/* * ModSecurity for Apache 2.x, http://www.modsecurity.org/ * Copyright (c) 2004-2013 Trustwave Holdings, Inc. (http://www.trustwave.com/) * * You may not use this file except in compliance with * the License.  You may obtain a copy of the License at * *     http://www.apache.org/licenses/LICENSE-2.0 * * If any of the files related to licensing are missing or if you have any * other questions related to licensing please contact Trustwave Holdings, Inc. * directly using the email address security@modsecurity.org. */ #include #include #include "modsecurity.h" #include "re.h" #define ISHEX(X) (((X >= '0')&&(X <= '9')) || ((X >= 'a')&&(X <= 'f')) || ((X >= 'A')&&(X <= 'F'))) #define BUFLEN 32768 #define RESULT_SUCCESS 0 #define RESULT_ERROR -1 #define RESULT_MISMATCHED -2 #define RESULT_WRONGSIZE -3 #define RESULT_WRONGRET -4 #define DEFAULT_ACTION "phase:2,log,auditlog,pass" #define CMDLINE_OPTS "t:n:p:P:r:I:D:Nh" /* Types */ typedef struct tfn_data_t tfn_data_t; typedef struct op_data_t op_data_t; typedef struct action_data_t action_data_t; struct tfn_data_t { const char *name; const char *param; unsigned char *input; apr_size_t input_len; msre_tfn_metadata *metadata; }; struct op_data_t { const char *name; const char *param; unsigned char *input; apr_size_t input_len; msre_ruleset *ruleset; msre_rule *rule; msre_var *var; msre_op_metadata *metadata; }; struct action_data_t { const char *name; unsigned char *input; apr_size_t input_len; msre_ruleset *ruleset; msre_rule *rule; msre_var *var; msre_actionset *actionset; msre_action *action; }; /* Globals */ static int debuglog_level = 0; static char *test_name = NULL; static apr_pool_t *g_mp = NULL; static modsec_rec *g_msr = NULL; static unsigned char buf[BUFLEN]; msc_engine *modsecurity = NULL; unsigned long int DSOLOCAL msc_pcre_match_limit = 0; unsigned long int DSOLOCAL msc_pcre_match_limit_recursion = 0; char DSOLOCAL *real_server_signature = NULL; int DSOLOCAL remote_rules_fail_action = REMOTE_RULES_ABORT_ON_FAIL; char DSOLOCAL *remote_rules_fail_message = NULL; module AP_MODULE_DECLARE_DATA security2_module = { NULL, NULL, NULL, NULL, NULL, NULL, NULL }; /* Stubs */ char *format_error_log_message(apr_pool_t *mp, error_message_t *em) { return "FAKE ERROR LOG MESSAGE"; } apr_status_t send_error_bucket(modsec_rec *msr, ap_filter_t *f, int status) { return APR_SUCCESS; } int apache2_exec(modsec_rec *msr, const char *command, const char **argv, char **output) { return 0; } char *get_apr_error(apr_pool_t *p, apr_status_t rc) { char *text = apr_pcalloc(p, 201); if (text == NULL) return NULL; apr_strerror(rc, text, 200); return text; } void msr_log(modsec_rec *msr, int level, const char *text, ...) { va_list ap; char str1[1024] = ""; char str2[1256] = ""; if ((msr == NULL) || (level > msr->txcfg->debuglog_level)) { return; } if (msr->txcfg->debuglog_fd == NOT_SET_P) { if (apr_file_open(&msr->txcfg->debuglog_fd, msr->txcfg->debuglog_name, APR_READ|APR_WRITE|APR_CREATE|APR_APPEND|APR_BINARY, APR_OS_DEFAULT, g_mp) != APR_SUCCESS) { fprintf(stderr, "ERROR: failed to create unit test debug log \"%s\".\n", msr->txcfg->debuglog_name); msr->txcfg->debuglog_fd = NULL; } } va_start(ap, text); if (msr->txcfg->debuglog_fd != NULL) { apr_size_t nbytes_written = 0; apr_vsnprintf(str1, sizeof(str1), text, ap); apr_snprintf(str2, sizeof(str2), "%lu: [%d] [%s] %s\n", (unsigned long)getpid(), level, test_name, str1); apr_file_write_full(msr->txcfg->debuglog_fd, str2, strlen(str2), &nbytes_written); } va_end(ap); } void msr_log_error(modsec_rec *msr, const char *text, ...) { va_list ap; int level = 3; char str1[1024] = ""; char str2[1256] = ""; if ((msr == NULL) || (level > msr->txcfg->debuglog_level)) { return; } if (msr->txcfg->debuglog_fd == NOT_SET_P) { if (apr_file_open(&msr->txcfg->debuglog_fd, msr->txcfg->debuglog_name, APR_READ|APR_WRITE|APR_CREATE|APR_APPEND|APR_BINARY, APR_OS_DEFAULT, g_mp) != APR_SUCCESS) { fprintf(stderr, "ERROR: failed to create unit test debug log \"%s\".\n", msr->txcfg->debuglog_name); msr->txcfg->debuglog_fd = NULL; } } va_start(ap, text); if (msr->txcfg->debuglog_fd != NULL) { apr_size_t nbytes_written = 0; apr_vsnprintf(str1, sizeof(str1), text, ap); apr_snprintf(str2, sizeof(str2), "%lu: [%d] [%s] %s\n", (unsigned long)getpid(), level, test_name, str1); apr_file_write_full(msr->txcfg->debuglog_fd, str2, strlen(str2), &nbytes_written); } va_end(ap); } void msr_log_warn(modsec_rec *msr, const char *text, ...) { va_list ap; int level = 4; char str1[1024] = ""; char str2[1256] = ""; if ((msr == NULL) || (level > msr->txcfg->debuglog_level)) { return; } if (msr->txcfg->debuglog_fd == NOT_SET_P) { if (apr_file_open(&msr->txcfg->debuglog_fd, msr->txcfg->debuglog_name, APR_READ|APR_WRITE|APR_CREATE|APR_APPEND|APR_BINARY, APR_OS_DEFAULT, g_mp) != APR_SUCCESS) { fprintf(stderr, "ERROR: failed to create unit test debug log \"%s\".\n", msr->txcfg->debuglog_name); msr->txcfg->debuglog_fd = NULL; } } va_start(ap, text); if (msr->txcfg->debuglog_fd != NULL) { apr_size_t nbytes_written = 0; apr_vsnprintf(str1, sizeof(str1), text, ap); apr_snprintf(str2, sizeof(str2), "%lu: [%d] [%s] %s\n", (unsigned long)getpid(), level, test_name, str1); apr_file_write_full(msr->txcfg->debuglog_fd, str2, strlen(str2), &nbytes_written); } va_end(ap); } #define ap_get_remote_host(a, b, c, d) test_ap_get_remote_host(a, b, c, d) const char *test_ap_get_remote_host(conn_rec *conn, void *dir_config, int type, int *str_is_ip) { return "FAKE-REMOTE-HOST"; } char *get_env_var(request_rec *r, char *name) { return "FAKE-ENV-VAR"; } #define unixd_set_global_mutex_perms(a) my_unixd_set_global_mutex_perms(a) apr_status_t my_unixd_set_global_mutex_perms(apr_global_mutex_t *gmutex) { return APR_SUCCESS; } #define unixd_set_proc_mutex_perms(a) my_unixd_set_proc_mutex_perms(a) apr_status_t my_unixd_set_proc_mutex_perms(apr_proc_mutex_t *pmutex) { return APR_SUCCESS; } /* Escaping functions */ static unsigned char hex2dec(unsigned char *what) { register unsigned char digit; digit = (what[0] >= 'A' ? ((what[0] & 0xdf) - 'A') + 10 : (what[0] - '0')); digit *= 16; digit += (what[1] >= 'A' ? ((what[1] & 0xdf) - 'A') + 10 : (what[1] - '0')); return digit; } static unsigned char *unescape_inplace(unsigned char *str, apr_size_t *len) { apr_size_t i, j; for (i = j = 0; i < *len; j++) { if ((str[i] == '\\') && (i + 3 < *len) && (str[i + 1] == 'x') && ISHEX(str[i + 2]) && ISHEX(str[i + 3]) ) { str[j] = hex2dec(str + i + 2); i += 4; } else { str[j] = str[i++]; } } *len = j; while (j < i) { str[j++] = '\0'; } return str; } static char *escape(unsigned char *str, apr_size_t *len) { char *new = apr_pcalloc(g_mp, (*len * 4) + 1); apr_size_t i, j; for (i = j = 0; i < *len; i++) { if ((str[i] >= 0x20) && (str[i] <= 0x7e)) { new[j++] = str[i]; } else { sprintf(new + j, "\\x%02x", str[i]); j += 4; } } *len = j; return new; } /* Testing functions */ static int init_tfn(tfn_data_t *data, const char *name, unsigned char *input, apr_size_t input_len, char **errmsg) { *errmsg = NULL; data->name = name; data->input = apr_pmemdup(g_mp, input, input_len); data->input_len = input_len; data->metadata = msre_engine_tfn_resolve(modsecurity->msre, name); if (data->metadata == NULL) { *errmsg = apr_psprintf(g_mp, "Failed to fetch tfn \"%s\".", name); return -1; } return 0; } static int test_tfn(tfn_data_t *data, unsigned char **rval, apr_size_t *rval_len, char **errmsg) { int rc = -1; *errmsg = NULL; /* Execute the tfn */ rc = data->metadata->execute(g_mp, data->input, (long)(data->input_len), (char **)rval, (long *)rval_len); if (rc < 0) { *errmsg = apr_psprintf(g_mp, "Failed to execute tfn \"%s\".", data->name); } return rc; } static int init_op(op_data_t *data, const char *name, const char *param, unsigned char *input, apr_size_t input_len, char **errmsg) { const char *args = apr_psprintf(g_mp, "@%s %s", name, param); char *conf_fn; int rc = -1; *errmsg = NULL; data->name = name; data->param = param; data->input = input; data->input_len = input_len; if ( apr_filepath_merge(&conf_fn, NULL, "unit-test.conf", APR_FILEPATH_TRUENAME, g_mp) != APR_SUCCESS) { *errmsg = apr_psprintf(g_mp, "Failed to build a conf filename."); return -1; } /* Register UNIT_TEST variable */ msre_engine_variable_register(modsecurity->msre, "UNIT_TEST", VAR_SIMPLE, 0, 0, NULL, NULL, VAR_DONT_CACHE, PHASE_REQUEST_HEADERS ); /* Lookup the operator */ data->metadata = msre_engine_op_resolve(modsecurity->msre, name); if (data->metadata == NULL) { *errmsg = apr_psprintf(g_mp, "Failed to fetch op \"%s\".", name); return -1; } /* Create a ruleset/rule */ data->ruleset = msre_ruleset_create(modsecurity->msre, g_mp); if (data->ruleset == NULL) { *errmsg = apr_psprintf(g_mp, "Failed to create ruleset for op \"%s\".", name); return -1; } data->rule = msre_rule_create(data->ruleset, RULE_TYPE_NORMAL, conf_fn, 1, "UNIT_TEST", args, DEFAULT_ACTION, errmsg); if (data->rule == NULL) { *errmsg = apr_psprintf(g_mp, "Failed to create rule for op \"%s\": %s", name, *errmsg); return -1; } /* Create a fake variable */ data->var = (msre_var *)apr_pcalloc(g_mp, sizeof(msre_var)); data->var->name = "UNIT_TEST"; data->var->value = apr_pstrmemdup(g_mp, (char *)input, input_len); data->var->value_len = input_len; data->var->metadata = msre_resolve_var(modsecurity->msre, data->var->name); if (data->var->metadata == NULL) { *errmsg = apr_psprintf(g_mp, "Failed to resolve variable for op \"%s\": %s", name, data->var->name); return -1; } /* Initialize the operator parameter */ if (data->metadata->param_init != NULL) { rc = data->metadata->param_init(data->rule, errmsg); if (rc <= 0) { *errmsg = apr_psprintf(g_mp, "Failed to init op \"%s\": %s", name, *errmsg); return rc; } } return 0; } static int test_op(op_data_t *data, char **errmsg) { int rc = -1; *errmsg = NULL; /* Execute the operator */ if (data->metadata->execute != NULL) { rc = data->metadata->execute(g_msr, data->rule, data->var, errmsg); if (rc < 0) { *errmsg = apr_psprintf(g_mp, "Failed to execute op \"%s\": %s", data->name, *errmsg); } } return rc; } static int init_action(action_data_t *data, const char *name, const char *param, char **errmsg) { const char *action_string = NULL; char *conf_fn; *errmsg = NULL; if ((param == NULL) || (strcmp("", param) == 0)) { action_string = apr_psprintf(g_mp, "%s", name); } else { action_string = apr_psprintf(g_mp, "%s:%s", name, param); } if (action_string == NULL) { *errmsg = apr_psprintf(g_mp, "Failed to build action string for action: \"%s\".", name); return -1; } if ( apr_filepath_merge(&conf_fn, NULL, "unit-test.conf", APR_FILEPATH_TRUENAME, g_mp) != APR_SUCCESS) { *errmsg = apr_psprintf(g_mp, "Failed to build a conf filename."); return -1; } /* Register UNIT_TEST variable */ msre_engine_variable_register(modsecurity->msre, "UNIT_TEST", VAR_SIMPLE, 0, 0, NULL, NULL, VAR_DONT_CACHE, PHASE_REQUEST_HEADERS ); /* Create a ruleset/rule */ data->ruleset = msre_ruleset_create(modsecurity->msre, g_mp); if (data->ruleset == NULL) { *errmsg = apr_psprintf(g_mp, "Failed to create ruleset for action \"%s\".", name); return -1; } data->rule = msre_rule_create(data->ruleset, RULE_TYPE_NORMAL, conf_fn, 1, "UNIT_TEST", "@unconditionalMatch", action_string, errmsg); if (data->rule == NULL) { *errmsg = apr_psprintf(g_mp, "Failed to create rule for action \"%s\": %s", name, *errmsg); return -1; } /* Get the actionset/action */ data->actionset = data->rule->actionset; if (data->actionset == NULL) { *errmsg = apr_psprintf(g_mp, "Failed to fetch actionset for action \"%s\"", name); return -1; } data->action = (msre_action *)apr_table_get(data->actionset->actions, name); if (data->action == NULL) { *errmsg = apr_psprintf(g_mp, "Failed to fetch action for action \"%s\"", name); return -1; } return 0; } static int test_action(action_data_t *data, char **errmsg) { int rc = -1; *errmsg = NULL; /* Execute the action */ if (data->action->metadata->execute != NULL) { rc = data->action->metadata->execute(g_msr, g_mp, data->rule, data->action); if (rc < 0) { *errmsg = apr_psprintf(g_mp, "Failed to execute action \"%s\": %d", data->name, rc); } } return rc; } /* Initialization */ static void init_msr(void) { directory_config *dcfg = NULL; request_rec *r = NULL; r = (request_rec *)apr_pcalloc(g_mp, sizeof(request_rec)); dcfg = (directory_config *)apr_pcalloc(g_mp, sizeof(directory_config)); dcfg->is_enabled = 0; dcfg->reqbody_access = 0; dcfg->reqbody_buffering = 0; dcfg->reqbody_inmemory_limit = REQUEST_BODY_DEFAULT_INMEMORY_LIMIT; dcfg->reqbody_limit = REQUEST_BODY_DEFAULT_LIMIT; dcfg->reqbody_no_files_limit = REQUEST_BODY_NO_FILES_DEFAULT_LIMIT; dcfg->resbody_access = 0; dcfg->of_limit = RESPONSE_BODY_DEFAULT_LIMIT; dcfg->of_limit_action = RESPONSE_BODY_LIMIT_ACTION_REJECT; dcfg->debuglog_fd = NOT_SET_P; dcfg->debuglog_name = "msc-test-debug.log"; dcfg->debuglog_level = debuglog_level; dcfg->cookie_format = 0; dcfg->argument_separator = '&'; dcfg->rule_inheritance = 0; dcfg->auditlog_flag = 0; dcfg->auditlog_type = AUDITLOG_SERIAL; dcfg->auditlog_fd = NULL; dcfg->auditlog2_fd = NULL; dcfg->auditlog_name = NULL; dcfg->auditlog2_name = NULL; dcfg->auditlog_storage_dir = NULL; dcfg->auditlog_parts = "ABCFHZ"; dcfg->auditlog_relevant_regex = NULL; dcfg->tmp_dir = guess_tmp_dir(g_mp); dcfg->upload_dir = NULL; dcfg->upload_keep_files = KEEP_FILES_OFF; dcfg->upload_validates_files = 0; dcfg->data_dir = "."; dcfg->webappid = "default"; dcfg->content_injection_enabled = 0; dcfg->geo = NULL; dcfg->cache_trans = MODSEC_CACHE_ENABLED; dcfg->cache_trans_min = 15; dcfg->cache_trans_max = 0; dcfg->request_encoding = NULL; g_msr = (modsec_rec *)apr_pcalloc(g_mp, sizeof(modsec_rec)); g_msr->modsecurity = modsecurity; g_msr->mp = g_mp; g_msr->r = r; g_msr->r_early = r; g_msr->request_time = apr_time_now(); g_msr->dcfg1 = NULL; g_msr->usercfg = NULL; g_msr->txcfg = dcfg; g_msr->txid = "FAKE-TXID"; g_msr->error_messages = NULL; g_msr->alerts = NULL; g_msr->server_software = "FAKE-SERVER-SOFTWARE"; g_msr->local_addr = "127.0.0.1"; g_msr->local_port = 80; g_msr->remote_addr = "127.0.0.1"; g_msr->remote_port = 1080; g_msr->request_line = "GET /unit-tests HTTP/1.1"; g_msr->request_uri = "http://localhost/unit-tests"; g_msr->request_method = "GET"; g_msr->query_string = ""; g_msr->request_protocol = "HTTP/1.1"; g_msr->request_headers = NULL; g_msr->hostname = "localhost"; g_msr->msc_rule_mptmp = g_mp; g_msr->tx_vars = apr_table_make(g_mp, 1); g_msr->collections_original = apr_table_make(g_mp, 1); g_msr->collections = apr_table_make(g_mp, 1); g_msr->collections_dirty = apr_table_make(g_mp, 1); } /** * Usage text. */ static void usage(void) { fprintf(stderr, "ModSecurity Unit Tester v%s\n", MODSEC_VERSION); fprintf(stderr, " Usage: msc_test [options]\n"); fprintf(stderr, "\n"); fprintf(stderr, " Options:\n"); fprintf(stderr, " -t Type (required)\n"); fprintf(stderr, " -n Name (required)\n"); fprintf(stderr, " -p Parameter (required)\n"); fprintf(stderr, " -P Prerun (optional for actions)\n"); fprintf(stderr, " -r Function return code (required for some types)\n"); fprintf(stderr, " -I Iterations (default 1)\n"); fprintf(stderr, " -D Debug log level (default 0)\n"); fprintf(stderr, " -N No input on stdin.\n\n"); fprintf(stderr, " -h This help\n\n"); fprintf(stderr, "\n"); fprintf(stderr, "Input is from stdin unless -N is used.\n"); } /* Main */ int main(int argc, const char * const argv[]) { apr_getopt_t *opt; apr_file_t *fd; apr_size_t nbytes = 0; const char *type = NULL; const char *name = NULL; unsigned char *param = NULL; unsigned char *prerun = NULL; const char *returnval = NULL; int iterations = 1; char *errmsg = NULL; unsigned char *out = NULL; apr_size_t param_len = 0; apr_size_t prerun_len = 0; apr_size_t out_len = 0; int noinput = 0; int rc = 0; int result = 0; int ec = 0; int i; apr_time_t T0 = 0; apr_time_t T1 = 0; tfn_data_t tfn_data; op_data_t op_data; action_data_t action_data; int ret = 0; memset(&tfn_data, 0, sizeof(tfn_data_t)); memset(&op_data, 0, sizeof(op_data_t)); memset(&action_data, 0, sizeof(action_data_t)); apr_app_initialize(&argc, &argv, NULL); atexit(apr_terminate); apr_pool_create(&g_mp, NULL); rc = apr_getopt_init(&opt, g_mp, argc, argv); if (rc != APR_SUCCESS) { fprintf(stderr, "Failed to initialize.\n\n"); usage(); exit(1); } do { char ch; const char *val; rc = apr_getopt(opt, CMDLINE_OPTS, &ch, &val); switch (rc) { case APR_SUCCESS: switch (ch) { case 't': type = val; break; case 'n': name = val; break; case 'p': param_len = strlen(val); param = apr_pmemdup(g_mp, val, param_len + 1); unescape_inplace(param, ¶m_len); break; case 'P': prerun_len = strlen(val); prerun = apr_pmemdup(g_mp, val, prerun_len + 1); unescape_inplace(prerun, &prerun_len); break; case 'r': returnval = val; break; case 'I': iterations = atoi(val); break; case 'D': debuglog_level = atoi(val); break; case 'N': noinput = 1; break; case 'h': usage(); exit(0); } break; case APR_BADCH: case APR_BADARG: usage(); exit(1); } } while (rc != APR_EOF); rc = apr_getopt_init(&opt, g_mp, argc, argv); if (!type || !name || !param) { usage(); exit(1); } modsecurity = modsecurity_create(g_mp, MODSEC_OFFLINE); test_name = apr_psprintf(g_mp, "%s/%s", type, name); if (noinput == 0) { if (apr_file_open_stdin(&fd, g_mp) != APR_SUCCESS) { fprintf(stderr, "Failed to open stdin\n"); exit(1); } /* Read in the input */ nbytes = BUFLEN; memset(buf, 0, nbytes); rc = apr_file_read(fd, buf, &nbytes); if ((rc != APR_EOF) && (rc != APR_SUCCESS)) { fprintf(stderr, "Failed to read data\n"); exit(1); } if (nbytes < 0) { fprintf(stderr, "Error reading data\n"); exit(1); } apr_file_close(fd); } if (strcmp("tfn", type) == 0) { ret = returnval ? atoi(returnval) : -8888; rc = init_tfn(&tfn_data, name, buf, nbytes, &errmsg); if (rc < 0) { fprintf(stderr, "ERROR: %s\n", errmsg); result = RESULT_ERROR; } } else if (strcmp("op", type) == 0) { if (!returnval) { fprintf(stderr, "Return value required for type \"%s\"\n", type); exit(1); } ret = atoi(returnval); init_msr(); rc = init_op(&op_data, name, (const char *)param, buf, nbytes, &errmsg); if (rc < 0) { fprintf(stderr, "ERROR: %s\n", errmsg); result = RESULT_ERROR; } } else if (strcmp("action", type) == 0) { if (!returnval) { fprintf(stderr, "Return value required for type \"%s\"\n", type); exit(1); } ret = atoi(returnval); init_msr(); if (prerun) { action_data_t paction_data; char *pname = apr_pstrdup(g_mp, (const char *)prerun); char *pparam = NULL; if ((pparam = strchr((const char *)pname, ':'))) { pparam[0] = '\0'; pparam++; } rc = init_action(&paction_data, pname, (const char *)pparam, &errmsg); if (rc < 0) { fprintf(stderr, "ERROR: prerun - %s\n", errmsg); exit(1); } rc = test_action(&paction_data, &errmsg); if (rc < 0) { fprintf(stderr, "ERROR: prerun - %s\n", errmsg); exit(1); } } rc = init_action(&action_data, name, (const char *)param, &errmsg); if (rc < 0) { fprintf(stderr, "ERROR: %s\n", errmsg); result = RESULT_ERROR; } } if (iterations > 1) { apr_time_clock_hires (g_mp); T0 = apr_time_now(); } for (i = 1; i <= iterations; i++) { #ifdef VERBOSE if (i % 100 == 0) { if (i == 100) { fprintf(stderr, "Iterations/100: ."); } else { fprintf(stderr, "."); } } #endif if (strcmp("tfn", type) == 0) { /* Transformations */ rc = test_tfn(&tfn_data, &out, &out_len, &errmsg); if (rc < 0) { fprintf(stderr, "ERROR: %s\n", errmsg); result = RESULT_ERROR; } else if ((ret != -8888) && (rc != ret)) { fprintf(stderr, "Returned %d (expected %d)\n", rc, ret); result = RESULT_WRONGRET; } else if (param_len != out_len) { fprintf(stderr, "Length %" APR_SIZE_T_FMT " (expected %" APR_SIZE_T_FMT ")\n", out_len, param_len); result = RESULT_WRONGSIZE; } else { result = memcmp(param, out, param_len) ? RESULT_MISMATCHED : RESULT_SUCCESS; } if (result != RESULT_SUCCESS) { apr_size_t s0len = nbytes; const char *s0 = escape(buf, &s0len); apr_size_t s1len = out_len; const char *s1 = escape(out, &s1len); apr_size_t s2len = param_len; const char *s2 = escape(param, &s2len); fprintf(stderr, " Input: '%s' len=%" APR_SIZE_T_FMT "\n" "Output: '%s' len=%" APR_SIZE_T_FMT "\n" "Expect: '%s' len=%" APR_SIZE_T_FMT "\n", s0, nbytes, s1, out_len, s2, param_len); ec = 1; } } else if (strcmp("op", type) == 0) { /* Operators */ rc = test_op(&op_data, &errmsg); if (rc < 0) { fprintf(stderr, "ERROR: %s\n", errmsg); result = RESULT_ERROR; } else if (rc != ret) { fprintf(stderr, "Returned %d (expected %d)\n", rc, ret); result = RESULT_WRONGRET; } else { result = RESULT_SUCCESS; } if (result != RESULT_SUCCESS) { apr_size_t s0len = nbytes; const char *s0 = escape(buf, &s0len); fprintf(stderr, " Test: '@%s %s'\n" "Input: '%s' len=%" APR_SIZE_T_FMT "\n", name, param, s0, nbytes); ec = 1; } } else if (strcmp("action", type) == 0) { /* Actions */ int n; const apr_array_header_t *arr; apr_table_entry_t *te; rc = test_action(&action_data, &errmsg); if (rc < 0) { fprintf(stderr, "ERROR: %s\n", errmsg); result = RESULT_ERROR; } else if (rc != ret) { fprintf(stderr, "Returned %d (expected %d)\n", rc, ret); result = RESULT_WRONGRET; } else { result = RESULT_SUCCESS; } if (result != RESULT_SUCCESS) { fprintf(stderr, " Test: '%s:%s'\n" "Prerun: '%s'\n", name, param, (prerun ? (const char *)prerun : "")); ec = 1; } /* Store any collections that were initialized and changed */ arr = apr_table_elts(g_msr->collections); te = (apr_table_entry_t *)arr->elts; for (n = 0; n < arr->nelts; n++) { apr_table_t *col = (apr_table_t *)te[n].val; // apr_table_t *orig_col = NULL; if (g_msr->txcfg->debuglog_level >= 9) { msr_log(g_msr, 9, "Found loaded collection: %s", te[n].key); } /* Only store those collections that changed. */ if (apr_table_get(g_msr->collections_dirty, te[n].key)) { int x = collection_store(g_msr, col); if (g_msr->txcfg->debuglog_level >= 9) { msr_log(g_msr, 9, "Stored collection: %s (%d)", te[n].key, x); } } #if 0 /* Re-populate the original values with the new ones. */ if ((orig_col = (apr_table_t *)apr_table_get(g_msr->collections_original, te[n].key)) != NULL) { const apr_array_header_t *orig_arr = apr_table_elts(orig_col); apr_table_entry_t *orig_te = (apr_table_entry_t *)orig_arr->elts; int m; for (m = 0; m < orig_arr->nelts; m++) { msc_string *mstr = (msc_string *)apr_table_get(col, orig_te[m].key); if (g_msr->txcfg->debuglog_level >= 9) { msr_log(g_msr, 9, "Updating original collection: %s.%s=%s", te[n].key, mstr->name, mstr->value); } //apr_table_setn(orig_col, orig_te[m].key, (void *)mstr ); collection_original_setvar(g_msr, te[n].key, mstr); } } #endif } apr_table_clear(g_msr->collections_dirty); apr_table_clear(g_msr->collections_original); } else { fprintf(stderr, "Unknown type: \"%s\"\n", type); exit(1); } if (ec != 0) { fprintf(stdout, "%s\n", errmsg ? errmsg : ""); return ec; } } if (iterations > 1) { double dT; T1 = apr_time_now(); dT = apr_time_as_msec(T1 - T0); #ifdef VERBOSE if (i >= 100) { fprintf(stderr, "\n"); } #endif fprintf(stdout, "%d @ %.4f msec per iteration.\n", iterations, dT / iterations); } fprintf(stdout, "%s\n", errmsg ? errmsg : ""); return ec; }