *c;
test("We can use redisOptions to set privdata: ");
options = get_redis_tcp_options(config);
REDIS_OPTIONS_SET_PRIVDATA(&options, &data, free_privdata);
assert((c = redisConnectWithOptions(&options)) != NULL);
test_cond(c->privdata == &data);
test("Our privdata destructor fires when we free the context: ");
redisFree(c);
test_cond(data.dtor_counter == 1);
}
static void test_blocking_connection(struct config config) {
redisContext *c;
redisReply *reply;
int major;
c = do_connect(config);
test("Is able to deliver commands: ");
reply = redisCommand(c,"PING");
test_cond(reply->type == REDIS_REPLY_STATUS &&
strcasecmp(reply->str,"pong") == 0)
freeReplyObject(reply);
test("Is a able to send commands verbatim: ");
reply = redisCommand(c,"SET foo bar");
test_cond (reply->type == REDIS_REPLY_STATUS &&
strcasecmp(reply->str,"ok") == 0)
freeReplyObject(reply);
test("%%s String interpolation works: ");
reply = redisCommand(c,"SET %s %s","foo","hello world");
freeReplyObject(reply);
reply = redisCommand(c,"GET foo");
test_cond(reply->type == REDIS_REPLY_STRING &&
strcmp(reply->str,"hello world") == 0);
freeReplyObject(reply);
test("%%b String interpolation works: ");
reply = redisCommand(c,"SET %b %b","foo",(size_t)3,"hello\x00world",(size_t)11);
freeReplyObject(reply);
reply = redisCommand(c,"GET foo");
test_cond(reply->type == REDIS_REPLY_STRING &&
memcmp(reply->str,"hello\x00world",11) == 0)
test("Binary reply length is correct: ");
test_cond(reply->len == 11)
freeReplyObject(reply);
test("Can parse nil replies: ");
reply = redisCommand(c,"GET nokey");
test_cond(reply->type == REDIS_REPLY_NIL)
freeReplyObject(reply);
/* test 7 */
test("Can parse integer replies: ");
reply = redisCommand(c,"INCR mycounter");
test_cond(reply->type == REDIS_REPLY_INTEGER && reply->integer == 1)
freeReplyObject(reply);
test("Can parse multi bulk replies: ");
freeReplyObject(redisCommand(c,"LPUSH mylist foo"));
freeReplyObject(redisCommand(c,"LPUSH mylist bar"));
reply = redisCommand(c,"LRANGE mylist 0 -1");
test_cond(reply->type == REDIS_REPLY_ARRAY &&
reply->elements == 2 &&
!memcmp(reply->element[0]->str,"bar",3) &&
!memcmp(reply->element[1]->str,"foo",3))
freeReplyObject(reply);
/* m/e with multi bulk reply *before* other reply.
* specifically test ordering of reply items to parse. */
test("Can handle nested multi bulk replies: ");
freeReplyObject(redisCommand(c,"MULTI"));
freeReplyObject(redisCommand(c,"LRANGE mylist 0 -1"));
freeReplyObject(redisCommand(c,"PING"));
reply = (redisCommand(c,"EXEC"));
test_cond(reply->type == REDIS_REPLY_ARRAY &&
reply->elements == 2 &&
reply->element[0]->type == REDIS_REPLY_ARRAY &&
reply->element[0]->elements == 2 &&
!memcmp(reply->element[0]->element[0]->str,"bar",3) &&
!memcmp(reply->element[0]->element[1]->str,"foo",3) &&
reply->element[1]->type == REDIS_REPLY_STATUS &&
strcasecmp(reply->element[1]->str,"pong") == 0);
freeReplyObject(reply);
/* Make sure passing NULL to redisGetReply is safe */
test("Can pass NULL to redisGetReply: ");
assert(redisAppendCommand(c, "PING") == REDIS_OK);
test_cond(redisGetReply(c, NULL) == REDIS_OK);
get_redis_version(c, &major, NULL);
if (major >= 6) test_resp3_push_handler(c);
test_resp3_push_options(config);
test_privdata_hooks(config);
disconnect(c, 0);
}
/* Send DEBUG SLEEP 0 to detect if we have this command */
static int detect_debug_sleep(redisContext *c) {
int detected;
redisReply *reply = redisCommand(c, "DEBUG SLEEP 0\r\n");
if (reply == NULL || c->err) {
const char *cause = c->err ? c->errstr : "(none)";
fprintf(stderr, "Error testing for DEBUG SLEEP (Redis error: %s), exiting\n", cause);
exit(-1);
}
detected = reply->type == REDIS_REPLY_STATUS;
freeReplyObject(reply);
return detected;
}
static void test_blocking_connection_timeouts(struct config config) {
redisContext *c;
redisReply *reply;
ssize_t s;
const char *sleep_cmd = "DEBUG SLEEP 3\r\n";
struct timeval tv;
c = do_connect(config);
test("Successfully completes a command when the timeout is not exceeded: ");
reply = redisCommand(c,"SET foo fast");
freeReplyObject(reply);
tv.tv_sec = 0;
tv.tv_usec = 10000;
redisSetTimeout(c, tv);
reply = redisCommand(c, "GET foo");
test_cond(reply != NULL && reply->type == REDIS_REPLY_STRING && memcmp(reply->str, "fast", 4) == 0);
freeReplyObject(reply);
disconnect(c, 0);
c = do_connect(config);
test("Does not return a reply when the command times out: ");
if (detect_debug_sleep(c)) {
redisAppendFormattedCommand(c, sleep_cmd, strlen(sleep_cmd));
s = c->funcs->write(c);
tv.tv_sec = 0;
tv.tv_usec = 10000;
redisSetTimeout(c, tv);
reply = redisCommand(c, "GET foo");
#ifndef _WIN32
test_cond(s > 0 && reply == NULL && c->err == REDIS_ERR_IO &&
strcmp(c->errstr, "Resource temporarily unavailable") == 0);
#else
test_cond(s > 0 && reply == NULL && c->err == REDIS_ERR_TIMEOUT &&
strcmp(c->errstr, "recv timeout") == 0);
#endif
freeReplyObject(reply);
} else {
test_skipped();
}
test("Reconnect properly reconnects after a timeout: ");
do_reconnect(c, config);
reply = redisCommand(c, "PING");
test_cond(reply != NULL && reply->type == REDIS_REPLY_STATUS && strcmp(reply->str, "PONG") == 0);
freeReplyObject(reply);
test("Reconnect properly uses owned parameters: ");
config.tcp.host = "foo";
config.unix_sock.path = "foo";
do_reconnect(c, config);
reply = redisCommand(c, "PING");
test_cond(reply != NULL && reply->type == REDIS_REPLY_STATUS && strcmp(reply->str, "PONG") == 0);
freeReplyObject(reply);
disconnect(c, 0);
}
static void test_blocking_io_errors(struct config config) {
redisContext *c;
redisReply *reply;
void *_reply;
int major, minor;
/* Connect to target given by config. */
c = do_connect(config);
get_redis_version(c, &major, &minor);
test("Returns I/O error when the connection is lost: ");
reply = redisCommand(c,"QUIT");
if (major > 2 || (major == 2 && minor > 0)) {
/* > 2.0 returns OK on QUIT and read() should be issued once more
* to know the descriptor is at EOF. */
test_cond(strcasecmp(reply->str,"OK") == 0 &&
redisGetReply(c,&_reply) == REDIS_ERR);
freeReplyObject(reply);
} else {
test_cond(reply == NULL);
}
#ifndef _WIN32
/* On 2.0, QUIT will cause the connection to be closed immediately and
* the read(2) for the reply on QUIT will set the error to EOF.
* On >2.0, QUIT will return with OK and another read(2) needed to be
* issued to find out the socket was closed by the server. In both
* conditions, the error will be set to EOF. */
assert(c->err == REDIS_ERR_EOF &&
strcmp(c->errstr,"Server closed the connection") == 0);
#endif
redisFree(c);
c = do_connect(config);
test("Returns I/O error on socket timeout: ");
struct timeval tv = { 0, 1000 };
assert(redisSetTimeout(c,tv) == REDIS_OK);
int respcode = redisGetReply(c,&_reply);
#ifndef _WIN32
test_cond(respcode == REDIS_ERR && c->err == REDIS_ERR_IO && errno == EAGAIN);
#else
test_cond(respcode == REDIS_ERR && c->err == REDIS_ERR_TIMEOUT);
#endif
redisFree(c);
}
static void test_invalid_timeout_errors(struct config config) {
redisContext *c;
test("Set error when an invalid timeout usec value is given to redisConnectWithTimeout: ");
config.tcp.timeout.tv_sec = 0;
config.tcp.timeout.tv_usec = 10000001;
c = redisConnectWithTimeout(config.tcp.host, config.tcp.port, config.tcp.timeout);
test_cond(c->err == REDIS_ERR_IO && strcmp(c->errstr, "Invalid timeout specified") == 0);
redisFree(c);
test("Set error when an invalid timeout sec value is given to redisConnectWithTimeout: ");
config.tcp.timeout.tv_sec = (((LONG_MAX) - 999) / 1000) + 1;
config.tcp.timeout.tv_usec = 0;
c = redisConnectWithTimeout(config.tcp.host, config.tcp.port, config.tcp.timeout);
test_cond(c->err == REDIS_ERR_IO && strcmp(c->errstr, "Invalid timeout specified") == 0);
redisFree(c);
}
/* Wrap malloc to abort on failure so OOM checks don't make the test logic
* harder to follow. */
void *hi_malloc_safe(size_t size) {
void *ptr = hi_malloc(size);
if (ptr == NULL) {
fprintf(stderr, "Error: Out of memory\n");
exit(-1);
}
return ptr;
}
static void test_throughput(struct config config) {
redisContext *c = do_connect(config);
redisReply **replies;
int i, num;
long long t1, t2;
test("Throughput:\n");
for (i = 0; i < 500; i++)
freeReplyObject(redisCommand(c,"LPUSH mylist foo"));
num = 1000;
replies = hi_malloc_safe(sizeof(redisReply*)*num);
t1 = usec();
for (i = 0; i < num; i++) {
replies[i] = redisCommand(c,"PING");
assert(replies[i] != NULL && replies[i]->type == REDIS_REPLY_STATUS);
}
t2 = usec();
for (i = 0; i < num; i++) freeReplyObject(replies[i]);
hi_free(replies);
printf("\t(%dx PING: %.3fs)\n", num, (t2-t1)/1000000.0);
replies = hi_malloc_safe(sizeof(redisReply*)*num);
t1 = usec();
for (i = 0; i < num; i++) {
replies[i] = redisCommand(c,"LRANGE mylist 0 499");
assert(replies[i] != NULL && replies[i]->type == REDIS_REPLY_ARRAY);
assert(replies[i] != NULL && replies[i]->elements == 500);
}
t2 = usec();
for (i = 0; i < num; i++) freeReplyObject(replies[i]);
hi_free(replies);
printf("\t(%dx LRANGE with 500 elements: %.3fs)\n", num, (t2-t1)/1000000.0);
replies = hi_malloc_safe(sizeof(redisReply*)*num);
t1 = usec();
for (i = 0; i < num; i++) {
replies[i] = redisCommand(c, "INCRBY incrkey %d", 1000000);
assert(replies[i] != NULL && replies[i]->type == REDIS_REPLY_INTEGER);
}
t2 = usec();
for (i = 0; i < num; i++) freeReplyObject(replies[i]);
hi_free(replies);
printf("\t(%dx INCRBY: %.3fs)\n", num, (t2-t1)/1000000.0);
num = 10000;
replies = hi_malloc_safe(sizeof(redisReply*)*num);
for (i = 0; i < num; i++)
redisAppendCommand(c,"PING");
t1 = usec();
for (i = 0; i < num; i++) {
assert(redisGetReply(c, (void*)&replies[i]) == REDIS_OK);
assert(replies[i] != NULL && replies[i]->type == REDIS_REPLY_STATUS);
}
t2 = usec();
for (i = 0; i < num; i++) freeReplyObject(replies[i]);
hi_free(replies);
printf("\t(%dx PING (pipelined): %.3fs)\n", num, (t2-t1)/1000000.0);
replies = hi_malloc_safe(sizeof(redisReply*)*num);
for (i = 0; i < num; i++)
redisAppendCommand(c,"LRANGE mylist 0 499");
t1 = usec();
for (i = 0; i < num; i++) {
assert(redisGetReply(c, (void*)&replies[i]) == REDIS_OK);
assert(replies[i] != NULL && replies[i]->type == REDIS_REPLY_ARRAY);
assert(replies[i] != NULL && replies[i]->elements == 500);
}
t2 = usec();
for (i = 0; i < num; i++) freeReplyObject(replies[i]);
hi_free(replies);
printf("\t(%dx LRANGE with 500 elements (pipelined): %.3fs)\n", num, (t2-t1)/1000000.0);
replies = hi_malloc_safe(sizeof(redisReply*)*num);
for (i = 0; i < num; i++)
redisAppendCommand(c,"INCRBY incrkey %d", 1000000);
t1 = usec();
for (i = 0; i < num; i++) {
assert(redisGetReply(c, (void*)&replies[i]) == REDIS_OK);
assert(replies[i] != NULL && replies[i]->type == REDIS_REPLY_INTEGER);
}
t2 = usec();
for (i = 0; i < num; i++) freeReplyObject(replies[i]);
hi_free(replies);
printf("\t(%dx INCRBY (pipelined): %.3fs)\n", num, (t2-t1)/1000000.0);
disconnect(c, 0);
}
// static long __test_callback_flags = 0;
// static void __test_callback(redisContext *c, void *privdata) {
// ((void)c);
// /* Shift to detect execution order */
// __test_callback_flags <<= 8;
// __test_callback_flags |= (long)privdata;
// }
//
// static void __test_reply_callback(redisContext *c, redisReply *reply, void *privdata) {
// ((void)c);
// /* Shift to detect execution order */
// __test_callback_flags <<= 8;
// __test_callback_flags |= (long)privdata;
// if (reply) freeReplyObject(reply);
// }
//
// static redisContext *__connect_nonblock() {
// /* Reset callback flags */
// __test_callback_flags = 0;
// return redisConnectNonBlock("127.0.0.1", port, NULL);
// }
//
// static void test_nonblocking_connection() {
// redisContext *c;
// int wdone = 0;
//
// test("Calls command callback when command is issued: ");
// c = __connect_nonblock();
// redisSetCommandCallback(c,__test_callback,(void*)1);
// redisCommand(c,"PING");
// test_cond(__test_callback_flags == 1);
// redisFree(c);
//
// test("Calls disconnect callback on redisDisconnect: ");
// c = __connect_nonblock();
// redisSetDisconnectCallback(c,__test_callback,(void*)2);
// redisDisconnect(c);
// test_cond(__test_callback_flags == 2);
// redisFree(c);
//
// test("Calls disconnect callback and free callback on redisFree: ");
// c = __connect_nonblock();
// redisSetDisconnectCallback(c,__test_callback,(void*)2);
// redisSetFreeCallback(c,__test_callback,(void*)4);
// redisFree(c);
// test_cond(__test_callback_flags == ((2 << 8) | 4));
//
// test("redisBufferWrite against empty write buffer: ");
// c = __connect_nonblock();
// test_cond(redisBufferWrite(c,&wdone) == REDIS_OK && wdone == 1);
// redisFree(c);
//
// test("redisBufferWrite against not yet connected fd: ");
// c = __connect_nonblock();
// redisCommand(c,"PING");
// test_cond(redisBufferWrite(c,NULL) == REDIS_ERR &&
// strncmp(c->error,"write:",6) == 0);
// redisFree(c);
//
// test("redisBufferWrite against closed fd: ");
// c = __connect_nonblock();
// redisCommand(c,"PING");
// redisDisconnect(c);
// test_cond(redisBufferWrite(c,NULL) == REDIS_ERR &&
// strncmp(c->error,"write:",6) == 0);
// redisFree(c);
//
// test("Process callbacks in the right sequence: ");
// c = __connect_nonblock();
// redisCommandWithCallback(c,__test_reply_callback,(void*)1,"PING");
// redisCommandWithCallback(c,__test_reply_callback,(void*)2,"PING");
// redisCommandWithCallback(c,__test_reply_callback,(void*)3,"PING");
//
// /* Write output buffer */
// wdone = 0;
// while(!wdone) {
// usleep(500);
// redisBufferWrite(c,&wdone);
// }
//
// /* Read until at least one callback is executed (the 3 replies will
// * arrive in a single packet, causing all callbacks to be executed in
// * a single pass). */
// while(__test_callback_flags == 0) {
// assert(redisBufferRead(c) == REDIS_OK);
// redisProcessCallbacks(c);
// }
// test_cond(__test_callback_flags == 0x010203);
// redisFree(c);
//
// test("redisDisconnect executes pending callbacks with NULL reply: ");
// c = __connect_nonblock();
// redisSetDisconnectCallback(c,__test_callback,(void*)1);
// redisCommandWithCallback(c,__test_reply_callback,(void*)2,"PING");
// redisDisconnect(c);
// test_cond(__test_callback_flags == 0x0201);
// redisFree(c);
// }
#ifdef HIREDIS_TEST_ASYNC
struct event_base *base;
typedef struct TestState {
redisOptions *options;
int checkpoint;
int resp3;
int disconnect;
} TestState;
/* Helper to disconnect and stop event loop */
void async_disconnect(redisAsyncContext *ac) {
redisAsyncDisconnect(ac);
event_base_loopbreak(base);
}
/* Testcase timeout, will trigger a failure */
void timeout_cb(int fd, short event, void *arg) {
(void) fd; (void) event; (void) arg;
printf("Timeout in async testing!\n");
exit(1);
}
/* Unexpected call, will trigger a failure */
void unexpected_cb(redisAsyncContext *ac, void *r, void *privdata) {
(void) ac; (void) r;
printf("Unexpected call: %s\n",(char*)privdata);
exit(1);
}
/* Helper function to publish a message via own client. */
void publish_msg(redisOptions *options, const char* channel, const char* msg) {
redisContext *c = redisConnectWithOptions(options);
assert(c != NULL);
redisReply *reply = redisCommand(c,"PUBLISH %s %s",channel,msg);
assert(reply->type == REDIS_REPLY_INTEGER && reply->integer == 1);
freeReplyObject(reply);
disconnect(c, 0);
}
/* Expect a reply of type INTEGER */
void integer_cb(redisAsyncContext *ac, void *r, void *privdata) {
redisReply *reply = r;
TestState *state = privdata;
assert(reply != NULL && reply->type == REDIS_REPLY_INTEGER);
state->checkpoint++;
if (state->disconnect) async_disconnect(ac);
}
/* Subscribe callback for test_pubsub_handling and test_pubsub_handling_resp3:
* - a published message triggers an unsubscribe
* - a command is sent before the unsubscribe response is received. */
void subscribe_cb(redisAsyncContext *ac, void *r, void *privdata) {
redisReply *reply = r;
TestState *state = privdata;
assert(reply != NULL &&
reply->type == (state->resp3 ? REDIS_REPLY_PUSH : REDIS_REPLY_ARRAY) &&
reply->elements == 3);
if (strcmp(reply->element[0]->str,"subscribe") == 0) {
assert(strcmp(reply->element[1]->str,"mychannel") == 0 &&
reply->element[2]->str == NULL);
publish_msg(state->options,"mychannel","Hello!");
} else if (strcmp(reply->element[0]->str,"message") == 0) {
assert(strcmp(reply->element[1]->str,"mychannel") == 0 &&
strcmp(reply->element[2]->str,"Hello!") == 0);
state->checkpoint++;
/* Unsubscribe after receiving the published message. Send unsubscribe
* which should call the callback registered during subscribe */
redisAsyncCommand(ac,unexpected_cb,
(void*)"unsubscribe should call subscribe_cb()",
"unsubscribe");
/* Send a regular command after unsubscribing, then disconnect */
state->disconnect = 1;
redisAsyncCommand(ac,integer_cb,state,"LPUSH mylist foo");
} else if (strcmp(reply->element[0]->str,"unsubscribe") == 0) {
assert(strcmp(reply->element[1]->str,"mychannel") == 0 &&
reply->element[2]->str == NULL);
} else {
printf("Unexpected pubsub command: %s\n", reply->element[0]->str);
exit(1);
}
}
/* Expect a reply of type ARRAY */
void array_cb(redisAsyncContext *ac, void *r, void *privdata) {
redisReply *reply = r;
TestState *state = privdata;
assert(reply != NULL && reply->type == REDIS_REPLY_ARRAY);
state->checkpoint++;
if (state->disconnect) async_disconnect(ac);
}
/* Expect a NULL reply */
void null_cb(redisAsyncContext *ac, void *r, void *privdata) {
(void) ac;
assert(r == NULL);
TestState *state = privdata;
state->checkpoint++;
}
static void test_pubsub_handling(struct config config) {
test("Subscribe, handle published message and unsubscribe: ");
/* Setup event dispatcher with a testcase timeout */
base = event_base_new();
struct event *timeout = evtimer_new(base, timeout_cb, NULL);
assert(timeout != NULL);
evtimer_assign(timeout,base,timeout_cb,NULL);
struct timeval timeout_tv = {.tv_sec = 10};
evtimer_add(timeout, &timeout_tv);
/* Connect */
redisOptions options = get_redis_tcp_options(config);
redisAsyncContext *ac = redisAsyncConnectWithOptions(&options);
assert(ac != NULL && ac->err == 0);
redisLibeventAttach(ac,base);
/* Start subscribe */
TestState state = {.options = &options};
redisAsyncCommand(ac,subscribe_cb,&state,"subscribe mychannel");
/* Make sure non-subscribe commands are handled */
redisAsyncCommand(ac,array_cb,&state,"PING");
/* Start event dispatching loop */
test_cond(event_base_dispatch(base) == 0);
event_free(timeout);
event_base_free(base);
/* Verify test checkpoints */
assert(state.checkpoint == 3);
}
/* Unexpected push message, will trigger a failure */
void unexpected_push_cb(redisAsyncContext *ac, void *r) {
(void) ac; (void) r;
printf("Unexpected call to the PUSH callback!\n");
exit(1);
}
static void test_pubsub_handling_resp3(struct config config) {
test("Subscribe, handle published message and unsubscribe using RESP3: ");
/* Setup event dispatcher with a testcase timeout */
base = event_base_new();
struct event *timeout = evtimer_new(base, timeout_cb, NULL);
assert(timeout != NULL);
evtimer_assign(timeout,base,timeout_cb,NULL);
struct timeval timeout_tv = {.tv_sec = 10};
evtimer_add(timeout, &timeout_tv);
/* Connect */
redisOptions options = get_redis_tcp_options(config);
redisAsyncContext *ac = redisAsyncConnectWithOptions(&options);
assert(ac != NULL && ac->err == 0);
redisLibeventAttach(ac,base);
/* Not expecting any push messages in this test */
redisAsyncSetPushCallback(ac, unexpected_push_cb);
/* Switch protocol */
redisAsyncCommand(ac,NULL,NULL,"HELLO 3");
/* Start subscribe */
TestState state = {.options = &options, .resp3 = 1};
redisAsyncCommand(ac,subscribe_cb,&state,"subscribe mychannel");
/* Make sure non-subscribe commands are handled in RESP3 */
redisAsyncCommand(ac,integer_cb,&state,"LPUSH mylist foo");
redisAsyncCommand(ac,integer_cb,&state,"LPUSH mylist foo");
redisAsyncCommand(ac,integer_cb,&state,"LPUSH mylist foo");
/* Handle an array with 3 elements as a non-subscribe command */
redisAsyncCommand(ac,array_cb,&state,"LRANGE mylist 0 2");
/* Start event dispatching loop */
test_cond(event_base_dispatch(base) == 0);
event_free(timeout);
event_base_free(base);
/* Verify test checkpoints */
assert(state.checkpoint == 6);
}
/* Subscribe callback for test_command_timeout_during_pubsub:
* - a subscribe response triggers a published message
* - the published message triggers a command that times out
* - the command timeout triggers a disconnect */
void subscribe_with_timeout_cb(redisAsyncContext *ac, void *r, void *privdata) {
redisReply *reply = r;
TestState *state = privdata;
/* The non-clean disconnect should trigger the
* subscription callback with a NULL reply. */
if (reply == NULL) {
state->checkpoint++;
event_base_loopbreak(base);
return;
}
assert(reply->type == (state->resp3 ? REDIS_REPLY_PUSH : REDIS_REPLY_ARRAY) &&
reply->elements == 3);
if (strcmp(reply->element[0]->str,"subscribe") == 0) {
assert(strcmp(reply->element[1]->str,"mychannel") == 0 &&
reply->element[2]->str == NULL);
publish_msg(state->options,"mychannel","Hello!");
state->checkpoint++;
} else if (strcmp(reply->element[0]->str,"message") == 0) {
assert(strcmp(reply->element[1]->str,"mychannel") == 0 &&
strcmp(reply->element[2]->str,"Hello!") == 0);
state->checkpoint++;
/* Send a command that will trigger a timeout */
redisAsyncCommand(ac,null_cb,state,"DEBUG SLEEP 3");
redisAsyncCommand(ac,null_cb,state,"LPUSH mylist foo");
} else {
printf("Unexpected pubsub command: %s\n", reply->element[0]->str);
exit(1);
}
}
static void test_command_timeout_during_pubsub(struct config config) {
test("Command timeout during Pub/Sub: ");
/* Setup event dispatcher with a testcase timeout */
base = event_base_new();
struct event *timeout = evtimer_new(base,timeout_cb,NULL);
assert(timeout != NULL);
evtimer_assign(timeout,base,timeout_cb,NULL);
struct timeval timeout_tv = {.tv_sec = 10};
evtimer_add(timeout,&timeout_tv);
/* Connect */
redisOptions options = get_redis_tcp_options(config);
redisAsyncContext *ac = redisAsyncConnectWithOptions(&options);
assert(ac != NULL && ac->err == 0);
redisLibeventAttach(ac,base);
/* Configure a command timout */
struct timeval command_timeout = {.tv_sec = 2};
redisAsyncSetTimeout(ac,command_timeout);
/* Not expecting any push messages in this test */
redisAsyncSetPushCallback(ac,unexpected_push_cb);
/* Switch protocol */
redisAsyncCommand(ac,NULL,NULL,"HELLO 3");
/* Start subscribe */
TestState state = {.options = &options, .resp3 = 1};
redisAsyncCommand(ac,subscribe_with_timeout_cb,&state,"subscribe mychannel");
/* Start event dispatching loop */
assert(event_base_dispatch(base) == 0);
event_free(timeout);
event_base_free(base);
/* Verify test checkpoints */
test_cond(state.checkpoint == 5);
}
/* Subscribe callback for test_pubsub_multiple_channels */
void subscribe_channel_a_cb(redisAsyncContext *ac, void *r, void *privdata) {
redisReply *reply = r;
TestState *state = privdata;
assert(reply != NULL && reply->type == REDIS_REPLY_ARRAY &&
reply->elements == 3);
if (strcmp(reply->element[0]->str,"subscribe") == 0) {
assert(strcmp(reply->element[1]->str,"A") == 0);
publish_msg(state->options,"A","Hello!");
state->checkpoint++;
} else if (strcmp(reply->element[0]->str,"message") == 0) {
assert(strcmp(reply->element[1]->str,"A") == 0 &&
strcmp(reply->element[2]->str,"Hello!") == 0);
state->checkpoint++;
/* Unsubscribe to channels, including a channel X which we don't subscribe to */
redisAsyncCommand(ac,unexpected_cb,
(void*)"unsubscribe should not call unexpected_cb()",
"unsubscribe B X A");
/* Send a regular command after unsubscribing, then disconnect */
state->disconnect = 1;
redisAsyncCommand(ac,integer_cb,state,"LPUSH mylist foo");
} else if (strcmp(reply->element[0]->str,"unsubscribe") == 0) {
assert(strcmp(reply->element[1]->str,"A") == 0);
state->checkpoint++;
} else {
printf("Unexpected pubsub command: %s\n", reply->element[0]->str);
exit(1);
}
}
/* Subscribe callback for test_pubsub_multiple_channels */
void subscribe_channel_b_cb(redisAsyncContext *ac, void *r, void *privdata) {
redisReply *reply = r;
TestState *state = privdata;
assert(reply != NULL && reply->type == REDIS_REPLY_ARRAY &&
reply->elements == 3);
if (strcmp(reply->element[0]->str,"subscribe") == 0) {
assert(strcmp(reply->element[1]->str,"B") == 0);
state->checkpoint++;
} else if (strcmp(reply->element[0]->str,"unsubscribe") == 0) {
assert(strcmp(reply->element[1]->str,"B") == 0);
state->checkpoint++;
} else {
printf("Unexpected pubsub command: %s\n", reply->element[0]->str);
exit(1);
}
}
/* Test handling of multiple channels
* - subscribe to channel A and B
* - a published message on A triggers an unsubscribe of channel B, X and A
* where channel X is not subscribed to.
* - a command sent after unsubscribe triggers a disconnect */
static void test_pubsub_multiple_channels(struct config config) {
test("Subscribe to multiple channels: ");
/* Setup event dispatcher with a testcase timeout */
base = event_base_new();
struct event *timeout = evtimer_new(base,timeout_cb,NULL);
assert(timeout != NULL);
evtimer_assign(timeout,base,timeout_cb,NULL);
struct timeval timeout_tv = {.tv_sec = 10};
evtimer_add(timeout,&timeout_tv);
/* Connect */
redisOptions options = get_redis_tcp_options(config);
redisAsyncContext *ac = redisAsyncConnectWithOptions(&options);
assert(ac != NULL && ac->err == 0);
redisLibeventAttach(ac,base);
/* Not expecting any push messages in this test */
redisAsyncSetPushCallback(ac,unexpected_push_cb);
/* Start subscribing to two channels */
TestState state = {.options = &options};
redisAsyncCommand(ac,subscribe_channel_a_cb,&state,"subscribe A");
redisAsyncCommand(ac,subscribe_channel_b_cb,&state,"subscribe B");
/* Start event dispatching loop */
assert(event_base_dispatch(base) == 0);
event_free(timeout);
event_base_free(base);
/* Verify test checkpoints */
test_cond(state.checkpoint == 6);
}
/* Command callback for test_monitor() */
void monitor_cb(redisAsyncContext *ac, void *r, void *privdata) {
redisReply *reply = r;
TestState *state = privdata;
/* NULL reply is received when BYE triggers a disconnect. */
if (reply == NULL) {
event_base_loopbreak(base);
return;
}
assert(reply != NULL && reply->type == REDIS_REPLY_STATUS);
state->checkpoint++;
if (state->checkpoint == 1) {
/* Response from MONITOR */
redisContext *c = redisConnectWithOptions(state->options);
assert(c != NULL);
redisReply *reply = redisCommand(c,"SET first 1");
assert(reply->type == REDIS_REPLY_STATUS);
freeReplyObject(reply);
redisFree(c);
} else if (state->checkpoint == 2) {
/* Response for monitored command 'SET first 1' */
assert(strstr(reply->str,"first") != NULL);
redisContext *c = redisConnectWithOptions(state->options);
assert(c != NULL);
redisReply *reply = redisCommand(c,"SET second 2");
assert(reply->type == REDIS_REPLY_STATUS);
freeReplyObject(reply);
redisFree(c);
} else if (state->checkpoint == 3) {
/* Response for monitored command 'SET second 2' */
assert(strstr(reply->str,"second") != NULL);
/* Send QUIT to disconnect */
redisAsyncCommand(ac,NULL,NULL,"QUIT");
}
}
/* Test handling of the monitor command
* - sends MONITOR to enable monitoring.
* - sends SET commands via separate clients to be monitored.
* - sends QUIT to stop monitoring and disconnect. */
static void test_monitor(struct config config) {
test("Enable monitoring: ");
/* Setup event dispatcher with a testcase timeout */
base = event_base_new();
struct event *timeout = evtimer_new(base, timeout_cb, NULL);
assert(timeout != NULL);
evtimer_assign(timeout,base,timeout_cb,NULL);
struct timeval timeout_tv = {.tv_sec = 10};
evtimer_add(timeout, &timeout_tv);
/* Connect */
redisOptions options = get_redis_tcp_options(config);
redisAsyncContext *ac = redisAsyncConnectWithOptions(&options);
assert(ac != NULL && ac->err == 0);
redisLibeventAttach(ac,base);
/* Not expecting any push messages in this test */
redisAsyncSetPushCallback(ac,unexpected_push_cb);
/* Start monitor */
TestState state = {.options = &options};
redisAsyncCommand(ac,monitor_cb,&state,"monitor");
/* Start event dispatching loop */
test_cond(event_base_dispatch(base) == 0);
event_free(timeout);
event_base_free(base);
/* Verify test checkpoints */
assert(state.checkpoint == 3);
}
#endif /* HIREDIS_TEST_ASYNC */
int main(int argc, char **argv) {
struct config cfg = {
.tcp = {
.host = "127.0.0.1",
.port = 6379
},
.unix_sock = {
.path = "/tmp/redis.sock"
}
};
int throughput = 1;
int test_inherit_fd = 1;
int skips_as_fails = 0;
int test_unix_socket;
/* Parse command line options. */
argv++; argc--;
while (argc) {
if (argc >= 2 && !strcmp(argv[0],"-h")) {
argv++; argc--;
cfg.tcp.host = argv[0];
} else if (argc >= 2 && !strcmp(argv[0],"-p")) {
argv++; argc--;
cfg.tcp.port = atoi(argv[0]);
} else if (argc >= 2 && !strcmp(argv[0],"-s")) {
argv++; argc--;
cfg.unix_sock.path = argv[0];
} else if (argc >= 1 && !strcmp(argv[0],"--skip-throughput")) {
throughput = 0;
} else if (argc >= 1 && !strcmp(argv[0],"--skip-inherit-fd")) {
test_inherit_fd = 0;
} else if (argc >= 1 && !strcmp(argv[0],"--skips-as-fails")) {
skips_as_fails = 1;
#ifdef HIREDIS_TEST_SSL
} else if (argc >= 2 && !strcmp(argv[0],"--ssl-port")) {
argv++; argc--;
cfg.ssl.port = atoi(argv[0]);
} else if (argc >= 2 && !strcmp(argv[0],"--ssl-host")) {
argv++; argc--;
cfg.ssl.host = argv[0];
} else if (argc >= 2 && !strcmp(argv[0],"--ssl-ca-cert")) {
argv++; argc--;
cfg.ssl.ca_cert = argv[0];
} else if (argc >= 2 && !strcmp(argv[0],"--ssl-cert")) {
argv++; argc--;
cfg.ssl.cert = argv[0];
} else if (argc >= 2 && !strcmp(argv[0],"--ssl-key")) {
argv++; argc--;
cfg.ssl.key = argv[0];
#endif
} else {
fprintf(stderr, "Invalid argument: %s\n", argv[0]);
exit(1);
}
argv++; argc--;
}
#ifndef _WIN32
/* Ignore broken pipe signal (for I/O error tests). */
signal(SIGPIPE, SIG_IGN);
test_unix_socket = access(cfg.unix_sock.path, F_OK) == 0;
#else
/* Unix sockets don't exist in Windows */
test_unix_socket = 0;
#endif
test_allocator_injection();
test_format_commands();
test_reply_reader();
test_blocking_connection_errors();
test_free_null();
printf("\nTesting against TCP connection (%s:%d):\n", cfg.tcp.host, cfg.tcp.port);
cfg.type = CONN_TCP;
test_blocking_connection(cfg);
test_blocking_connection_timeouts(cfg);
test_blocking_io_errors(cfg);
test_invalid_timeout_errors(cfg);
test_append_formatted_commands(cfg);
if (throughput) test_throughput(cfg);
printf("\nTesting against Unix socket connection (%s): ", cfg.unix_sock.path);
if (test_unix_socket) {
printf("\n");
cfg.type = CONN_UNIX;
test_blocking_connection(cfg);
test_blocking_connection_timeouts(cfg);
test_blocking_io_errors(cfg);
if (throughput) test_throughput(cfg);
} else {
test_skipped();
}
#ifdef HIREDIS_TEST_SSL
if (cfg.ssl.port && cfg.ssl.host) {
redisInitOpenSSL();
_ssl_ctx = redisCreateSSLContext(cfg.ssl.ca_cert, NULL, cfg.ssl.cert, cfg.ssl.key, NULL, NULL);
assert(_ssl_ctx != NULL);
printf("\nTesting against SSL connection (%s:%d):\n", cfg.ssl.host, cfg.ssl.port);
cfg.type = CONN_SSL;
test_blocking_connection(cfg);
test_blocking_connection_timeouts(cfg);
test_blocking_io_errors(cfg);
test_invalid_timeout_errors(cfg);
test_append_formatted_commands(cfg);
if (throughput) test_throughput(cfg);
redisFreeSSLContext(_ssl_ctx);
_ssl_ctx = NULL;
}
#endif
#ifdef HIREDIS_TEST_ASYNC
printf("\nTesting asynchronous API against TCP connection (%s:%d):\n", cfg.tcp.host, cfg.tcp.port);
cfg.type = CONN_TCP;
int major;
redisContext *c = do_connect(cfg);
get_redis_version(c, &major, NULL);
disconnect(c, 0);
test_pubsub_handling(cfg);
test_pubsub_multiple_channels(cfg);
test_monitor(cfg);
if (major >= 6) {
test_pubsub_handling_resp3(cfg);
test_command_timeout_during_pubsub(cfg);
}
#endif /* HIREDIS_TEST_ASYNC */
if (test_inherit_fd) {
printf("\nTesting against inherited fd (%s): ", cfg.unix_sock.path);
if (test_unix_socket) {
printf("\n");
cfg.type = CONN_FD;
test_blocking_connection(cfg);
} else {
test_skipped();
}
}
if (fails || (skips_as_fails && skips)) {
printf("*** %d TESTS FAILED ***\n", fails);
if (skips) {
printf("*** %d TESTS SKIPPED ***\n", skips);
}
return 1;
}
printf("ALL TESTS PASSED (%d skipped)\n", skips);
return 0;
}
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