From 317c0644ccf108aa23ef3fd8358bd66c2840bfc0 Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Sun, 14 Apr 2024 15:40:54 +0200 Subject: Adding upstream version 5:7.2.4. Signed-off-by: Daniel Baumann --- deps/hiredis/test.c | 2435 +++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 2435 insertions(+) create mode 100644 deps/hiredis/test.c (limited to 'deps/hiredis/test.c') diff --git a/deps/hiredis/test.c b/deps/hiredis/test.c new file mode 100644 index 0000000..f47e9ef --- /dev/null +++ b/deps/hiredis/test.c @@ -0,0 +1,2435 @@ +#include "fmacros.h" +#include "sockcompat.h" +#include +#include +#include +#ifndef _WIN32 +#include +#include +#endif +#include +#include +#include +#include +#include + +#include "hiredis.h" +#include "async.h" +#include "adapters/poll.h" +#ifdef HIREDIS_TEST_SSL +#include "hiredis_ssl.h" +#endif +#ifdef HIREDIS_TEST_ASYNC +#include "adapters/libevent.h" +#include +#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 timeval connect_timeout; + + struct { + const char *host; + int port; + } 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 void millisleep(int ms) +{ +#ifdef _MSC_VER + Sleep(ms); +#else + usleep(ms*1000); +#endif +} + +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 unhandled printf format (specifier 'p' not supported): "); + len = redisFormatCommand(&cmd,"key:%08p %b",(void*)1234,"foo",(size_t)3); + test_cond(len == -1); + + test("Format command with invalid printf format (specifier missing): "); + len = redisFormatCommand(&cmd,"%-"); + 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); + + hisds sds_cmd; + + sds_cmd = NULL; + test("Format command into hisds 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)); + hi_sdsfree(sds_cmd); + + sds_cmd = NULL; + test("Format command into hisds 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)); + hi_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_tcp_options(struct config cfg) { + redisContext *c; + + c = do_connect(cfg); + + test("We can enable TCP_KEEPALIVE: "); + test_cond(redisEnableKeepAlive(c) == REDIS_OK); + +#ifdef TCP_USER_TIMEOUT + test("We can set TCP_USER_TIMEOUT: "); + test_cond(redisSetTcpUserTimeout(c, 100) == REDIS_OK); +#else + test("Setting TCP_USER_TIMEOUT errors when unsupported: "); + test_cond(redisSetTcpUserTimeout(c, 100) == REDIS_ERR && c->err == REDIS_ERR_IO); +#endif + + redisFree(c); +} + +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); + + test("Don't reset state after protocol error(not segfault): "); + reader = redisReaderCreate(); + redisReaderFeed(reader,(char*)"*3\r\n$3\r\nSET\r\n$5\r\nhello\r\n$", 25); + ret = redisReaderGetReply(reader,&reply); + assert(ret == REDIS_OK); + redisReaderFeed(reader,(char*)"3\r\nval\r\n", 8); + ret = redisReaderGetReply(reader,&reply); + test_cond(ret == REDIS_OK && + ((redisReply*)reply)->type == REDIS_REPLY_ARRAY && + ((redisReply*)reply)->elements == 3); + freeReplyObject(reply); + 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("Correctly parses RESP3 double NaN: "); + reader = redisReaderCreate(); + redisReaderFeed(reader, ",nan\r\n",6); + ret = redisReaderGetReply(reader,&reply); + test_cond(ret == REDIS_OK && + ((redisReply*)reply)->type == REDIS_REPLY_DOUBLE && + isnan(((redisReply*)reply)->dval)); + freeReplyObject(reply); + redisReaderFree(reader); + + test("Correctly parses RESP3 double -Nan: "); + reader = redisReaderCreate(); + redisReaderFeed(reader, ",-nan\r\n", 7); + ret = redisReaderGetReply(reader, &reply); + test_cond(ret == REDIS_OK && + ((redisReply*)reply)->type == REDIS_REPLY_DOUBLE && + isnan(((redisReply*)reply)->dval)); + 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); + + test("Can parse RESP3 doubles in an array: "); + reader = redisReaderCreate(); + redisReaderFeed(reader, "*1\r\n,3.14159265358979323846\r\n",31); + ret = redisReaderGetReply(reader,&reply); + test_cond(ret == REDIS_OK && + ((redisReply*)reply)->type == REDIS_REPLY_ARRAY && + ((redisReply*)reply)->elements == 1 && + ((redisReply*)reply)->element[0]->type == REDIS_REPLY_DOUBLE && + fabs(((redisReply*)reply)->element[0]->dval - 3.14159265358979323846) < 0.00000001 && + ((redisReply*)reply)->element[0]->len == 22 && + strcmp(((redisReply*)reply)->element[0]->str, "3.14159265358979323846") == 0); + 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) { + struct addrinfo hints = {.ai_family = AF_INET}; + struct addrinfo *ai_tmp = NULL; + redisContext *c; + + 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, "node name or service name 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 + redisOptions opt = {0}; + struct timeval tv; + + 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); + + + /* Verify we don't regress from the fix in PR #1180 */ + test("We don't clobber connection exception with setsockopt error: "); + tv = (struct timeval){.tv_sec = 0, .tv_usec = 500000}; + opt.command_timeout = opt.connect_timeout = &tv; + REDIS_OPTIONS_SET_TCP(&opt, "localhost", 10337); + c = redisConnectWithOptions(&opt); + 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"); + /* We need another command because depending on the version of Redis, the + * notification may be delivered after the command's reply. */ + assert(reply != NULL); + freeReplyObject(reply); + reply = redisCommand(c, "PING"); + 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"); + assert(reply != NULL); + freeReplyObject(reply); + reply = redisCommand(c, "PING"); + 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); + /* Depending on Redis version, we may receive either push notification or + * status reply. Both cases are valid. */ + if (reply->type == REDIS_REPLY_STATUS) { + freeReplyObject(reply); + reply = redisCommand(c, "PING"); + } + 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); + + test("Send command by passing argc/argv: "); + const char *argv[3] = {"SET", "foo", "bar"}; + size_t argvlen[3] = {3, 3, 3}; + reply = redisCommandArgv(c,3,argv,argvlen); + test_cond(reply->type == REDIS_REPLY_STATUS); + 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)); + + // flush connection buffer without waiting for the reply + s = c->funcs->write(c); + assert(s == (ssize_t)hi_sdslen(c->obuf)); + hi_sdsfree(c->obuf); + c->obuf = hi_sdsempty(); + + 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); + + // wait for the DEBUG SLEEP to complete so that Redis server is unblocked for the following tests + millisleep(3000); + } 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 used during connect: "); + + config.connect_timeout.tv_sec = 0; + config.connect_timeout.tv_usec = 10000001; + + if (config.type == CONN_TCP || config.type == CONN_SSL) { + c = redisConnectWithTimeout(config.tcp.host, config.tcp.port, config.connect_timeout); + } else if(config.type == CONN_UNIX) { + c = redisConnectUnixWithTimeout(config.unix_sock.path, config.connect_timeout); + } else { + assert(NULL); + } + + 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 used during connect: "); + + config.connect_timeout.tv_sec = (((LONG_MAX) - 999) / 1000) + 1; + config.connect_timeout.tv_usec = 0; + + if (config.type == CONN_TCP || config.type == CONN_SSL) { + c = redisConnectWithTimeout(config.tcp.host, config.tcp.port, config.connect_timeout); + } else if(config.type == CONN_UNIX) { + c = redisConnectUnixWithTimeout(config.unix_sock.path, config.connect_timeout); + } else { + assert(NULL); + } + + 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 + +#pragma GCC diagnostic ignored "-Woverlength-strings" /* required on gcc 4.8.x due to assert statements */ + +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 channel X & Z which we don't subscribe to */ + redisAsyncCommand(ac,unexpected_cb, + (void*)"unsubscribe should not call unexpected_cb()", + "unsubscribe B X A A Z"); + /* Unsubscribe to patterns, none which we subscribe to */ + redisAsyncCommand(ac,unexpected_cb, + (void*)"punsubscribe should not call unexpected_cb()", + "punsubscribe"); + /* 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; + (void)ac; + + 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, A and Z + * where channel X and Z are not subscribed to. + * - the published message also triggers an unsubscribe to patterns. Since no + * pattern is subscribed to the responded pattern element type is NIL. + * - 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 */ + +/* tests for async api using polling adapter, requires no extra libraries*/ + +/* enum for the test cases, the callbacks have different logic based on them */ +typedef enum astest_no +{ + ASTEST_CONNECT=0, + ASTEST_CONN_TIMEOUT, + ASTEST_PINGPONG, + ASTEST_PINGPONG_TIMEOUT, + ASTEST_ISSUE_931, + ASTEST_ISSUE_931_PING +}astest_no; + +/* a static context for the async tests */ +struct _astest { + redisAsyncContext *ac; + astest_no testno; + int counter; + int connects; + int connect_status; + int disconnects; + int pongs; + int disconnect_status; + int connected; + int err; + char errstr[256]; +}; +static struct _astest astest; + +/* async callbacks */ +static void asCleanup(void* data) +{ + struct _astest *t = (struct _astest *)data; + t->ac = NULL; +} + +static void commandCallback(struct redisAsyncContext *ac, void* _reply, void* _privdata); + +static void connectCallback(redisAsyncContext *c, int status) { + struct _astest *t = (struct _astest *)c->data; + assert(t == &astest); + assert(t->connects == 0); + t->err = c->err; + strcpy(t->errstr, c->errstr); + t->connects++; + t->connect_status = status; + t->connected = status == REDIS_OK ? 1 : -1; + + if (t->testno == ASTEST_ISSUE_931) { + /* disconnect again */ + redisAsyncDisconnect(c); + } + else if (t->testno == ASTEST_ISSUE_931_PING) + { + redisAsyncCommand(c, commandCallback, NULL, "PING"); + } +} +static void disconnectCallback(const redisAsyncContext *c, int status) { + assert(c->data == (void*)&astest); + assert(astest.disconnects == 0); + astest.err = c->err; + strcpy(astest.errstr, c->errstr); + astest.disconnects++; + astest.disconnect_status = status; + astest.connected = 0; +} + +static void commandCallback(struct redisAsyncContext *ac, void* _reply, void* _privdata) +{ + redisReply *reply = (redisReply*)_reply; + struct _astest *t = (struct _astest *)ac->data; + assert(t == &astest); + (void)_privdata; + t->err = ac->err; + strcpy(t->errstr, ac->errstr); + t->counter++; + if (t->testno == ASTEST_PINGPONG ||t->testno == ASTEST_ISSUE_931_PING) + { + assert(reply != NULL && reply->type == REDIS_REPLY_STATUS && strcmp(reply->str, "PONG") == 0); + t->pongs++; + redisAsyncFree(ac); + } + if (t->testno == ASTEST_PINGPONG_TIMEOUT) + { + /* two ping pongs */ + assert(reply != NULL && reply->type == REDIS_REPLY_STATUS && strcmp(reply->str, "PONG") == 0); + t->pongs++; + if (t->counter == 1) { + int status = redisAsyncCommand(ac, commandCallback, NULL, "PING"); + assert(status == REDIS_OK); + } else { + redisAsyncFree(ac); + } + } +} + +static redisAsyncContext *do_aconnect(struct config config, astest_no testno) +{ + redisOptions options = {0}; + memset(&astest, 0, sizeof(astest)); + + astest.testno = testno; + astest.connect_status = astest.disconnect_status = -2; + + if (config.type == CONN_TCP) { + options.type = REDIS_CONN_TCP; + options.connect_timeout = &config.connect_timeout; + REDIS_OPTIONS_SET_TCP(&options, config.tcp.host, config.tcp.port); + } else if (config.type == CONN_SSL) { + options.type = REDIS_CONN_TCP; + options.connect_timeout = &config.connect_timeout; + REDIS_OPTIONS_SET_TCP(&options, config.ssl.host, config.ssl.port); + } else if (config.type == CONN_UNIX) { + options.type = REDIS_CONN_UNIX; + options.endpoint.unix_socket = config.unix_sock.path; + } else if (config.type == CONN_FD) { + options.type = REDIS_CONN_USERFD; + /* Create a dummy connection just to get an fd to inherit */ + redisContext *dummy_ctx = redisConnectUnix(config.unix_sock.path); + if (dummy_ctx) { + redisFD fd = disconnect(dummy_ctx, 1); + printf("Connecting to inherited fd %d\n", (int)fd); + options.endpoint.fd = fd; + } + } + redisAsyncContext *c = redisAsyncConnectWithOptions(&options); + assert(c); + astest.ac = c; + c->data = &astest; + c->dataCleanup = asCleanup; + redisPollAttach(c); + redisAsyncSetConnectCallbackNC(c, connectCallback); + redisAsyncSetDisconnectCallback(c, disconnectCallback); + return c; +} + +static void as_printerr(void) { + printf("Async err %d : %s\n", astest.err, astest.errstr); +} + +#define ASASSERT(e) do { \ + if (!(e)) \ + as_printerr(); \ + assert(e); \ +} while (0); + +static void test_async_polling(struct config config) { + int status; + redisAsyncContext *c; + struct config defaultconfig = config; + + test("Async connect: "); + c = do_aconnect(config, ASTEST_CONNECT); + assert(c); + while(astest.connected == 0) + redisPollTick(c, 0.1); + assert(astest.connects == 1); + ASASSERT(astest.connect_status == REDIS_OK); + assert(astest.disconnects == 0); + test_cond(astest.connected == 1); + + test("Async free after connect: "); + assert(astest.ac != NULL); + redisAsyncFree(c); + assert(astest.disconnects == 1); + assert(astest.ac == NULL); + test_cond(astest.disconnect_status == REDIS_OK); + + if (config.type == CONN_TCP || config.type == CONN_SSL) { + /* timeout can only be simulated with network */ + test("Async connect timeout: "); + config.tcp.host = "192.168.254.254"; /* blackhole ip */ + config.connect_timeout.tv_usec = 100000; + c = do_aconnect(config, ASTEST_CONN_TIMEOUT); + assert(c); + assert(c->err == 0); + while(astest.connected == 0) + redisPollTick(c, 0.1); + assert(astest.connected == -1); + /* + * freeing should not be done, clearing should have happened. + *redisAsyncFree(c); + */ + assert(astest.ac == NULL); + test_cond(astest.connect_status == REDIS_ERR); + config = defaultconfig; + } + + /* Test a ping/pong after connection */ + test("Async PING/PONG: "); + c = do_aconnect(config, ASTEST_PINGPONG); + while(astest.connected == 0) + redisPollTick(c, 0.1); + status = redisAsyncCommand(c, commandCallback, NULL, "PING"); + assert(status == REDIS_OK); + while(astest.ac) + redisPollTick(c, 0.1); + test_cond(astest.pongs == 1); + + /* Test a ping/pong after connection that didn't time out. + * see https://github.com/redis/hiredis/issues/945 + */ + if (config.type == CONN_TCP || config.type == CONN_SSL) { + test("Async PING/PONG after connect timeout: "); + config.connect_timeout.tv_usec = 10000; /* 10ms */ + c = do_aconnect(config, ASTEST_PINGPONG_TIMEOUT); + while(astest.connected == 0) + redisPollTick(c, 0.1); + /* sleep 0.1 s, allowing old timeout to arrive */ + millisleep(10); + status = redisAsyncCommand(c, commandCallback, NULL, "PING"); + assert(status == REDIS_OK); + while(astest.ac) + redisPollTick(c, 0.1); + test_cond(astest.pongs == 2); + config = defaultconfig; + } + + /* Test disconnect from an on_connect callback + * see https://github.com/redis/hiredis/issues/931 + */ + test("Disconnect from onConnected callback (Issue #931): "); + c = do_aconnect(config, ASTEST_ISSUE_931); + while(astest.disconnects == 0) + redisPollTick(c, 0.1); + assert(astest.connected == 0); + assert(astest.connects == 1); + test_cond(astest.disconnects == 1); + + /* Test ping/pong from an on_connect callback + * see https://github.com/redis/hiredis/issues/931 + */ + test("Ping/Pong from onConnected callback (Issue #931): "); + c = do_aconnect(config, ASTEST_ISSUE_931_PING); + /* connect callback issues ping, reponse callback destroys context */ + while(astest.ac) + redisPollTick(c, 0.1); + assert(astest.connected == 0); + assert(astest.connects == 1); + assert(astest.disconnects == 1); + test_cond(astest.pongs == 1); +} +/* End of Async polling_adapter driven tests */ + +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); + test_tcp_options(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); + test_invalid_timeout_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 + cfg.type = CONN_TCP; + 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 */ + + cfg.type = CONN_TCP; + printf("\nTesting asynchronous API using polling_adapter TCP (%s:%d):\n", cfg.tcp.host, cfg.tcp.port); + test_async_polling(cfg); + if (test_unix_socket) { + cfg.type = CONN_UNIX; + printf("\nTesting asynchronous API using polling_adapter UNIX (%s):\n", cfg.unix_sock.path); + test_async_polling(cfg); + } + + 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; +} -- cgit v1.2.3