// SPDX-License-Identifier: GPL-2.0 /* * in kernel monitor support: allows rv to control in-kernel monitors. * * Copyright (C) 2022 Red Hat Inc, Daniel Bristot de Oliveira <bristot@kernel.org> */ #include <getopt.h> #include <stdlib.h> #include <string.h> #include <errno.h> #include <unistd.h> #include <trace.h> #include <utils.h> #include <rv.h> static int config_has_id; static int config_my_pid; static int config_trace; static char *config_initial_reactor; static char *config_reactor; /* * __ikm_read_enable - reads monitor's enable status * * __does not log errors. * * Returns the current status, or -1 if the monitor does not exist, * __hence not logging errors. */ static int __ikm_read_enable(char *monitor_name) { char path[MAX_PATH]; long long enabled; int retval; snprintf(path, MAX_PATH, "rv/monitors/%s/enable", monitor_name); retval = tracefs_instance_file_read_number(NULL, path, &enabled); if (retval < 0) return -1; return enabled; } /* * ikm_read_enable - reads monitor's enable status * * Returns the current status, or -1 on error. */ static int ikm_read_enable(char *monitor_name) { int enabled; enabled = __ikm_read_enable(monitor_name); if (enabled < 0) { err_msg("ikm: fail read enabled: %d\n", enabled); return -1; } debug_msg("ikm: read enabled: %d\n", enabled); return enabled; } /* * ikm_write_enable - write to the monitor's enable file * * Return the number of bytes written, -1 on error. */ static int ikm_write_enable(char *monitor_name, char *enable_disable) { char path[MAX_PATH]; int retval; debug_msg("ikm: writing enabled: %s\n", enable_disable); snprintf(path, MAX_PATH, "rv/monitors/%s/enable", monitor_name); retval = tracefs_instance_file_write(NULL, path, enable_disable); if (retval < strlen(enable_disable)) { err_msg("ikm: writing enabled: %s\n", enable_disable); return -1; } return retval; } /* * ikm_enable - enable a monitor * * Returns -1 on failure. Success otherwise. */ static int ikm_enable(char *monitor_name) { return ikm_write_enable(monitor_name, "1"); } /* * ikm_disable - disable a monitor * * Returns -1 on failure. Success otherwise. */ static int ikm_disable(char *monitor_name) { return ikm_write_enable(monitor_name, "0"); } /* * ikm_read_desc - read monitors' description * * Return a dynamically allocated string with the monitor's * description, NULL otherwise. */ static char *ikm_read_desc(char *monitor_name) { char path[MAX_PATH]; char *desc; snprintf(path, MAX_PATH, "rv/monitors/%s/desc", monitor_name); desc = tracefs_instance_file_read(NULL, path, NULL); if (!desc) { err_msg("ikm: error reading monitor %s desc\n", monitor_name); return NULL; } *strstr(desc, "\n") = '\0'; return desc; } /* * ikm_fill_monitor_definition - fill monitor's definition * * Returns -1 on error, 0 otherwise. */ static int ikm_fill_monitor_definition(char *name, struct monitor *ikm) { int enabled; char *desc; enabled = ikm_read_enable(name); if (enabled < 0) { err_msg("ikm: monitor %s fail to read enable file, bug?\n", name); return -1; } desc = ikm_read_desc(name); if (!desc) { err_msg("ikm: monitor %s does not have desc file, bug?\n", name); return -1; } strncpy(ikm->name, name, MAX_DA_NAME_LEN); ikm->enabled = enabled; strncpy(ikm->desc, desc, MAX_DESCRIPTION); free(desc); return 0; } /* * ikm_write_reactor - switch the reactor to *reactor * * Return the number or characters written, -1 on error. */ static int ikm_write_reactor(char *monitor_name, char *reactor) { char path[MAX_PATH]; int retval; snprintf(path, MAX_PATH, "rv/monitors/%s/reactors", monitor_name); retval = tracefs_instance_file_write(NULL, path, reactor); debug_msg("ikm: write \"%s\" reactors: %d\n", reactor, retval); return retval; } /* * ikm_read_reactor - read the reactors file * * Returns a dynamically allocated string with monitor's * available reactors, or NULL on error. */ static char *ikm_read_reactor(char *monitor_name) { char path[MAX_PATH]; char *reactors; snprintf(path, MAX_PATH, "rv/monitors/%s/reactors", monitor_name); reactors = tracefs_instance_file_read(NULL, path, NULL); if (!reactors) { err_msg("ikm: fail reading monitor's %s reactors file\n", monitor_name); return NULL; } return reactors; } /* * ikm_get_current_reactor - get the current enabled reactor * * Reads the reactors file and find the currently enabled * [reactor]. * * Returns a dynamically allocated memory with the current * reactor. NULL otherwise. */ static char *ikm_get_current_reactor(char *monitor_name) { char *reactors = ikm_read_reactor(monitor_name); char *start; char *end; char *curr_reactor; if (!reactors) return NULL; start = strstr(reactors, "["); if (!start) goto out_free; start++; end = strstr(start, "]"); if (!end) goto out_free; *end = '\0'; curr_reactor = calloc(strlen(start) + 1, sizeof(char)); if (!curr_reactor) goto out_free; strncpy(curr_reactor, start, strlen(start)); debug_msg("ikm: read current reactor %s\n", curr_reactor); out_free: free(reactors); return curr_reactor; } static int ikm_has_id(char *monitor_name) { char path[MAX_PATH]; char *format; int has_id; snprintf(path, MAX_PATH, "events/rv/event_%s/format", monitor_name); format = tracefs_instance_file_read(NULL, path, NULL); if (!format) { err_msg("ikm: fail reading monitor's %s format event file\n", monitor_name); return -1; } /* print fmt: "%d: %s x %s -> %s %s", REC->id, ... */ has_id = !!strstr(format, "REC->id"); debug_msg("ikm: monitor %s has id: %s\n", monitor_name, has_id ? "yes" : "no"); free(format); return has_id; } /** * ikm_list_monitors - list all available monitors * * Returns 0 on success, -1 otherwise. */ int ikm_list_monitors(void) { char *available_monitors; struct monitor ikm; char *curr, *next; int retval; available_monitors = tracefs_instance_file_read(NULL, "rv/available_monitors", NULL); if (!available_monitors) { err_msg("ikm: available monitors is not available, is CONFIG_RV enabled?\n"); return -1; } curr = available_monitors; do { next = strstr(curr, "\n"); *next = '\0'; retval = ikm_fill_monitor_definition(curr, &ikm); if (retval) err_msg("ikm: error reading %d in kernel monitor, skipping\n", curr); printf("%-24s %s %s\n", ikm.name, ikm.desc, ikm.enabled ? "[ON]" : "[OFF]"); curr = ++next; } while (strlen(curr)); free(available_monitors); return 0; } static void ikm_print_header(struct trace_seq *s) { trace_seq_printf(s, "%16s-%-8s %5s %5s ", "<TASK>", "PID", "[CPU]", "TYPE"); if (config_has_id) trace_seq_printf(s, "%8s ", "ID"); trace_seq_printf(s, "%24s x %-24s -> %-24s %s\n", "STATE", "EVENT", "NEXT_STATE", "FINAL"); trace_seq_printf(s, "%16s %-8s %5s %5s ", " | ", " | ", " | ", " | "); if (config_has_id) trace_seq_printf(s, "%8s ", " | "); trace_seq_printf(s, "%24s %-24s %-24s %s\n", " | ", " | ", " | ", "|"); } /* * ikm_event_handler - callback to handle event events * * Called any time a rv:"monitor"_event events is generated. * It parses and print event. */ static int ikm_event_handler(struct trace_seq *s, struct tep_record *record, struct tep_event *trace_event, void *context) { /* if needed: struct trace_instance *inst = context; */ char *state, *event, *next_state; unsigned long long final_state; unsigned long long pid; unsigned long long id; int cpu = record->cpu; int val; if (config_has_id) tep_get_field_val(s, trace_event, "id", record, &id, 1); tep_get_common_field_val(s, trace_event, "common_pid", record, &pid, 1); if (config_has_id && (config_my_pid == id)) return 0; else if (config_my_pid && (config_my_pid == pid)) return 0; tep_print_event(trace_event->tep, s, record, "%16s-%-8d ", TEP_PRINT_COMM, TEP_PRINT_PID); trace_seq_printf(s, "[%.3d] event ", cpu); if (config_has_id) trace_seq_printf(s, "%8llu ", id); state = tep_get_field_raw(s, trace_event, "state", record, &val, 0); event = tep_get_field_raw(s, trace_event, "event", record, &val, 0); next_state = tep_get_field_raw(s, trace_event, "next_state", record, &val, 0); tep_get_field_val(s, trace_event, "final_state", record, &final_state, 1); trace_seq_printf(s, "%24s x %-24s -> %-24s %s\n", state, event, next_state, final_state ? "Y" : "N"); trace_seq_do_printf(s); trace_seq_reset(s); return 0; } /* * ikm_error_handler - callback to handle error events * * Called any time a rv:"monitor"_errors events is generated. * It parses and print event. */ static int ikm_error_handler(struct trace_seq *s, struct tep_record *record, struct tep_event *trace_event, void *context) { unsigned long long pid, id; int cpu = record->cpu; char *state, *event; int val; if (config_has_id) tep_get_field_val(s, trace_event, "id", record, &id, 1); tep_get_common_field_val(s, trace_event, "common_pid", record, &pid, 1); if (config_has_id && config_my_pid == id) return 0; else if (config_my_pid == pid) return 0; trace_seq_printf(s, "%8lld [%03d] error ", pid, cpu); if (config_has_id) trace_seq_printf(s, "%8llu ", id); state = tep_get_field_raw(s, trace_event, "state", record, &val, 0); event = tep_get_field_raw(s, trace_event, "event", record, &val, 0); trace_seq_printf(s, "%24s x %s\n", state, event); trace_seq_do_printf(s); trace_seq_reset(s); return 0; } /* * ikm_setup_trace_instance - set up a tracing instance to collect data * * Create a trace instance, enable rv: events and enable the trace. * * Returns the trace_instance * with all set, NULL otherwise. */ static struct trace_instance *ikm_setup_trace_instance(char *monitor_name) { char event[MAX_DA_NAME_LEN + 7]; /* max(error_,event_) + '0' = 7 */ struct trace_instance *inst; int retval; if (!config_trace) return NULL; config_has_id = ikm_has_id(monitor_name); if (config_has_id < 0) { err_msg("ikm: failed to read monitor %s event format\n", monitor_name); goto out_err; } /* alloc data */ inst = calloc(1, sizeof(*inst)); if (!inst) { err_msg("ikm: failed to allocate trace instance"); goto out_err; } retval = trace_instance_init(inst, monitor_name); if (retval) goto out_free; /* enable events */ snprintf(event, sizeof(event), "event_%s", monitor_name); retval = tracefs_event_enable(inst->inst, "rv", event); if (retval) goto out_inst; tep_register_event_handler(inst->tep, -1, "rv", event, ikm_event_handler, NULL); snprintf(event, sizeof(event), "error_%s", monitor_name); retval = tracefs_event_enable(inst->inst, "rv", event); if (retval) goto out_inst; tep_register_event_handler(inst->tep, -1, "rv", event, ikm_error_handler, NULL); /* ready to enable */ tracefs_trace_on(inst->inst); return inst; out_inst: trace_instance_destroy(inst); out_free: free(inst); out_err: return NULL; } /** * ikm_destroy_trace_instance - destroy a previously created instance */ static void ikm_destroy_trace_instance(struct trace_instance *inst) { if (!inst) return; trace_instance_destroy(inst); free(inst); } /* * ikm_usage_print_reactors - print all available reactors, one per line. */ static void ikm_usage_print_reactors(void) { char *reactors = tracefs_instance_file_read(NULL, "rv/available_reactors", NULL); char *start, *end; if (!reactors) return; fprintf(stderr, " available reactors:"); start = reactors; end = strstr(start, "\n"); while (end) { *end = '\0'; fprintf(stderr, " %s", start); start = ++end; end = strstr(start, "\n"); } fprintf(stderr, "\n"); } /* * ikm_usage - print usage */ static void ikm_usage(int exit_val, char *monitor_name, const char *fmt, ...) { char message[1024]; va_list ap; int i; static const char *const usage[] = { "", " -h/--help: print this menu and the reactor list", " -r/--reactor 'reactor': enables the 'reactor'", " -s/--self: when tracing (-t), also trace rv command", " -t/--trace: trace monitor's event", " -v/--verbose: print debug messages", "", NULL, }; va_start(ap, fmt); vsnprintf(message, sizeof(message), fmt, ap); va_end(ap); fprintf(stderr, " %s\n", message); fprintf(stderr, "\n usage: rv mon %s [-h] [-q] [-r reactor] [-s] [-v]", monitor_name); for (i = 0; usage[i]; i++) fprintf(stderr, "%s\n", usage[i]); ikm_usage_print_reactors(); exit(exit_val); } /* * parse_arguments - parse arguments and set config */ static int parse_arguments(char *monitor_name, int argc, char **argv) { int c, retval; config_my_pid = getpid(); while (1) { static struct option long_options[] = { {"help", no_argument, 0, 'h'}, {"reactor", required_argument, 0, 'r'}, {"self", no_argument, 0, 's'}, {"trace", no_argument, 0, 't'}, {"verbose", no_argument, 0, 'v'}, {0, 0, 0, 0} }; /* getopt_long stores the option index here. */ int option_index = 0; c = getopt_long(argc, argv, "hr:stv", long_options, &option_index); /* detect the end of the options. */ if (c == -1) break; switch (c) { case 'h': ikm_usage(0, monitor_name, "help:"); break; case 'r': config_reactor = optarg; break; case 's': config_my_pid = 0; break; case 't': config_trace = 1; break; case 'v': config_debug = 1; break; } } if (config_reactor) { config_initial_reactor = ikm_get_current_reactor(monitor_name); if (!config_initial_reactor) ikm_usage(1, monitor_name, "ikm: failed to read current reactor, are reactors enabled?"); retval = ikm_write_reactor(monitor_name, config_reactor); if (retval <= 0) ikm_usage(1, monitor_name, "ikm: failed to set %s reactor, is it available?", config_reactor); } debug_msg("ikm: my pid is %d\n", config_my_pid); return 0; } /** * ikm_run_monitor - apply configs and run the monitor * * Returns 1 if a monitor was found an executed, 0 if no * monitors were found, or -1 on error. */ int ikm_run_monitor(char *monitor_name, int argc, char **argv) { struct trace_instance *inst = NULL; int retval; /* * Check if monitor exists by seeing it is enabled. */ retval = __ikm_read_enable(monitor_name); if (retval < 0) return 0; if (retval) { err_msg("ikm: monitor %s (in-kernel) is already enabled\n", monitor_name); return -1; } /* we should be good to go */ retval = parse_arguments(monitor_name, argc, argv); if (retval) ikm_usage(1, monitor_name, "ikm: failed parsing arguments"); if (config_trace) { inst = ikm_setup_trace_instance(monitor_name); if (!inst) return -1; } retval = ikm_enable(monitor_name); if (retval < 0) goto out_free_instance; if (config_trace) ikm_print_header(inst->seq); while (!should_stop()) { if (config_trace) { retval = tracefs_iterate_raw_events(inst->tep, inst->inst, NULL, 0, collect_registered_events, inst); if (retval) { err_msg("ikm: error reading trace buffer\n"); break; } } sleep(1); } ikm_disable(monitor_name); ikm_destroy_trace_instance(inst); if (config_reactor && config_initial_reactor) ikm_write_reactor(monitor_name, config_initial_reactor); return 1; out_free_instance: ikm_destroy_trace_instance(inst); if (config_reactor && config_initial_reactor) ikm_write_reactor(monitor_name, config_initial_reactor); return -1; }