/* * Copyright (C) 2009, Steven Rostedt * * ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; version 2 of the License (not later!) * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * * ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ * * The parts for function graph printing was taken and modified from the * Linux Kernel that were written by Frederic Weisbecker. */ #define _GNU_SOURCE #include #include #include #include #include #undef _GNU_SOURCE #include "../perf.h" #include "util.h" #include "trace-event.h" int header_page_ts_offset; int header_page_ts_size; int header_page_size_offset; int header_page_size_size; int header_page_overwrite_offset; int header_page_overwrite_size; int header_page_data_offset; int header_page_data_size; bool latency_format; static char *input_buf; static unsigned long long input_buf_ptr; static unsigned long long input_buf_siz; static int cpus; static int long_size; static int is_flag_field; static int is_symbolic_field; static struct format_field * find_any_field(struct event *event, const char *name); static void init_input_buf(char *buf, unsigned long long size) { input_buf = buf; input_buf_siz = size; input_buf_ptr = 0; } struct cmdline { char *comm; int pid; }; static struct cmdline *cmdlines; static int cmdline_count; static int cmdline_cmp(const void *a, const void *b) { const struct cmdline *ca = a; const struct cmdline *cb = b; if (ca->pid < cb->pid) return -1; if (ca->pid > cb->pid) return 1; return 0; } void parse_cmdlines(char *file, int size __unused) { struct cmdline_list { struct cmdline_list *next; char *comm; int pid; } *list = NULL, *item; char *line; char *next = NULL; int i; line = strtok_r(file, "\n", &next); while (line) { item = malloc_or_die(sizeof(*item)); sscanf(line, "%d %as", &item->pid, (float *)(void *)&item->comm); /* workaround gcc warning */ item->next = list; list = item; line = strtok_r(NULL, "\n", &next); cmdline_count++; } cmdlines = malloc_or_die(sizeof(*cmdlines) * cmdline_count); i = 0; while (list) { cmdlines[i].pid = list->pid; cmdlines[i].comm = list->comm; i++; item = list; list = list->next; free(item); } qsort(cmdlines, cmdline_count, sizeof(*cmdlines), cmdline_cmp); } static struct func_map { unsigned long long addr; char *func; char *mod; } *func_list; static unsigned int func_count; static int func_cmp(const void *a, const void *b) { const struct func_map *fa = a; const struct func_map *fb = b; if (fa->addr < fb->addr) return -1; if (fa->addr > fb->addr) return 1; return 0; } void parse_proc_kallsyms(char *file, unsigned int size __unused) { struct func_list { struct func_list *next; unsigned long long addr; char *func; char *mod; } *list = NULL, *item; char *line; char *next = NULL; char *addr_str; char ch; int ret __used; int i; line = strtok_r(file, "\n", &next); while (line) { item = malloc_or_die(sizeof(*item)); item->mod = NULL; ret = sscanf(line, "%as %c %as\t[%as", (float *)(void *)&addr_str, /* workaround gcc warning */ &ch, (float *)(void *)&item->func, (float *)(void *)&item->mod); item->addr = strtoull(addr_str, NULL, 16); free(addr_str); /* truncate the extra ']' */ if (item->mod) item->mod[strlen(item->mod) - 1] = 0; item->next = list; list = item; line = strtok_r(NULL, "\n", &next); func_count++; } func_list = malloc_or_die(sizeof(*func_list) * (func_count + 1)); i = 0; while (list) { func_list[i].func = list->func; func_list[i].addr = list->addr; func_list[i].mod = list->mod; i++; item = list; list = list->next; free(item); } qsort(func_list, func_count, sizeof(*func_list), func_cmp); /* * Add a special record at the end. */ func_list[func_count].func = NULL; func_list[func_count].addr = 0; func_list[func_count].mod = NULL; } /* * We are searching for a record in between, not an exact * match. */ static int func_bcmp(const void *a, const void *b) { const struct func_map *fa = a; const struct func_map *fb = b; if ((fa->addr == fb->addr) || (fa->addr > fb->addr && fa->addr < (fb+1)->addr)) return 0; if (fa->addr < fb->addr) return -1; return 1; } static struct func_map *find_func(unsigned long long addr) { struct func_map *func; struct func_map key; key.addr = addr; func = bsearch(&key, func_list, func_count, sizeof(*func_list), func_bcmp); return func; } void print_funcs(void) { int i; for (i = 0; i < (int)func_count; i++) { printf("%016llx %s", func_list[i].addr, func_list[i].func); if (func_list[i].mod) printf(" [%s]\n", func_list[i].mod); else printf("\n"); } } static struct printk_map { unsigned long long addr; char *printk; } *printk_list; static unsigned int printk_count; static int printk_cmp(const void *a, const void *b) { const struct func_map *fa = a; const struct func_map *fb = b; if (fa->addr < fb->addr) return -1; if (fa->addr > fb->addr) return 1; return 0; } static struct printk_map *find_printk(unsigned long long addr) { struct printk_map *printk; struct printk_map key; key.addr = addr; printk = bsearch(&key, printk_list, printk_count, sizeof(*printk_list), printk_cmp); return printk; } void parse_ftrace_printk(char *file, unsigned int size __unused) { struct printk_list { struct printk_list *next; unsigned long long addr; char *printk; } *list = NULL, *item; char *line; char *next = NULL; char *addr_str; int i; line = strtok_r(file, "\n", &next); while (line) { addr_str = strsep(&line, ":"); if (!line) { warning("error parsing print strings"); break; } item = malloc_or_die(sizeof(*item)); item->addr = strtoull(addr_str, NULL, 16); /* fmt still has a space, skip it */ item->printk = strdup(line+1); item->next = list; list = item; line = strtok_r(NULL, "\n", &next); printk_count++; } printk_list = malloc_or_die(sizeof(*printk_list) * printk_count + 1); i = 0; while (list) { printk_list[i].printk = list->printk; printk_list[i].addr = list->addr; i++; item = list; list = list->next; free(item); } qsort(printk_list, printk_count, sizeof(*printk_list), printk_cmp); } void print_printk(void) { int i; for (i = 0; i < (int)printk_count; i++) { printf("%016llx %s\n", printk_list[i].addr, printk_list[i].printk); } } static struct event *alloc_event(void) { struct event *event; event = malloc_or_die(sizeof(*event)); memset(event, 0, sizeof(*event)); return event; } enum event_type { EVENT_ERROR, EVENT_NONE, EVENT_SPACE, EVENT_NEWLINE, EVENT_OP, EVENT_DELIM, EVENT_ITEM, EVENT_DQUOTE, EVENT_SQUOTE, }; static struct event *event_list; static void add_event(struct event *event) { event->next = event_list; event_list = event; } static int event_item_type(enum event_type type) { switch (type) { case EVENT_ITEM ... EVENT_SQUOTE: return 1; case EVENT_ERROR ... EVENT_DELIM: default: return 0; } } static void free_arg(struct print_arg *arg) { if (!arg) return; switch (arg->type) { case PRINT_ATOM: if (arg->atom.atom) free(arg->atom.atom); break; case PRINT_NULL: case PRINT_FIELD ... PRINT_OP: default: /* todo */ break; } free(arg); } static enum event_type get_type(int ch) { if (ch == '\n') return EVENT_NEWLINE; if (isspace(ch)) return EVENT_SPACE; if (isalnum(ch) || ch == '_') return EVENT_ITEM; if (ch == '\'') return EVENT_SQUOTE; if (ch == '"') return EVENT_DQUOTE; if (!isprint(ch)) return EVENT_NONE; if (ch == '(' || ch == ')' || ch == ',') return EVENT_DELIM; return EVENT_OP; } static int __read_char(void) { if (input_buf_ptr >= input_buf_siz) return -1; return input_buf[input_buf_ptr++]; } static int __peek_char(void) { if (input_buf_ptr >= input_buf_siz) return -1; return input_buf[input_buf_ptr]; } static enum event_type __read_token(char **tok) { char buf[BUFSIZ]; int ch, last_ch, quote_ch, next_ch; int i = 0; int tok_size = 0; enum event_type type; *tok = NULL; ch = __read_char(); if (ch < 0) return EVENT_NONE; type = get_type(ch); if (type == EVENT_NONE) return type; buf[i++] = ch; switch (type) { case EVENT_NEWLINE: case EVENT_DELIM: *tok = malloc_or_die(2); (*tok)[0] = ch; (*tok)[1] = 0; return type; case EVENT_OP: switch (ch) { case '-': next_ch = __peek_char(); if (next_ch == '>') { buf[i++] = __read_char(); break; } /* fall through */ case '+': case '|': case '&': case '>': case '<': last_ch = ch; ch = __peek_char(); if (ch != last_ch) goto test_equal; buf[i++] = __read_char(); switch (last_ch) { case '>': case '<': goto test_equal; default: break; } break; case '!': case '=': goto test_equal; default: /* what should we do instead? */ break; } buf[i] = 0; *tok = strdup(buf); return type; test_equal: ch = __peek_char(); if (ch == '=') buf[i++] = __read_char(); break; case EVENT_DQUOTE: case EVENT_SQUOTE: /* don't keep quotes */ i--; quote_ch = ch; last_ch = 0; do { if (i == (BUFSIZ - 1)) { buf[i] = 0; if (*tok) { *tok = realloc(*tok, tok_size + BUFSIZ); if (!*tok) return EVENT_NONE; strcat(*tok, buf); } else *tok = strdup(buf); if (!*tok) return EVENT_NONE; tok_size += BUFSIZ; i = 0; } last_ch = ch; ch = __read_char(); buf[i++] = ch; /* the '\' '\' will cancel itself */ if (ch == '\\' && last_ch == '\\') last_ch = 0; } while (ch != quote_ch || last_ch == '\\'); /* remove the last quote */ i--; goto out; case EVENT_ERROR ... EVENT_SPACE: case EVENT_ITEM: default: break; } while (get_type(__peek_char()) == type) { if (i == (BUFSIZ - 1)) { buf[i] = 0; if (*tok) { *tok = realloc(*tok, tok_size + BUFSIZ); if (!*tok) return EVENT_NONE; strcat(*tok, buf); } else *tok = strdup(buf); if (!*tok) return EVENT_NONE; tok_size += BUFSIZ; i = 0; } ch = __read_char(); buf[i++] = ch; } out: buf[i] = 0; if (*tok) { *tok = realloc(*tok, tok_size + i); if (!*tok) return EVENT_NONE; strcat(*tok, buf); } else *tok = strdup(buf); if (!*tok) return EVENT_NONE; return type; } static void free_token(char *tok) { if (tok) free(tok); } static enum event_type read_token(char **tok) { enum event_type type; for (;;) { type = __read_token(tok); if (type != EVENT_SPACE) return type; free_token(*tok); } /* not reached */ return EVENT_NONE; } /* no newline */ static enum event_type read_token_item(char **tok) { enum event_type type; for (;;) { type = __read_token(tok); if (type != EVENT_SPACE && type != EVENT_NEWLINE) return type; free_token(*tok); } /* not reached */ return EVENT_NONE; } static int test_type(enum event_type type, enum event_type expect) { if (type != expect) { warning("Error: expected type %d but read %d", expect, type); return -1; } return 0; } static int __test_type_token(enum event_type type, char *token, enum event_type expect, const char *expect_tok, bool warn) { if (type != expect) { if (warn) warning("Error: expected type %d but read %d", expect, type); return -1; } if (strcmp(token, expect_tok) != 0) { if (warn) warning("Error: expected '%s' but read '%s'", expect_tok, token); return -1; } return 0; } static int test_type_token(enum event_type type, char *token, enum event_type expect, const char *expect_tok) { return __test_type_token(type, token, expect, expect_tok, true); } static int __read_expect_type(enum event_type expect, char **tok, int newline_ok) { enum event_type type; if (newline_ok) type = read_token(tok); else type = read_token_item(tok); return test_type(type, expect); } static int read_expect_type(enum event_type expect, char **tok) { return __read_expect_type(expect, tok, 1); } static int __read_expected(enum event_type expect, const char *str, int newline_ok, bool warn) { enum event_type type; char *token; int ret; if (newline_ok) type = read_token(&token); else type = read_token_item(&token); ret = __test_type_token(type, token, expect, str, warn); free_token(token); return ret; } static int read_expected(enum event_type expect, const char *str) { return __read_expected(expect, str, 1, true); } static int read_expected_item(enum event_type expect, const char *str) { return __read_expected(expect, str, 0, true); } static char *event_read_name(void) { char *token; if (read_expected(EVENT_ITEM, "name") < 0) return NULL; if (read_expected(EVENT_OP, ":") < 0) return NULL; if (read_expect_type(EVENT_ITEM, &token) < 0) goto fail; return token; fail: free_token(token); return NULL; } static int event_read_id(void) { char *token; int id; if (read_expected_item(EVENT_ITEM, "ID") < 0) return -1; if (read_expected(EVENT_OP, ":") < 0) return -1; if (read_expect_type(EVENT_ITEM, &token) < 0) goto fail; id = strtoul(token, NULL, 0); free_token(token); return id; fail: free_token(token); return -1; } static int field_is_string(struct format_field *field) { if ((field->flags & FIELD_IS_ARRAY) && (!strstr(field->type, "char") || !strstr(field->type, "u8") || !strstr(field->type, "s8"))) return 1; return 0; } static int field_is_dynamic(struct format_field *field) { if (!strncmp(field->type, "__data_loc", 10)) return 1; return 0; } static int event_read_fields(struct event *event, struct format_field **fields) { struct format_field *field = NULL; enum event_type type; char *token; char *last_token; int count = 0; do { type = read_token(&token); if (type == EVENT_NEWLINE) { free_token(token); return count; } count++; if (test_type_token(type, token, EVENT_ITEM, "field")) goto fail; free_token(token); type = read_token(&token); /* * The ftrace fields may still use the "special" name. * Just ignore it. */ if (event->flags & EVENT_FL_ISFTRACE && type == EVENT_ITEM && strcmp(token, "special") == 0) { free_token(token); type = read_token(&token); } if (test_type_token(type, token, EVENT_OP, ":") < 0) return -1; if (read_expect_type(EVENT_ITEM, &token) < 0) goto fail; last_token = token; field = malloc_or_die(sizeof(*field)); memset(field, 0, sizeof(*field)); /* read the rest of the type */ for (;;) { type = read_token(&token); if (type == EVENT_ITEM || (type == EVENT_OP && strcmp(token, "*") == 0) || /* * Some of the ftrace fields are broken and have * an illegal "." in them. */ (event->flags & EVENT_FL_ISFTRACE && type == EVENT_OP && strcmp(token, ".") == 0)) { if (strcmp(token, "*") == 0) field->flags |= FIELD_IS_POINTER; if (field->type) { field->type = realloc(field->type, strlen(field->type) + strlen(last_token) + 2); strcat(field->type, " "); strcat(field->type, last_token); } else field->type = last_token; last_token = token; continue; } break; } if (!field->type) { die("no type found"); goto fail; } field->name = last_token; if (test_type(type, EVENT_OP)) goto fail; if (strcmp(token, "[") == 0) { enum event_type last_type = type; char *brackets = token; int len; field->flags |= FIELD_IS_ARRAY; type = read_token(&token); while (strcmp(token, "]") != 0) { if (last_type == EVENT_ITEM && type == EVENT_ITEM) len = 2; else len = 1; last_type = type; brackets = realloc(brackets, strlen(brackets) + strlen(token) + len); if (len == 2) strcat(brackets, " "); strcat(brackets, token); free_token(token); type = read_token(&token); if (type == EVENT_NONE) { die("failed to find token"); goto fail; } } free_token(token); brackets = realloc(brackets, strlen(brackets) + 2); strcat(brackets, "]"); /* add brackets to type */ type = read_token(&token); /* * If the next token is not an OP, then it is of * the format: type [] item; */ if (type == EVENT_ITEM) { field->type = realloc(field->type, strlen(field->type) + strlen(field->name) + strlen(brackets) + 2); strcat(field->type, " "); strcat(field->type, field->name); free_token(field->name); strcat(field->type, brackets); field->name = token; type = read_token(&token); } else { field->type = realloc(field->type, strlen(field->type) + strlen(brackets) + 1); strcat(field->type, brackets); } free(brackets); } if (field_is_string(field)) { field->flags |= FIELD_IS_STRING; if (field_is_dynamic(field)) field->flags |= FIELD_IS_DYNAMIC; } if (test_type_token(type, token, EVENT_OP, ";")) goto fail; free_token(token); if (read_expected(EVENT_ITEM, "offset") < 0) goto fail_expect; if (read_expected(EVENT_OP, ":") < 0) goto fail_expect; if (read_expect_type(EVENT_ITEM, &token)) goto fail; field->offset = strtoul(token, NULL, 0); free_token(token); if (read_expected(EVENT_OP, ";") < 0) goto fail_expect; if (read_expected(EVENT_ITEM, "size") < 0) goto fail_expect; if (read_expected(EVENT_OP, ":") < 0) goto fail_expect; if (read_expect_type(EVENT_ITEM, &token)) goto fail; field->size = strtoul(token, NULL, 0); free_token(token); if (read_expected(EVENT_OP, ";") < 0) goto fail_expect; type = read_token(&token); if (type != EVENT_NEWLINE) { /* newer versions of the kernel have a "signed" type */ if (test_type_token(type, token, EVENT_ITEM, "signed")) goto fail; free_token(token); if (read_expected(EVENT_OP, ":") < 0) goto fail_expect; if (read_expect_type(EVENT_ITEM, &token)) goto fail; if (strtoul(token, NULL, 0)) field->flags |= FIELD_IS_SIGNED; free_token(token); if (read_expected(EVENT_OP, ";") < 0) goto fail_expect; if (read_expect_type(EVENT_NEWLINE, &token)) goto fail; } free_token(token); *fields = field; fields = &field->next; } while (1); return 0; fail: free_token(token); fail_expect: if (field) free(field); return -1; } static int event_read_format(struct event *event) { char *token; int ret; if (read_expected_item(EVENT_ITEM, "format") < 0) return -1; if (read_expected(EVENT_OP, ":") < 0) return -1; if (read_expect_type(EVENT_NEWLINE, &token)) goto fail; free_token(token); ret = event_read_fields(event, &event->format.common_fields); if (ret < 0) return ret; event->format.nr_common = ret; ret = event_read_fields(event, &event->format.fields); if (ret < 0) return ret; event->format.nr_fields = ret; return 0; fail: free_token(token); return -1; } enum event_type process_arg_token(struct event *event, struct print_arg *arg, char **tok, enum event_type type); static enum event_type process_arg(struct event *event, struct print_arg *arg, char **tok) { enum event_type type; char *token; type = read_token(&token); *tok = token; return process_arg_token(event, arg, tok, type); } static enum event_type process_cond(struct event *event, struct print_arg *top, char **tok) { struct print_arg *arg, *left, *right; enum event_type type; char *token = NULL; arg = malloc_or_die(sizeof(*arg)); memset(arg, 0, sizeof(*arg)); left = malloc_or_die(sizeof(*left)); right = malloc_or_die(sizeof(*right)); arg->type = PRINT_OP; arg->op.left = left; arg->op.right = right; *tok = NULL; type = process_arg(event, left, &token); if (test_type_token(type, token, EVENT_OP, ":")) goto out_free; arg->op.op = token; type = process_arg(event, right, &token); top->op.right = arg; *tok = token; return type; out_free: free_token(*tok); free(right); free(left); free_arg(arg); return EVENT_ERROR; } static enum event_type process_array(struct event *event, struct print_arg *top, char **tok) { struct print_arg *arg; enum event_type type; char *token = NULL; arg = malloc_or_die(sizeof(*arg)); memset(arg, 0, sizeof(*arg)); *tok = NULL; type = process_arg(event, arg, &token); if (test_type_token(type, token, EVENT_OP, "]")) goto out_free; top->op.right = arg; free_token(token); type = read_token_item(&token); *tok = token; return type; out_free: free_token(*tok); free_arg(arg); return EVENT_ERROR; } static int get_op_prio(char *op) { if (!op[1]) { switch (op[0]) { case '*': case '/': case '%': return 6; case '+': case '-': return 7; /* '>>' and '<<' are 8 */ case '<': case '>': return 9; /* '==' and '!=' are 10 */ case '&': return 11; case '^': return 12; case '|': return 13; case '?': return 16; default: die("unknown op '%c'", op[0]); return -1; } } else { if (strcmp(op, "++") == 0 || strcmp(op, "--") == 0) { return 3; } else if (strcmp(op, ">>") == 0 || strcmp(op, "<<") == 0) { return 8; } else if (strcmp(op, ">=") == 0 || strcmp(op, "<=") == 0) { return 9; } else if (strcmp(op, "==") == 0 || strcmp(op, "!=") == 0) { return 10; } else if (strcmp(op, "&&") == 0) { return 14; } else if (strcmp(op, "||") == 0) { return 15; } else { die("unknown op '%s'", op); return -1; } } } static void set_op_prio(struct print_arg *arg) { /* single ops are the greatest */ if (!arg->op.left || arg->op.left->type == PRINT_NULL) { arg->op.prio = 0; return; } arg->op.prio = get_op_prio(arg->op.op); } static enum event_type process_op(struct event *event, struct print_arg *arg, char **tok) { struct print_arg *left, *right = NULL; enum event_type type; char *token; /* the op is passed in via tok */ token = *tok; if (arg->type == PRINT_OP && !arg->op.left) { /* handle single op */ if (token[1]) { die("bad op token %s", token); return EVENT_ERROR; } switch (token[0]) { case '!': case '+': case '-': break; default: die("bad op token %s", token); return EVENT_ERROR; } /* make an empty left */ left = malloc_or_die(sizeof(*left)); left->type = PRINT_NULL; arg->op.left = left; right = malloc_or_die(sizeof(*right)); arg->op.right = right; type = process_arg(event, right, tok); } else if (strcmp(token, "?") == 0) { left = malloc_or_die(sizeof(*left)); /* copy the top arg to the left */ *left = *arg; arg->type = PRINT_OP; arg->op.op = token; arg->op.left = left; arg->op.prio = 0; type = process_cond(event, arg, tok); } else if (strcmp(token, ">>") == 0 || strcmp(token, "<<") == 0 || strcmp(token, "&") == 0 || strcmp(token, "|") == 0 || strcmp(token, "&&") == 0 || strcmp(token, "||") == 0 || strcmp(token, "-") == 0 || strcmp(token, "+") == 0 || strcmp(token, "*") == 0 || strcmp(token, "^") == 0 || strcmp(token, "/") == 0 || strcmp(token, "<") == 0 || strcmp(token, ">") == 0 || strcmp(token, "==") == 0 || strcmp(token, "!=") == 0) { left = malloc_or_die(sizeof(*left)); /* copy the top arg to the left */ *left = *arg; arg->type = PRINT_OP; arg->op.op = token; arg->op.left = left; set_op_prio(arg); right = malloc_or_die(sizeof(*right)); type = read_token_item(&token); *tok = token; /* could just be a type pointer */ if ((strcmp(arg->op.op, "*") == 0) && type == EVENT_DELIM && (strcmp(token, ")") == 0)) { if (left->type != PRINT_ATOM) die("bad pointer type"); left->atom.atom = realloc(left->atom.atom, sizeof(left->atom.atom) + 3); strcat(left->atom.atom, " *"); *arg = *left; free(arg); return type; } type = process_arg_token(event, right, tok, type); arg->op.right = right; } else if (strcmp(token, "[") == 0) { left = malloc_or_die(sizeof(*left)); *left = *arg; arg->type = PRINT_OP; arg->op.op = token; arg->op.left = left; arg->op.prio = 0; type = process_array(event, arg, tok); } else { warning("unknown op '%s'", token); event->flags |= EVENT_FL_FAILED; /* the arg is now the left side */ return EVENT_NONE; } if (type == EVENT_OP) { int prio; /* higher prios need to be closer to the root */ prio = get_op_prio(*tok); if (prio > arg->op.prio) return process_op(event, arg, tok); return process_op(event, right, tok); } return type; } static enum event_type process_entry(struct event *event __unused, struct print_arg *arg, char **tok) { enum event_type type; char *field; char *token; if (read_expected(EVENT_OP, "->") < 0) return EVENT_ERROR; if (read_expect_type(EVENT_ITEM, &token) < 0) goto fail; field = token; arg->type = PRINT_FIELD; arg->field.name = field; if (is_flag_field) { arg->field.field = find_any_field(event, arg->field.name); arg->field.field->flags |= FIELD_IS_FLAG; is_flag_field = 0; } else if (is_symbolic_field) { arg->field.field = find_any_field(event, arg->field.name); arg->field.field->flags |= FIELD_IS_SYMBOLIC; is_symbolic_field = 0; } type = read_token(&token); *tok = token; return type; fail: free_token(token); return EVENT_ERROR; } static char *arg_eval (struct print_arg *arg); static long long arg_num_eval(struct print_arg *arg) { long long left, right; long long val = 0; switch (arg->type) { case PRINT_ATOM: val = strtoll(arg->atom.atom, NULL, 0); break; case PRINT_TYPE: val = arg_num_eval(arg->typecast.item); break; case PRINT_OP: switch (arg->op.op[0]) { case '|': left = arg_num_eval(arg->op.left); right = arg_num_eval(arg->op.right); if (arg->op.op[1]) val = left || right; else val = left | right; break; case '&': left = arg_num_eval(arg->op.left); right = arg_num_eval(arg->op.right); if (arg->op.op[1]) val = left && right; else val = left & right; break; case '<': left = arg_num_eval(arg->op.left); right = arg_num_eval(arg->op.right); switch (arg->op.op[1]) { case 0: val = left < right; break; case '<': val = left << right; break; case '=': val = left <= right; break; default: die("unknown op '%s'", arg->op.op); } break; case '>': left = arg_num_eval(arg->op.left); right = arg_num_eval(arg->op.right); switch (arg->op.op[1]) { case 0: val = left > right; break; case '>': val = left >> right; break; case '=': val = left >= right; break; default: die("unknown op '%s'", arg->op.op); } break; case '=': left = arg_num_eval(arg->op.left); right = arg_num_eval(arg->op.right); if (arg->op.op[1] != '=') die("unknown op '%s'", arg->op.op); val = left == right; break; case '!': left = arg_num_eval(arg->op.left); right = arg_num_eval(arg->op.right); switch (arg->op.op[1]) { case '=': val = left != right; break; default: die("unknown op '%s'", arg->op.op); } break; default: die("unknown op '%s'", arg->op.op); } break; case PRINT_NULL: case PRINT_FIELD ... PRINT_SYMBOL: case PRINT_STRING: default: die("invalid eval type %d", arg->type); } return val; } static char *arg_eval (struct print_arg *arg) { long long val; static char buf[20]; switch (arg->type) { case PRINT_ATOM: return arg->atom.atom; case PRINT_TYPE: return arg_eval(arg->typecast.item); case PRINT_OP: val = arg_num_eval(arg); sprintf(buf, "%lld", val); return buf; case PRINT_NULL: case PRINT_FIELD ... PRINT_SYMBOL: case PRINT_STRING: default: die("invalid eval type %d", arg->type); break; } return NULL; } static enum event_type process_fields(struct event *event, struct print_flag_sym **list, char **tok) { enum event_type type; struct print_arg *arg = NULL; struct print_flag_sym *field; char *token = NULL; char *value; do { free_token(token); type = read_token_item(&token); if (test_type_token(type, token, EVENT_OP, "{")) break; arg = malloc_or_die(sizeof(*arg)); free_token(token); type = process_arg(event, arg, &token); if (test_type_token(type, token, EVENT_DELIM, ",")) goto out_free; field = malloc_or_die(sizeof(*field)); memset(field, 0, sizeof(*field)); value = arg_eval(arg); field->value = strdup(value); free_token(token); type = process_arg(event, arg, &token); if (test_type_token(type, token, EVENT_OP, "}")) goto out_free; value = arg_eval(arg); field->str = strdup(value); free_arg(arg); arg = NULL; *list = field; list = &field->next; free_token(token); type = read_token_item(&token); } while (type == EVENT_DELIM && strcmp(token, ",") == 0); *tok = token; return type; out_free: free_arg(arg); free_token(token); return EVENT_ERROR; } static enum event_type process_flags(struct event *event, struct print_arg *arg, char **tok) { struct print_arg *field; enum event_type type; char *token; memset(arg, 0, sizeof(*arg)); arg->type = PRINT_FLAGS; if (read_expected_item(EVENT_DELIM, "(") < 0) return EVENT_ERROR; field = malloc_or_die(sizeof(*field)); type = process_arg(event, field, &token); if (test_type_token(type, token, EVENT_DELIM, ",")) goto out_free; arg->flags.field = field; type = read_token_item(&token); if (event_item_type(type)) { arg->flags.delim = token; type = read_token_item(&token); } if (test_type_token(type, token, EVENT_DELIM, ",")) goto out_free; type = process_fields(event, &arg->flags.flags, &token); if (test_type_token(type, token, EVENT_DELIM, ")")) goto out_free; free_token(token); type = read_token_item(tok); return type; out_free: free_token(token); return EVENT_ERROR; } static enum event_type process_symbols(struct event *event, struct print_arg *arg, char **tok) { struct print_arg *field; enum event_type type; char *token; memset(arg, 0, sizeof(*arg)); arg->type = PRINT_SYMBOL; if (read_expected_item(EVENT_DELIM, "(") < 0) return EVENT_ERROR; field = malloc_or_die(sizeof(*field)); type = process_arg(event, field, &token); if (test_type_token(type, token, EVENT_DELIM, ",")) goto out_free; arg->symbol.field = field; type = process_fields(event, &arg->symbol.symbols, &token); if (test_type_token(type, token, EVENT_DELIM, ")")) goto out_free; free_token(token); type = read_token_item(tok); return type; out_free: free_token(token); return EVENT_ERROR; } static enum event_type process_paren(struct event *event, struct print_arg *arg, char **tok) { struct print_arg *item_arg; enum event_type type; char *token; type = process_arg(event, arg, &token); if (type == EVENT_ERROR) return EVENT_ERROR; if (type == EVENT_OP) type = process_op(event, arg, &token); if (type == EVENT_ERROR) return EVENT_ERROR; if (test_type_token(type, token, EVENT_DELIM, ")")) { free_token(token); return EVENT_ERROR; } free_token(token); type = read_token_item(&token); /* * If the next token is an item or another open paren, then * this was a typecast. */ if (event_item_type(type) || (type == EVENT_DELIM && strcmp(token, "(") == 0)) { /* make this a typecast and contine */ /* prevous must be an atom */ if (arg->type != PRINT_ATOM) die("previous needed to be PRINT_ATOM"); item_arg = malloc_or_die(sizeof(*item_arg)); arg->type = PRINT_TYPE; arg->typecast.type = arg->atom.atom; arg->typecast.item = item_arg; type = process_arg_token(event, item_arg, &token, type); } *tok = token; return type; } static enum event_type process_str(struct event *event __unused, struct print_arg *arg, char **tok) { enum event_type type; char *token; if (read_expected(EVENT_DELIM, "(") < 0) return EVENT_ERROR; if (read_expect_type(EVENT_ITEM, &token) < 0) goto fail; arg->type = PRINT_STRING; arg->string.string = token; arg->string.offset = -1; if (read_expected(EVENT_DELIM, ")") < 0) return EVENT_ERROR; type = read_token(&token); *tok = token; return type; fail: free_token(token); return EVENT_ERROR; } enum event_type process_arg_token(struct event *event, struct print_arg *arg, char **tok, enum event_type type) { char *token; char *atom; token = *tok; switch (type) { case EVENT_ITEM: if (strcmp(token, "REC") == 0) { free_token(token); type = process_entry(event, arg, &token); } else if (strcmp(token, "__print_flags") == 0) { free_token(token); is_flag_field = 1; type = process_flags(event, arg, &token); } else if (strcmp(token, "__print_symbolic") == 0) { free_token(token); is_symbolic_field = 1; type = process_symbols(event, arg, &token); } else if (strcmp(token, "__get_str") == 0) { free_token(token); type = process_str(event, arg, &token); } else { atom = token; /* test the next token */ type = read_token_item(&token); /* atoms can be more than one token long */ while (type == EVENT_ITEM) { atom = realloc(atom, strlen(atom) + strlen(token) + 2); strcat(atom, " "); strcat(atom, token); free_token(token); type = read_token_item(&token); } /* todo, test for function */ arg->type = PRINT_ATOM; arg->atom.atom = atom; } break; case EVENT_DQUOTE: case EVENT_SQUOTE: arg->type = PRINT_ATOM; arg->atom.atom = token; type = read_token_item(&token); break; case EVENT_DELIM: if (strcmp(token, "(") == 0) { free_token(token); type = process_paren(event, arg, &token); break; } case EVENT_OP: /* handle single ops */ arg->type = PRINT_OP; arg->op.op = token; arg->op.left = NULL; type = process_op(event, arg, &token); break; case EVENT_ERROR ... EVENT_NEWLINE: default: die("unexpected type %d", type); } *tok = token; return type; } static int event_read_print_args(struct event *event, struct print_arg **list) { enum event_type type = EVENT_ERROR; struct print_arg *arg; char *token; int args = 0; do { if (type == EVENT_NEWLINE) { free_token(token); type = read_token_item(&token); continue; } arg = malloc_or_die(sizeof(*arg)); memset(arg, 0, sizeof(*arg)); type = process_arg(event, arg, &token); if (type == EVENT_ERROR) { free_arg(arg); return -1; } *list = arg; args++; if (type == EVENT_OP) { type = process_op(event, arg, &token); list = &arg->next; continue; } if (type == EVENT_DELIM && strcmp(token, ",") == 0) { free_token(token); *list = arg; list = &arg->next; continue; } break; } while (type != EVENT_NONE); if (type != EVENT_NONE) free_token(token); return args; } static int event_read_print(struct event *event) { enum event_type type; char *token; int ret; if (read_expected_item(EVENT_ITEM, "print") < 0) return -1; if (read_expected(EVENT_ITEM, "fmt") < 0) return -1; if (read_expected(EVENT_OP, ":") < 0) return -1; if (read_expect_type(EVENT_DQUOTE, &token) < 0) goto fail; concat: event->print_fmt.format = token; event->print_fmt.args = NULL; /* ok to have no arg */ type = read_token_item(&token); if (type == EVENT_NONE) return 0; /* Handle concatination of print lines */ if (type == EVENT_DQUOTE) { char *cat; cat = malloc_or_die(strlen(event->print_fmt.format) + strlen(token) + 1); strcpy(cat, event->print_fmt.format); strcat(cat, token); free_token(token); free_token(event->print_fmt.format); event->print_fmt.format = NULL; token = cat; goto concat; } if (test_type_token(type, token, EVENT_DELIM, ",")) goto fail; free_token(token); ret = event_read_print_args(event, &event->print_fmt.args); if (ret < 0) return -1; return ret; fail: free_token(token); return -1; } static struct format_field * find_common_field(struct event *event, const char *name) { struct format_field *format; for (format = event->format.common_fields; format; format = format->next) { if (strcmp(format->name, name) == 0) break; } return format; } static struct format_field * find_field(struct event *event, const char *name) { struct format_field *format; for (format = event->format.fields; format; format = format->next) { if (strcmp(format->name, name) == 0) break; } return format; } static struct format_field * find_any_field(struct event *event, const char *name) { struct format_field *format; format = find_common_field(event, name); if (format) return format; return find_field(event, name); } unsigned long long read_size(void *ptr, int size) { switch (size) { case 1: return *(unsigned char *)ptr; case 2: return data2host2(ptr); case 4: return data2host4(ptr); case 8: return data2host8(ptr); default: /* BUG! */ return 0; } } unsigned long long raw_field_value(struct event *event, const char *name, void *data) { struct format_field *field; field = find_any_field(event, name); if (!field) return 0ULL; return read_size(data + field->offset, field->size); } void *raw_field_ptr(struct event *event, const char *name, void *data) { struct format_field *field; field = find_any_field(event, name); if (!field) return NULL; if (field->flags & FIELD_IS_DYNAMIC) { int offset; offset = *(int *)(data + field->offset); offset &= 0xffff; return data + offset; } return data + field->offset; } static int get_common_info(const char *type, int *offset, int *size) { struct event *event; struct format_field *field; /* * All events should have the same common elements. * Pick any event to find where the type is; */ if (!event_list) die("no event_list!"); event = event_list; field = find_common_field(event, type); if (!field) die("field '%s' not found", type); *offset = field->offset; *size = field->size; return 0; } static int __parse_common(void *data, int *size, int *offset, const char *name) { int ret; if (!*size) { ret = get_common_info(name, offset, size); if (ret < 0) return ret; } return read_size(data + *offset, *size); } int trace_parse_common_type(void *data) { static int type_offset; static int type_size; return __parse_common(data, &type_size, &type_offset, "common_type"); } int trace_parse_common_pid(void *data) { static int pid_offset; static int pid_size; return __parse_common(data, &pid_size, &pid_offset, "common_pid"); } int parse_common_pc(void *data) { static int pc_offset; static int pc_size; return __parse_common(data, &pc_size, &pc_offset, "common_preempt_count"); } int parse_common_flags(void *data) { static int flags_offset; static int flags_size; return __parse_common(data, &flags_size, &flags_offset, "common_flags"); } int parse_common_lock_depth(void *data) { static int ld_offset; static int ld_size; int ret; ret = __parse_common(data, &ld_size, &ld_offset, "common_lock_depth"); if (ret < 0) return -1; return ret; } struct event *trace_find_event(int id) { struct event *event; for (event = event_list; event; event = event->next) { if (event->id == id) break; } return event; } struct event *trace_find_next_event(struct event *event) { if (!event) return event_list; return event->next; } static unsigned long long eval_num_arg(void *data, int size, struct event *event, struct print_arg *arg) { unsigned long long val = 0; unsigned long long left, right; struct print_arg *larg; switch (arg->type) { case PRINT_NULL: /* ?? */ return 0; case PRINT_ATOM: return strtoull(arg->atom.atom, NULL, 0); case PRINT_FIELD: if (!arg->field.field) { arg->field.field = find_any_field(event, arg->field.name); if (!arg->field.field) die("field %s not found", arg->field.name); } /* must be a number */ val = read_size(data + arg->field.field->offset, arg->field.field->size); break; case PRINT_FLAGS: case PRINT_SYMBOL: break; case PRINT_TYPE: return eval_num_arg(data, size, event, arg->typecast.item); case PRINT_STRING: return 0; break; case PRINT_OP: if (strcmp(arg->op.op, "[") == 0) { /* * Arrays are special, since we don't want * to read the arg as is. */ if (arg->op.left->type != PRINT_FIELD) goto default_op; /* oops, all bets off */ larg = arg->op.left; if (!larg->field.field) { larg->field.field = find_any_field(event, larg->field.name); if (!larg->field.field) die("field %s not found", larg->field.name); } right = eval_num_arg(data, size, event, arg->op.right); val = read_size(data + larg->field.field->offset + right * long_size, long_size); break; } default_op: left = eval_num_arg(data, size, event, arg->op.left); right = eval_num_arg(data, size, event, arg->op.right); switch (arg->op.op[0]) { case '|': if (arg->op.op[1]) val = left || right; else val = left | right; break; case '&': if (arg->op.op[1]) val = left && right; else val = left & right; break; case '<': switch (arg->op.op[1]) { case 0: val = left < right; break; case '<': val = left << right; break; case '=': val = left <= right; break; default: die("unknown op '%s'", arg->op.op); } break; case '>': switch (arg->op.op[1]) { case 0: val = left > right; break; case '>': val = left >> right; break; case '=': val = left >= right; break; default: die("unknown op '%s'", arg->op.op); } break; case '=': if (arg->op.op[1] != '=') die("unknown op '%s'", arg->op.op); val = left == right; break; case '-': val = left - right; break; case '+': val = left + right; break; default: die("unknown op '%s'", arg->op.op); } break; default: /* not sure what to do there */ return 0; } return val; } struct flag { const char *name; unsigned long long value; }; static const struct flag flags[] = { { "HI_SOFTIRQ", 0 }, { "TIMER_SOFTIRQ", 1 }, { "NET_TX_SOFTIRQ", 2 }, { "NET_RX_SOFTIRQ", 3 }, { "BLOCK_SOFTIRQ", 4 }, { "BLOCK_IOPOLL_SOFTIRQ", 5 }, { "TASKLET_SOFTIRQ", 6 }, { "SCHED_SOFTIRQ", 7 }, { "HRTIMER_SOFTIRQ", 8 }, { "RCU_SOFTIRQ", 9 }, { "HRTIMER_NORESTART", 0 }, { "HRTIMER_RESTART", 1 }, }; unsigned long long eval_flag(const char *flag) { int i; /* * Some flags in the format files do not get converted. * If the flag is not numeric, see if it is something that * we already know about. */ if (isdigit(flag[0])) return strtoull(flag, NULL, 0); for (i = 0; i < (int)(sizeof(flags)/sizeof(flags[0])); i++) if (strcmp(flags[i].name, flag) == 0) return flags[i].value; return 0; } static void print_str_arg(void *data, int size, struct event *event, struct print_arg *arg) { struct print_flag_sym *flag; unsigned long long val, fval; char *str; int print; switch (arg->type) { case PRINT_NULL: /* ?? */ return; case PRINT_ATOM: printf("%s", arg->atom.atom); return; case PRINT_FIELD: if (!arg->field.field) { arg->field.field = find_any_field(event, arg->field.name); if (!arg->field.field) die("field %s not found", arg->field.name); } str = malloc_or_die(arg->field.field->size + 1); memcpy(str, data + arg->field.field->offset, arg->field.field->size); str[arg->field.field->size] = 0; printf("%s", str); free(str); break; case PRINT_FLAGS: val = eval_num_arg(data, size, event, arg->flags.field); print = 0; for (flag = arg->flags.flags; flag; flag = flag->next) { fval = eval_flag(flag->value); if (!val && !fval) { printf("%s", flag->str); break; } if (fval && (val & fval) == fval) { if (print && arg->flags.delim) printf("%s", arg->flags.delim); printf("%s", flag->str); print = 1; val &= ~fval; } } break; case PRINT_SYMBOL: val = eval_num_arg(data, size, event, arg->symbol.field); for (flag = arg->symbol.symbols; flag; flag = flag->next) { fval = eval_flag(flag->value); if (val == fval) { printf("%s", flag->str); break; } } break; case PRINT_TYPE: break; case PRINT_STRING: { int str_offset; if (arg->string.offset == -1) { struct format_field *f; f = find_any_field(event, arg->string.string); arg->string.offset = f->offset; } str_offset = *(int *)(data + arg->string.offset); str_offset &= 0xffff; printf("%s", ((char *)data) + str_offset); break; } case PRINT_OP: /* * The only op for string should be ? : */ if (arg->op.op[0] != '?') return; val = eval_num_arg(data, size, event, arg->op.left); if (val) print_str_arg(data, size, event, arg->op.right->op.left); else print_str_arg(data, size, event, arg->op.right->op.right); break; default: /* well... */ break; } } static struct print_arg *make_bprint_args(char *fmt, void *data, int size, struct event *event) { static struct format_field *field, *ip_field; struct print_arg *args, *arg, **next; unsigned long long ip, val; char *ptr; void *bptr; if (!field) { field = find_field(event, "buf"); if (!field) die("can't find buffer field for binary printk"); ip_field = find_field(event, "ip"); if (!ip_field) die("can't find ip field for binary printk"); } ip = read_size(data + ip_field->offset, ip_field->size); /* * The first arg is the IP pointer. */ args = malloc_or_die(sizeof(*args)); arg = args; arg->next = NULL; next = &arg->next; arg->type = PRINT_ATOM; arg->atom.atom = malloc_or_die(32); sprintf(arg->atom.atom, "%lld", ip); /* skip the first "%pf : " */ for (ptr = fmt + 6, bptr = data + field->offset; bptr < data + size && *ptr; ptr++) { int ls = 0; if (*ptr == '%') { process_again: ptr++; switch (*ptr) { case '%': break; case 'l': ls++; goto process_again; case 'L': ls = 2; goto process_again; case '0' ... '9': goto process_again; case 'p': ls = 1; /* fall through */ case 'd': case 'u': case 'x': case 'i': /* the pointers are always 4 bytes aligned */ bptr = (void *)(((unsigned long)bptr + 3) & ~3); switch (ls) { case 0: case 1: ls = long_size; break; case 2: ls = 8; default: break; } val = read_size(bptr, ls); bptr += ls; arg = malloc_or_die(sizeof(*arg)); arg->next = NULL; arg->type = PRINT_ATOM; arg->atom.atom = malloc_or_die(32); sprintf(arg->atom.atom, "%lld", val); *next = arg; next = &arg->next; break; case 's': arg = malloc_or_die(sizeof(*arg)); arg->next = NULL; arg->type = PRINT_STRING; arg->string.string = strdup(bptr); bptr += strlen(bptr) + 1; *next = arg; next = &arg->next; default: break; } } } return args; } static void free_args(struct print_arg *args) { struct print_arg *next; while (args) { next = args->next; if (args->type == PRINT_ATOM) free(args->atom.atom); else free(args->string.string); free(args); args = next; } } static char *get_bprint_format(void *data, int size __unused, struct event *event) { unsigned long long addr; static struct format_field *field; struct printk_map *printk; char *format; char *p; if (!field) { field = find_field(event, "fmt"); if (!field) die("can't find format field for binary printk"); printf("field->offset = %d size=%d\n", field->offset, field->size); } addr = read_size(data + field->offset, field->size); printk = find_printk(addr); if (!printk) { format = malloc_or_die(45); sprintf(format, "%%pf : (NO FORMAT FOUND at %llx)\n", addr); return format; } p = printk->printk; /* Remove any quotes. */ if (*p == '"') p++; format = malloc_or_die(strlen(p) + 10); sprintf(format, "%s : %s", "%pf", p); /* remove ending quotes and new line since we will add one too */ p = format + strlen(format) - 1; if (*p == '"') *p = 0; p -= 2; if (strcmp(p, "\\n") == 0) *p = 0; return format; } static void pretty_print(void *data, int size, struct event *event) { struct print_fmt *print_fmt = &event->print_fmt; struct print_arg *arg = print_fmt->args; struct print_arg *args = NULL; const char *ptr = print_fmt->format; unsigned long long val; struct func_map *func; const char *saveptr; char *bprint_fmt = NULL; char format[32]; int show_func; int len; int ls; if (event->flags & EVENT_FL_ISFUNC) ptr = " %pF <-- %pF"; if (event->flags & EVENT_FL_ISBPRINT) { bprint_fmt = get_bprint_format(data, size, event); args = make_bprint_args(bprint_fmt, data, size, event); arg = args; ptr = bprint_fmt; } for (; *ptr; ptr++) { ls = 0; if (*ptr == '\\') { ptr++; switch (*ptr) { case 'n': printf("\n"); break; case 't': printf("\t"); break; case 'r': printf("\r"); break; case '\\': printf("\\"); break; default: printf("%c", *ptr); break; } } else if (*ptr == '%') { saveptr = ptr; show_func = 0; cont_process: ptr++; switch (*ptr) { case '%': printf("%%"); break; case 'l': ls++; goto cont_process; case 'L': ls = 2; goto cont_process; case 'z': case 'Z': case '0' ... '9': goto cont_process; case 'p': if (long_size == 4) ls = 1; else ls = 2; if (*(ptr+1) == 'F' || *(ptr+1) == 'f') { ptr++; show_func = *ptr; } /* fall through */ case 'd': case 'i': case 'x': case 'X': case 'u': if (!arg) die("no argument match"); len = ((unsigned long)ptr + 1) - (unsigned long)saveptr; /* should never happen */ if (len > 32) die("bad format!"); memcpy(format, saveptr, len); format[len] = 0; val = eval_num_arg(data, size, event, arg); arg = arg->next; if (show_func) { func = find_func(val); if (func) { printf("%s", func->func); if (show_func == 'F') printf("+0x%llx", val - func->addr); break; } } switch (ls) { case 0: printf(format, (int)val); break; case 1: printf(format, (long)val); break; case 2: printf(format, (long long)val); break; default: die("bad count (%d)", ls); } break; case 's': if (!arg) die("no matching argument"); print_str_arg(data, size, event, arg); arg = arg->next; break; default: printf(">%c<", *ptr); } } else printf("%c", *ptr); } if (args) { free_args(args); free(bprint_fmt); } } static inline int log10_cpu(int nb) { if (nb / 100) return 3; if (nb / 10) return 2; return 1; } static void print_lat_fmt(void *data, int size __unused) { unsigned int lat_flags; unsigned int pc; int lock_depth; int hardirq; int softirq; lat_flags = parse_common_flags(data); pc = parse_common_pc(data); lock_depth = parse_common_lock_depth(data); hardirq = lat_flags & TRACE_FLAG_HARDIRQ; softirq = lat_flags & TRACE_FLAG_SOFTIRQ; printf("%c%c%c", (lat_flags & TRACE_FLAG_IRQS_OFF) ? 'd' : (lat_flags & TRACE_FLAG_IRQS_NOSUPPORT) ? 'X' : '.', (lat_flags & TRACE_FLAG_NEED_RESCHED) ? 'N' : '.', (hardirq && softirq) ? 'H' : hardirq ? 'h' : softirq ? 's' : '.'); if (pc) printf("%x", pc); else printf("."); if (lock_depth < 0) printf(". "); else printf("%d ", lock_depth); } #define TRACE_GRAPH_INDENT 2 static struct record * get_return_for_leaf(int cpu, int cur_pid, unsigned long long cur_func, struct record *next) { struct format_field *field; struct event *event; unsigned long val; int type; int pid; type = trace_parse_common_type(next->data); event = trace_find_event(type); if (!event) return NULL; if (!(event->flags & EVENT_FL_ISFUNCRET)) return NULL; pid = trace_parse_common_pid(next->data); field = find_field(event, "func"); if (!field) die("function return does not have field func"); val = read_size(next->data + field->offset, field->size); if (cur_pid != pid || cur_func != val) return NULL; /* this is a leaf, now advance the iterator */ return trace_read_data(cpu); } /* Signal a overhead of time execution to the output */ static void print_graph_overhead(unsigned long long duration) { /* Non nested entry or return */ if (duration == ~0ULL) return (void)printf(" "); /* Duration exceeded 100 msecs */ if (duration > 100000ULL) return (void)printf("! "); /* Duration exceeded 10 msecs */ if (duration > 10000ULL) return (void)printf("+ "); printf(" "); } static void print_graph_duration(unsigned long long duration) { unsigned long usecs = duration / 1000; unsigned long nsecs_rem = duration % 1000; /* log10(ULONG_MAX) + '\0' */ char msecs_str[21]; char nsecs_str[5]; int len; int i; sprintf(msecs_str, "%lu", usecs); /* Print msecs */ len = printf("%lu", usecs); /* Print nsecs (we don't want to exceed 7 numbers) */ if (len < 7) { snprintf(nsecs_str, 8 - len, "%03lu", nsecs_rem); len += printf(".%s", nsecs_str); } printf(" us "); /* Print remaining spaces to fit the row's width */ for (i = len; i < 7; i++) printf(" "); printf("| "); } static void print_graph_entry_leaf(struct event *event, void *data, struct record *ret_rec) { unsigned long long rettime, calltime; unsigned long long duration, depth; unsigned long long val; struct format_field *field; struct func_map *func; struct event *ret_event; int type; int i; type = trace_parse_common_type(ret_rec->data); ret_event = trace_find_event(type); field = find_field(ret_event, "rettime"); if (!field) die("can't find rettime in return graph"); rettime = read_size(ret_rec->data + field->offset, field->size); field = find_field(ret_event, "calltime"); if (!field) die("can't find rettime in return graph"); calltime = read_size(ret_rec->data + field->offset, field->size); duration = rettime - calltime; /* Overhead */ print_graph_overhead(duration); /* Duration */ print_graph_duration(duration); field = find_field(event, "depth"); if (!field) die("can't find depth in entry graph"); depth = read_size(data + field->offset, field->size); /* Function */ for (i = 0; i < (int)(depth * TRACE_GRAPH_INDENT); i++) printf(" "); field = find_field(event, "func"); if (!field) die("can't find func in entry graph"); val = read_size(data + field->offset, field->size); func = find_func(val); if (func) printf("%s();", func->func); else printf("%llx();", val); } static void print_graph_nested(struct event *event, void *data) { struct format_field *field; unsigned long long depth; unsigned long long val; struct func_map *func; int i; /* No overhead */ print_graph_overhead(-1); /* No time */ printf(" | "); field = find_field(event, "depth"); if (!field) die("can't find depth in entry graph"); depth = read_size(data + field->offset, field->size); /* Function */ for (i = 0; i < (int)(depth * TRACE_GRAPH_INDENT); i++) printf(" "); field = find_field(event, "func"); if (!field) die("can't find func in entry graph"); val = read_size(data + field->offset, field->size); func = find_func(val); if (func) printf("%s() {", func->func); else printf("%llx() {", val); } static void pretty_print_func_ent(void *data, int size, struct event *event, int cpu, int pid) { struct format_field *field; struct record *rec; void *copy_data; unsigned long val; if (latency_format) { print_lat_fmt(data, size); printf(" | "); } field = find_field(event, "func"); if (!field) die("function entry does not have func field"); val = read_size(data + field->offset, field->size); /* * peek_data may unmap the data pointer. Copy it first. */ copy_data = malloc_or_die(size); memcpy(copy_data, data, size); data = copy_data; rec = trace_peek_data(cpu); if (rec) { rec = get_return_for_leaf(cpu, pid, val, rec); if (rec) { print_graph_entry_leaf(event, data, rec); goto out_free; } } print_graph_nested(event, data); out_free: free(data); } static void pretty_print_func_ret(void *data, int size __unused, struct event *event) { unsigned long long rettime, calltime; unsigned long long duration, depth; struct format_field *field; int i; if (latency_format) { print_lat_fmt(data, size); printf(" | "); } field = find_field(event, "rettime"); if (!field) die("can't find rettime in return graph"); rettime = read_size(data + field->offset, field->size); field = find_field(event, "calltime"); if (!field) die("can't find calltime in return graph"); calltime = read_size(data + field->offset, field->size); duration = rettime - calltime; /* Overhead */ print_graph_overhead(duration); /* Duration */ print_graph_duration(duration); field = find_field(event, "depth"); if (!field) die("can't find depth in entry graph"); depth = read_size(data + field->offset, field->size); /* Function */ for (i = 0; i < (int)(depth * TRACE_GRAPH_INDENT); i++) printf(" "); printf("}"); } static void pretty_print_func_graph(void *data, int size, struct event *event, int cpu, int pid) { if (event->flags & EVENT_FL_ISFUNCENT) pretty_print_func_ent(data, size, event, cpu, pid); else if (event->flags & EVENT_FL_ISFUNCRET) pretty_print_func_ret(data, size, event); printf("\n"); } void print_trace_event(int cpu, void *data, int size) { struct event *event; int type; int pid; type = trace_parse_common_type(data); event = trace_find_event(type); if (!event) { warning("ug! no event found for type %d", type); return; } pid = trace_parse_common_pid(data); if (event->flags & (EVENT_FL_ISFUNCENT | EVENT_FL_ISFUNCRET)) return pretty_print_func_graph(data, size, event, cpu, pid); if (latency_format) print_lat_fmt(data, size); if (event->flags & EVENT_FL_FAILED) { printf("EVENT '%s' FAILED TO PARSE\n", event->name); return; } pretty_print(data, size, event); } static void print_fields(struct print_flag_sym *field) { printf("{ %s, %s }", field->value, field->str); if (field->next) { printf(", "); print_fields(field->next); } } static void print_args(struct print_arg *args) { int print_paren = 1; switch (args->type) { case PRINT_NULL: printf("null"); break; case PRINT_ATOM: printf("%s", args->atom.atom); break; case PRINT_FIELD: printf("REC->%s", args->field.name); break; case PRINT_FLAGS: printf("__print_flags("); print_args(args->flags.field); printf(", %s, ", args->flags.delim); print_fields(args->flags.flags); printf(")"); break; case PRINT_SYMBOL: printf("__print_symbolic("); print_args(args->symbol.field); printf(", "); print_fields(args->symbol.symbols); printf(")"); break; case PRINT_STRING: printf("__get_str(%s)", args->string.string); break; case PRINT_TYPE: printf("(%s)", args->typecast.type); print_args(args->typecast.item); break; case PRINT_OP: if (strcmp(args->op.op, ":") == 0) print_paren = 0; if (print_paren) printf("("); print_args(args->op.left); printf(" %s ", args->op.op); print_args(args->op.right); if (print_paren) printf(")"); break; default: /* we should warn... */ return; } if (args->next) { printf("\n"); print_args(args->next); } } int parse_ftrace_file(char *buf, unsigned long size) { struct format_field *field; struct print_arg *arg, **list; struct event *event; int ret; init_input_buf(buf, size); event = alloc_event(); if (!event) return -ENOMEM; event->flags |= EVENT_FL_ISFTRACE; event->name = event_read_name(); if (!event->name) die("failed to read ftrace event name"); if (strcmp(event->name, "function") == 0) event->flags |= EVENT_FL_ISFUNC; else if (strcmp(event->name, "funcgraph_entry") == 0) event->flags |= EVENT_FL_ISFUNCENT; else if (strcmp(event->name, "funcgraph_exit") == 0) event->flags |= EVENT_FL_ISFUNCRET; else if (strcmp(event->name, "bprint") == 0) event->flags |= EVENT_FL_ISBPRINT; event->id = event_read_id(); if (event->id < 0) die("failed to read ftrace event id"); add_event(event); ret = event_read_format(event); if (ret < 0) die("failed to read ftrace event format"); ret = event_read_print(event); if (ret < 0) die("failed to read ftrace event print fmt"); /* New ftrace handles args */ if (ret > 0) return 0; /* * The arguments for ftrace files are parsed by the fields. * Set up the fields as their arguments. */ list = &event->print_fmt.args; for (field = event->format.fields; field; field = field->next) { arg = malloc_or_die(sizeof(*arg)); memset(arg, 0, sizeof(*arg)); *list = arg; list = &arg->next; arg->type = PRINT_FIELD; arg->field.name = field->name; arg->field.field = field; } return 0; } int parse_event_file(char *buf, unsigned long size, char *sys) { struct event *event; int ret; init_input_buf(buf, size); event = alloc_event(); if (!event) return -ENOMEM; event->name = event_read_name(); if (!event->name) die("failed to read event name"); event->id = event_read_id(); if (event->id < 0) die("failed to read event id"); ret = event_read_format(event); if (ret < 0) { warning("failed to read event format for %s", event->name); goto event_failed; } ret = event_read_print(event); if (ret < 0) { warning("failed to read event print fmt for %s", event->name); goto event_failed; } event->system = strdup(sys); #define PRINT_ARGS 0 if (PRINT_ARGS && event->print_fmt.args) print_args(event->print_fmt.args); add_event(event); return 0; event_failed: event->flags |= EVENT_FL_FAILED; /* still add it even if it failed */ add_event(event); return -1; } void parse_set_info(int nr_cpus, int long_sz) { cpus = nr_cpus; long_size = long_sz; } int common_pc(struct scripting_context *context) { return parse_common_pc(context->event_data); } int common_flags(struct scripting_context *context) { return parse_common_flags(context->event_data); } int common_lock_depth(struct scripting_context *context) { return parse_common_lock_depth(context->event_data); }