int super_html_serve_unparse_and_save( const unsigned char *path, const unsigned char *tmp_path, const struct sid_state *sstate, const struct ejudge_cfg *config, const unsigned char *charset, const unsigned char *header, const unsigned char *footer, const unsigned char *audit) { char *new_text = 0; size_t new_size = 0; char *old_text = 0; size_t old_size = 0; FILE *f; if (sstate->serve_parse_errors || !sstate->global) return 0; if (!charset || !*charset) charset = EJUDGE_CHARSET; if (!header) header = ""; if (!footer) footer = ""; f = open_memstream(&new_text, &new_size); fprintf(f, "# -*- coding: %s -*-\n", charset); fputs(header, f); super_html_serve_unparse_serve_cfg(f, config, sstate); fputs(footer, f); close_memstream(f); f = 0; if (generic_read_file(&old_text, 0, &old_size, 0, 0, path, 0) >= 0 && new_size == old_size && memcmp(new_text, old_text, new_size) == 0) { info("serve_unparse_and_save: %s not changed", path); xfree(old_text); xfree(new_text); unlink(tmp_path); return 0; } xfree(old_text); old_text = 0; old_size = 0; if (!(f = fopen(tmp_path, "w"))) { xfree(new_text); return -1; } fwrite(new_text, 1, new_size, f); xfree(new_text); new_text = 0; new_size = 0; fputs(audit, f); if (ferror(f) || fclose(f) < 0) { fclose(f); unlink(tmp_path); return -1; } return 1; }
int super_html_get_contest_header_and_footer( const unsigned char *path, unsigned char **before_start, unsigned char **after_end) { char *xml_text = 0, *p1, *p2, *p3; unsigned char *s1 = 0, *s2 = 0; size_t xml_text_size = 0; struct stat sb; int errcode = 0; if (stat(path, &sb) < 0) return -SSERV_ERR_FILE_NOT_EXIST; if (generic_read_file(&xml_text, 0, &xml_text_size, 0, 0, path, 0) < 0) return -SSERV_ERR_FILE_READ_ERROR; if (!(p1 = strstr(xml_text, "<contest "))) { errcode = -SSERV_ERR_FILE_FORMAT_INVALID; goto failure; } if (!(p2 = strstr(xml_text, "</contest>"))) { errcode = -SSERV_ERR_FILE_FORMAT_INVALID; goto failure; } p3 = xml_text; if (!strncmp(p3, "<?xml ", 6)) { while (*p3 != '\n' && p3 < p1) p3++; if (*p3 == '\n') p3++; } s1 = xmalloc(xml_text_size + 1); s2 = xmalloc(xml_text_size + 1); memcpy(s1, p3, p1 - p3); s1[p1 - p3] = 0; strcpy(s2, p2 + 10); *before_start = s1; *after_end = s2; xfree(xml_text); return 0; failure: xfree(xml_text); return errcode; }
static unsigned char * do_load_file(const unsigned char *conf_path, const unsigned char *file) { unsigned char full_path[PATH_MAX]; char *buf = 0; size_t buf_size = 0; if (!file || !*file) return 0; if (!os_IsAbsolutePath(file)) { snprintf(full_path, sizeof(full_path), "%s/%s", conf_path, file); } else { snprintf(full_path, sizeof(full_path), "%s", file); } if (generic_read_file(&buf, 0, &buf_size, 0, 0, full_path, 0) < 0) return 0; return buf; }
static int do_loop(void) { path_t src_name; path_t exe_name; path_t src_path; path_t exe_path; path_t log_path; path_t exe_out; path_t log_out; path_t txt_out; path_t report_dir, status_dir; path_t pkt_name, run_name, work_run_name; char *pkt_ptr; size_t pkt_len; int r, i; tpTask tsk = 0; unsigned char msgbuf[512]; int ce_flag; struct compile_request_packet *req = 0; struct compile_reply_packet rpl; void *rpl_pkt = 0; size_t rpl_size = 0; const unsigned char *tail_message = 0; #if HAVE_TRUNCATE - 0 struct stat stb; #endif /* HAVE_TRUNCATE */ FILE *log_f = 0; struct section_language_data *lang = 0; const struct section_global_data *global = serve_state.global; // if (cr_serialize_init(&serve_state) < 0) return -1; interrupt_init(); interrupt_disable(); while (1) { // terminate if signaled if (interrupt_get_status() || interrupt_restart_requested()) break; r = scan_dir(global->compile_queue_dir, pkt_name, sizeof(pkt_name)); if (r < 0) { switch (-r) { case ENOMEM: case ENOENT: case ENFILE: err("trying to recover, sleep for 5 seconds"); interrupt_enable(); os_Sleep(5000); interrupt_disable(); continue; default: err("unrecoverable error, exiting"); return -1; } } if (!r) { interrupt_enable(); os_Sleep(global->sleep_time); interrupt_disable(); continue; } pkt_ptr = 0; pkt_len = 0; r = generic_read_file(&pkt_ptr, 0, &pkt_len, SAFE | REMOVE, global->compile_queue_dir, pkt_name, ""); if (r == 0) continue; if (r < 0 || !pkt_ptr) { // it looks like there's no reasonable recovery strategy // so, just ignore the error continue; } r = compile_request_packet_read(pkt_len, pkt_ptr, &req); xfree(pkt_ptr); pkt_ptr = 0; if (r < 0) { /* * the incoming packet is completely broken, so just drop it */ goto cleanup_and_continue; } if (!req->contest_id) { // special packets r = req->lang_id; req = compile_request_packet_free(req); switch (r) { case 1: interrupt_flag_interrupt(); break; case 2: interrupt_flag_sighup(); break; } continue; } memset(&rpl, 0, sizeof(rpl)); rpl.judge_id = req->judge_id; rpl.contest_id = req->contest_id; rpl.run_id = req->run_id; rpl.ts1 = req->ts1; rpl.ts1_us = req->ts1_us; rpl.use_uuid = req->use_uuid; rpl.uuid[0] = req->uuid[0]; rpl.uuid[1] = req->uuid[1]; rpl.uuid[2] = req->uuid[2]; rpl.uuid[3] = req->uuid[3]; get_current_time(&rpl.ts2, &rpl.ts2_us); rpl.run_block_len = req->run_block_len; rpl.run_block = req->run_block; /* !!! shares memory with req */ msgbuf[0] = 0; /* prepare paths useful to report messages to the serve */ snprintf(report_dir, sizeof(report_dir), "%s/%06d/report", global->compile_dir, rpl.contest_id); snprintf(status_dir, sizeof(status_dir), "%s/%06d/status", global->compile_dir, rpl.contest_id); if (req->use_uuid > 0) { snprintf(run_name, sizeof(run_name), "%s", ej_uuid_unparse(req->uuid, NULL)); } else { snprintf(run_name, sizeof(run_name), "%06d", rpl.run_id); } snprintf(work_run_name, sizeof(work_run_name), "%06d", rpl.run_id); pathmake(log_out, report_dir, "/", run_name, NULL); snprintf(txt_out, sizeof(txt_out), "%s/%s.txt", report_dir, run_name); make_all_dir(status_dir, 0777); make_dir(report_dir, 0777); if (!r) { /* * there is something wrong, but we have contest_id, judge_id * and run_id in place, so we can report an error back * to serve */ snprintf(msgbuf, sizeof(msgbuf), "invalid compile packet\n"); goto report_internal_error; } if (req->style_check_only && req->style_checker && req->style_checker[0]) { check_style_only(global, req, &rpl, pkt_name, run_name, work_run_name, report_dir, status_dir); req = 0; continue; } if (req->lang_id <= 0 || req->lang_id > serve_state.max_lang || !(lang = serve_state.langs[req->lang_id])) { snprintf(msgbuf, sizeof(msgbuf), "invalid lang_id %d\n", req->lang_id); goto report_internal_error; } pathmake(src_name, work_run_name, lang->src_sfx, NULL); pathmake(exe_name, work_run_name, lang->exe_sfx, NULL); pathmake(src_path, global->compile_work_dir, "/", src_name, NULL); pathmake(exe_path, global->compile_work_dir, "/", exe_name, NULL); pathmake(log_path, global->compile_work_dir, "/", "log", NULL); /* the resulting executable file */ snprintf(exe_out, sizeof(exe_out), "%s/%s%s", report_dir, run_name, lang->exe_sfx); /* move the source file into the working dir */ r = generic_copy_file(REMOVE, global->compile_src_dir, pkt_name, lang->src_sfx, 0, global->compile_work_dir, src_name, ""); if (!r) { snprintf(msgbuf, sizeof(msgbuf), "the source file is missing\n"); err("the source file is missing"); goto report_internal_error; } if (r < 0) { snprintf(msgbuf, sizeof(msgbuf), "error reading the source file\n"); err("cannot read the source file"); goto report_internal_error; } tail_message = 0; ce_flag = 0; if (req->output_only) { // copy src_path -> exe_path generic_copy_file(0, NULL, src_path, NULL, 0, NULL, exe_path, NULL); ce_flag = 0; rpl.status = RUN_OK; } else { if (req->style_checker) { /* run style checker */ //info("Starting: %s %s", req->style_checker, src_path); tsk = task_New(); task_AddArg(tsk, req->style_checker); task_AddArg(tsk, src_path); task_SetPathAsArg0(tsk); task_SetWorkingDir(tsk, global->compile_work_dir); task_EnableProcessGroup(tsk); task_SetRedir(tsk, 0, TSR_FILE, "/dev/null", TSK_READ); task_SetRedir(tsk, 1, TSR_FILE, log_path, TSK_REWRITE, 0777); task_SetRedir(tsk, 2, TSR_DUP, 1); if (req->sc_env_num > 0) { for (i = 0; i < req->sc_env_num; i++) task_PutEnv(tsk, req->sc_env_vars[i]); } if (lang->compile_real_time_limit > 0) { task_SetMaxRealTime(tsk, lang->compile_real_time_limit); } task_EnableAllSignals(tsk); task_PrintArgs(tsk); if (task_Start(tsk) < 0) { err("Failed to start style checker process"); tail_message = "\n\nFailed to start style checker"; ce_flag = 1; rpl.status = RUN_STYLE_ERR; } else { task_Wait(tsk); if (task_IsTimeout(tsk)) { err("Style checker process timed out"); tail_message = "\n\nStyle checker process timed out"; ce_flag = 1; rpl.status = RUN_STYLE_ERR; } else if (task_IsAbnormal(tsk)) { info("Style checker failed"); ce_flag = 1; rpl.status = RUN_STYLE_ERR; } else { info("Style checker sucessful"); ce_flag = 0; rpl.status = RUN_OK; } } task_Delete(tsk); tsk = 0; } if (!ce_flag) { //info("Starting: %s %s %s", lang->cmd, src_name, exe_name); tsk = task_New(); task_AddArg(tsk, lang->cmd); task_AddArg(tsk, src_name); task_AddArg(tsk, exe_name); task_SetPathAsArg0(tsk); task_EnableProcessGroup(tsk); if (((ssize_t) req->max_vm_size) > 0) { task_SetVMSize(tsk, req->max_vm_size); } else if (((ssize_t) lang->max_vm_size) > 0) { task_SetVMSize(tsk, lang->max_vm_size); } else if (((ssize_t) global->compile_max_vm_size) > 0) { task_SetVMSize(tsk, global->compile_max_vm_size); } if (((ssize_t) req->max_stack_size) > 0) { task_SetStackSize(tsk, req->max_stack_size); } else if (((ssize_t) lang->max_stack_size) > 0) { task_SetStackSize(tsk, lang->max_stack_size); } else if (((ssize_t) global->compile_max_stack_size) > 0) { task_SetStackSize(tsk, global->compile_max_stack_size); } if (((ssize_t) req->max_file_size) > 0) { task_SetMaxFileSize(tsk, req->max_file_size); } else if (((ssize_t) lang->max_file_size) > 0) { task_SetMaxFileSize(tsk, lang->max_file_size); } else if (((ssize_t) global->compile_max_file_size) > 0) { task_SetMaxFileSize(tsk, global->compile_max_file_size); } if (req->env_num > 0) { for (i = 0; i < req->env_num; i++) task_PutEnv(tsk, req->env_vars[i]); } task_SetWorkingDir(tsk, global->compile_work_dir); task_SetRedir(tsk, 0, TSR_FILE, "/dev/null", TSK_READ); task_SetRedir(tsk, 1, TSR_FILE, log_path, TSK_APPEND, 0777); task_SetRedir(tsk, 2, TSR_DUP, 1); if (lang->compile_real_time_limit > 0) { task_SetMaxRealTime(tsk, lang->compile_real_time_limit); } task_EnableAllSignals(tsk); /* if (cr_serialize_lock(&serve_state) < 0) { // FIXME: propose reasonable recovery? return -1; } */ task_PrintArgs(tsk); task_Start(tsk); task_Wait(tsk); /* if (cr_serialize_unlock(&serve_state) < 0) { // FIXME: propose reasonable recovery? return -1; } */ if (task_IsTimeout(tsk)) { err("Compilation process timed out"); tail_message = "\n\nCompilation process timed out"; ce_flag = 1; rpl.status = RUN_COMPILE_ERR; } else if (task_IsAbnormal(tsk)) { info("Compilation failed"); ce_flag = 1; rpl.status = RUN_COMPILE_ERR; } else { info("Compilation sucessful"); ce_flag = 0; rpl.status = RUN_OK; } } } get_current_time(&rpl.ts3, &rpl.ts3_us); if (compile_reply_packet_write(&rpl, &rpl_size, &rpl_pkt) < 0) goto cleanup_and_continue; while (1) { if (ce_flag) { #if HAVE_TRUNCATE - 0 // truncate log file at size 1MB if (stat(log_path, &stb) >= 0 && stb.st_size > MAX_LOG_SIZE) { truncate(log_path, MAX_LOG_SIZE); if ((log_f = fopen(log_path, "a"))) { fprintf(log_f, "\n\nCompilation log is truncated by ejudge!\n"); fclose(log_f); log_f = 0; } } #endif // append tail_message if (tail_message && (log_f = fopen(log_path, "a"))) { fprintf(log_f, "%s\n", tail_message); fclose(log_f); log_f = 0; } r = generic_copy_file(0, 0, log_path, "", 0, 0, log_out, ""); } else { r = generic_copy_file(0, 0, exe_path, "", 0, 0, exe_out, ""); generic_copy_file(0, 0, log_path, "", 0, 0, txt_out, ""); } if (r >= 0 && generic_write_file(rpl_pkt, rpl_size, SAFE, status_dir, run_name, "") >= 0) break; info("waiting 5 seconds hoping for things to change"); interrupt_enable(); os_Sleep(5000); interrupt_disable(); } goto cleanup_and_continue; report_internal_error:; rpl.status = RUN_CHECK_FAILED; get_current_time(&rpl.ts3, &rpl.ts3_us); if (compile_reply_packet_write(&rpl, &rpl_size, &rpl_pkt) < 0) goto cleanup_and_continue; if (generic_write_file(msgbuf, strlen(msgbuf), 0, 0, log_out, 0) < 0) goto cleanup_and_continue; if (generic_write_file(rpl_pkt, rpl_size, SAFE, status_dir, run_name, 0) < 0) unlink(log_out); goto cleanup_and_continue; cleanup_and_continue:; task_Delete(tsk); tsk = 0; clear_directory(global->compile_work_dir); xfree(rpl_pkt); rpl_pkt = 0; req = compile_request_packet_free(req); } /* while (1) */ return 0; }
int super_html_get_serve_header_and_footer( const unsigned char *path, unsigned char **p_header, unsigned char **p_footer) { struct stat sb; char *text = 0; size_t size = 0; int at_beg = 1; unsigned char *s, *after_start = 0, *before_end = 0, *tstart, *p = 0; unsigned char *header = 0, *footer = 0; if (stat(path, &sb) < 0) return -SSERV_ERR_FILE_NOT_EXIST; if (generic_read_file(&text, 0, &size, 0, 0, path, 0) < 0) return -SSERV_ERR_FILE_READ_ERROR; tstart = (unsigned char *) text; if (!strncmp(tstart, "# -*- ", 6)) { while (*tstart && *tstart != '\n') tstart++; if (*tstart == '\n') tstart++; size -= (tstart - (unsigned char*) text); } s = tstart; while (s - tstart < size) { if (at_beg) { if (*s == '#' || *s == ';') { // comment line if (after_start && !before_end) before_end = s; } else { // regular line if (!after_start) after_start = s; else before_end = 0; } } at_beg = 0; if (*s == '\r' && s[1] == '\n') { s += 2; at_beg = 1; } else if (*s == '\n') { s++; at_beg = 1; } else if (*s == '\r') { s++; at_beg = 1; } else { s++; } } if (!before_end) { footer = xstrdup(""); } else { footer = p = xmalloc(size + 1 - (before_end - tstart)); at_beg = 1; s = before_end; while (s - tstart < size) { if (at_beg && (*s == '#' || *s == ';')) *s = '#'; at_beg = 0; if (*s == '\r' && s[1] == '\n') { *p++ = '\n'; s += 2; at_beg = 1; } else if (*s == '\n') { *p++ = *s++; at_beg = 1; } else if (*s == '\r') { *p++ = '\n'; s++; at_beg = 1; } else { *p++ = *s++; } } *p = 0; } if (!after_start) after_start = tstart + size; header = p = xmalloc(after_start - tstart + 1); at_beg = 1; s = tstart; while (s != after_start) { if (at_beg && (*s == '#' || *s == ';')) *s = '#'; at_beg = 0; if (*s == '\r' && s[1] == '\n') { *p++ = '\n'; s += 2; at_beg = 1; } else if (*s == '\n') { *p++ = *s++; at_beg = 1; } else if (*s == '\r') { *p++ = '\n'; s++; at_beg = 1; } else { *p++ = *s++; } } *p = 0; if (p_header) *p_header = header; if (p_footer) *p_footer = footer; xfree(text); return 0; }
static int do_loop(void) { int r; path_t report_path; path_t full_report_path; path_t pkt_name; unsigned char exe_pkt_name[64]; unsigned char run_base[64]; path_t full_report_dir; path_t full_status_dir; path_t full_full_dir; char exe_name[64]; int tester_id; struct section_tester_data tn, *tst; int got_quit_packet = 0; struct run_reply_packet reply_pkt; void *reply_pkt_buf = 0; size_t reply_pkt_buf_size = 0; unsigned char errmsg[512]; const struct section_global_data *global = serve_state.global; const unsigned char *arch = 0; char *srp_b = 0; size_t srp_z = 0; struct super_run_in_packet *srp = NULL; struct super_run_in_global_packet *srgp = NULL; struct super_run_in_problem_packet *srpp = NULL; memset(&tn, 0, sizeof(tn)); //if (cr_serialize_init(&serve_state) < 0) return -1; interrupt_init(); interrupt_disable(); while (1) { interrupt_enable(); /* time window for immediate signal delivery */ interrupt_disable(); // terminate, if signaled if (interrupt_get_status()) break; if (interrupt_restart_requested()) { restart_flag = 1; } if (restart_flag) break; r = scan_dir(global->run_queue_dir, pkt_name, sizeof(pkt_name)); if (r < 0) return -1; if (!r) { if (got_quit_packet && managed_mode_flag) { return 0; } if (managed_mode_flag && global->inactivity_timeout > 0 && last_activity_time + global->inactivity_timeout < time(0)) { info("no activity for %d seconds, exiting",global->inactivity_timeout); return 0; } interrupt_enable(); os_Sleep(global->sleep_time); interrupt_disable(); continue; } last_activity_time = time(0); srp = super_run_in_packet_free(srp); xfree(srp_b); srp_b = NULL; srp_z = 0; r = generic_read_file(&srp_b, 0, &srp_z, SAFE | REMOVE, global->run_queue_dir, pkt_name, ""); if (r == 0) continue; if (r < 0) return -1; if (!strcmp(pkt_name, "QUIT")) { if (managed_mode_flag) { got_quit_packet = 1; info("got force quit run packet"); } else { restart_flag = 1; } xfree(srp_b); srp_b = NULL; srp_z = 0; continue; } fprintf(stderr, "packet: <<%.*s>>\n", (int) srp_z, srp_b); srp = super_run_in_packet_parse_cfg_str(pkt_name, srp_b, srp_z); //xfree(srp_b); srp_b = NULL; srp_z = 0; if (!srp) { err("failed to parse file %s", pkt_name); continue; } if (!(srgp = srp->global)) { err("packet %s has no global section", pkt_name); continue; } if (srgp->contest_id <= 0) { err("packet %s: undefined contest_id", pkt_name); continue; } if (managed_mode_flag && srgp->restart > 0) { got_quit_packet = 1; info("got force quit run packet"); continue; } if (srgp->restart > 0) { restart_flag = 1; continue; } /* if (req_pkt->contest_id == -1) { r = generic_write_file(req_buf, req_buf_size, SAFE, serve_state.global->run_queue_dir, pkt_name, ""); if (r < 0) return -1; info("force quit packet is ignored in unmanaged mode"); scan_dir_add_ignored(serve_state.global->run_queue_dir, pkt_name); continue; } */ if (!(srpp = srp->problem)) { err("packet %s: no [problem] section", pkt_name); continue; } /* if we are asked to do full testing, but don't want */ if ((global->skip_full_testing > 0 && !srgp->accepting_mode) || (global->skip_accept_testing > 0 && srgp->accepting_mode)) { r = generic_write_file(srp_b, srp_z, SAFE, global->run_queue_dir, pkt_name, ""); if (r < 0) return -1; info("skipping problem %s", srpp->short_name); scan_dir_add_ignored(global->run_queue_dir, pkt_name); continue; } /* if this problem is marked as "skip_testing" put the * packet back to the spool directory */ #if 0 if (cur_prob->skip_testing > 0) { r = generic_write_file(srp_b, srp_z, SAFE, global->run_queue_dir, pkt_name, ""); if (r < 0) return -1; info("skipping problem %s", cur_prob->short_name); scan_dir_add_ignored(global->run_queue_dir, pkt_name); continue; } #endif snprintf(run_base, sizeof(run_base), "%06d", srgp->run_id); report_path[0] = 0; full_report_path[0] = 0; if (srpp->type_val == PROB_TYPE_TESTS) { //cr_serialize_lock(&serve_state); run_inverse_testing(&serve_state, srp, &reply_pkt, pkt_name, global->run_exe_dir, report_path, sizeof(report_path), utf8_mode); //cr_serialize_unlock(&serve_state); } else { arch = srgp->arch; if (!arch) arch = ""; if (srpp->type_val > 0 && arch && !*arch) { // any tester will work for output-only problems arch = 0; } /* regular problem */ if (!(tester_id = find_tester(&serve_state, srpp->id, arch))){ snprintf(errmsg, sizeof(errmsg), "no tester found for %d, %s\n", srpp->id, srgp->arch); goto report_check_failed_and_continue; } info("fount tester %d for pair %d,%s", tester_id, srpp->id, srgp->arch); tst = serve_state.testers[tester_id]; if (tst->any) { info("tester %d is a default tester", tester_id); r = prepare_tester_refinement(&serve_state, &tn, tester_id, srpp->id); ASSERT(r >= 0); tst = &tn; } /* if this tester is marked as "skip_testing" put the * packet back to the spool directory */ if (tst->skip_testing > 0) { r = generic_write_file(srp_b, srp_z, SAFE, global->run_queue_dir, pkt_name, ""); if (r < 0) return -1; info("skipping tester <%s,%s>", srpp->short_name, tst->arch); scan_dir_add_ignored(global->run_queue_dir, pkt_name); if (tst == &tn) { sarray_free(tst->start_env); tst->start_env = 0; sarray_free(tst->super); tst->super = 0; } continue; } snprintf(exe_pkt_name, sizeof(exe_pkt_name), "%s%s", pkt_name, srgp->exe_sfx); snprintf(exe_name, sizeof(exe_name), "%s%s", run_base, srgp->exe_sfx); r = generic_copy_file(REMOVE, global->run_exe_dir, exe_pkt_name, "", 0, global->run_work_dir, exe_name, ""); if (r <= 0) { snprintf(errmsg, sizeof(errmsg), "failed to copy executable file %s/%s\n", global->run_exe_dir, exe_pkt_name); goto report_check_failed_and_continue; } /* start filling run_reply_packet */ memset(&reply_pkt, 0, sizeof(reply_pkt)); reply_pkt.judge_id = srgp->judge_id; reply_pkt.contest_id = srgp->contest_id; reply_pkt.run_id = srgp->run_id; reply_pkt.notify_flag = srgp->notify_flag; reply_pkt.user_status = -1; reply_pkt.user_tests_passed = -1; reply_pkt.user_score = -1; reply_pkt.ts1 = srgp->ts1; reply_pkt.ts1_us = srgp->ts1_us; reply_pkt.ts2 = srgp->ts2; reply_pkt.ts2_us = srgp->ts2_us; reply_pkt.ts3 = srgp->ts3; reply_pkt.ts3_us = srgp->ts3_us; reply_pkt.ts4 = srgp->ts4; reply_pkt.ts4_us = srgp->ts4_us; get_current_time(&reply_pkt.ts5, &reply_pkt.ts5_us); //if (cr_serialize_lock(&serve_state) < 0) return -1; run_tests(ejudge_config, &serve_state, tst, srp, &reply_pkt, srgp->accepting_mode, srpp->accept_partial, srgp->variant, exe_name, run_base, report_path, full_report_path, srgp->user_spelling, srpp->spelling, NULL /* mirror_dir */, utf8_mode); //if (cr_serialize_unlock(&serve_state) < 0) return -1; if (tst == &tn) { sarray_free(tst->start_env); tst->start_env = 0; sarray_free(tst->super); tst->super = 0; } } if (srgp->reply_report_dir && srgp->reply_report_dir[0]) { snprintf(full_report_dir, sizeof(full_report_dir), "%s", srgp->reply_report_dir); } else { snprintf(full_report_dir, sizeof(full_report_dir), "%s/%06d/report", global->run_dir, srgp->contest_id); } if (srgp->reply_spool_dir && srgp->reply_spool_dir[0]) { snprintf(full_status_dir, sizeof(full_status_dir), "%s", srgp->reply_spool_dir); } else { snprintf(full_status_dir, sizeof(full_status_dir), "%s/%06d/status", global->run_dir, srgp->contest_id); } if (srgp->reply_full_archive_dir && srgp->reply_full_archive_dir[0]) { snprintf(full_full_dir, sizeof(full_full_dir), "%s", srgp->reply_full_archive_dir); } else { snprintf(full_full_dir, sizeof(full_full_dir), "%s/%06d/output", global->run_dir, srgp->contest_id); } if (generic_copy_file(0, NULL, report_path, "", 0, full_report_dir, run_base, "") < 0) return -1; #if defined CONF_HAS_LIBZIP if (full_report_path[0] && generic_copy_file(0, NULL, full_report_path, "", 0, full_full_dir, run_base, ".zip") < 0) return -1; #else if (full_report_path[0] && generic_copy_file(0, NULL, full_report_path, "", 0, full_full_dir, run_base, "") < 0) return -1; #endif //run_reply_packet_dump(&reply_pkt); if (run_reply_packet_write(&reply_pkt, &reply_pkt_buf_size, &reply_pkt_buf) < 0) { /* FIXME: do something, if this is possible. * However, unability to generate a reply packet only * means that invalid data passed, which should be reported * immediately as internal error! */ abort(); } if (generic_write_file(reply_pkt_buf, reply_pkt_buf_size, SAFE, full_status_dir, run_base, "") < 0) { xfree(reply_pkt_buf); reply_pkt_buf = 0; return -1; } xfree(reply_pkt_buf); reply_pkt_buf = 0; clear_directory(global->run_work_dir); last_activity_time = time(0); continue; report_check_failed_and_continue:; memset(&reply_pkt, 0, sizeof(reply_pkt)); reply_pkt.judge_id = srgp->judge_id; reply_pkt.contest_id = srgp->contest_id; reply_pkt.run_id = srgp->run_id; reply_pkt.user_status = -1; reply_pkt.user_tests_passed = -1; reply_pkt.user_score = -1; reply_pkt.ts1 = srgp->ts1; reply_pkt.ts1_us = srgp->ts1_us; reply_pkt.ts2 = srgp->ts2; reply_pkt.ts2_us = srgp->ts2_us; reply_pkt.ts3 = srgp->ts3; reply_pkt.ts3_us = srgp->ts3_us; reply_pkt.ts4 = srgp->ts4; reply_pkt.ts4_us = srgp->ts4_us; get_current_time(&reply_pkt.ts5, &reply_pkt.ts5_us); reply_pkt.ts6 = reply_pkt.ts5; reply_pkt.ts6_us = reply_pkt.ts5_us; reply_pkt.ts7 = reply_pkt.ts5; reply_pkt.ts7_us = reply_pkt.ts5_us; reply_pkt.status = RUN_CHECK_FAILED; reply_pkt.failed_test = 0; reply_pkt.score = -1; if (run_reply_packet_write(&reply_pkt, &reply_pkt_buf_size, &reply_pkt_buf) < 0) { // oops :( abort(); } if (generic_write_file(errmsg, strlen(errmsg), 0, full_report_dir, run_base, "") < 0 || generic_write_file(reply_pkt_buf, reply_pkt_buf_size, SAFE, full_status_dir, run_base, "") < 0) { err("error writing check failed packet"); } clear_directory(global->run_work_dir); } srp = super_run_in_packet_free(srp); xfree(srp_b); srp_b = NULL; srp_z = 0; return 0; }