#include "util/map_symbol.h" #include "util/branch.h" #include <linux/kernel.h> static bool cross_area(u64 addr1, u64 addr2, int size) { u64 align1, align2; align1 = addr1 & ~(size - 1); align2 = addr2 & ~(size - 1); return (align1 != align2) ? true : false; } #define AREA_4K 4096 #define AREA_2M (2 * 1024 * 1024) void branch_type_count(struct branch_type_stat *st, struct branch_flags *flags, u64 from, u64 to) { if (flags->type == PERF_BR_UNKNOWN || from == 0) return; if (flags->type == PERF_BR_EXTEND_ABI) st->new_counts[flags->new_type]++; else st->counts[flags->type]++; if (flags->type == PERF_BR_COND) { if (to > from) st->cond_fwd++; else st->cond_bwd++; } if (cross_area(from, to, AREA_2M)) st->cross_2m++; else if (cross_area(from, to, AREA_4K)) st->cross_4k++; } const char *branch_new_type_name(int new_type) { const char *branch_new_names[PERF_BR_NEW_MAX] = { "FAULT_ALGN", "FAULT_DATA", "FAULT_INST", /* * TODO: This switch should happen on 'session->header.env.arch' * instead, because an arm64 platform perf recording could be * opened for analysis on other platforms as well. */ #ifdef __aarch64__ "ARM64_FIQ", "ARM64_DEBUG_HALT", "ARM64_DEBUG_EXIT", "ARM64_DEBUG_INST", "ARM64_DEBUG_DATA" #else "ARCH_1", "ARCH_2", "ARCH_3", "ARCH_4", "ARCH_5" #endif }; if (new_type >= 0 && new_type < PERF_BR_NEW_MAX) return branch_new_names[new_type]; return NULL; } const char *branch_type_name(int type) { const char *branch_names[PERF_BR_MAX] = { "N/A", "COND", "UNCOND", "IND", "CALL", "IND_CALL", "RET", "SYSCALL", "SYSRET", "COND_CALL", "COND_RET", "ERET", "IRQ", "SERROR", "NO_TX", "", // Needed for PERF_BR_EXTEND_ABI that ends up triggering some compiler warnings about NULL deref }; if (type >= 0 && type < PERF_BR_MAX) return branch_names[type]; return NULL; } const char *get_branch_type(struct branch_entry *e) { if (e->flags.type == PERF_BR_UNKNOWN) return ""; if (e->flags.type == PERF_BR_EXTEND_ABI) return branch_new_type_name(e->flags.new_type); return branch_type_name(e->flags.type); } void branch_type_stat_display(FILE *fp, struct branch_type_stat *st) { u64 total = 0; int i; for (i = 0; i < PERF_BR_MAX; i++) total += st->counts[i]; if (total == 0) return; fprintf(fp, "\n#"); fprintf(fp, "\n# Branch Statistics:"); fprintf(fp, "\n#"); if (st->cond_fwd > 0) { fprintf(fp, "\n%8s: %5.1f%%", "COND_FWD", 100.0 * (double)st->cond_fwd / (double)total); } if (st->cond_bwd > 0) { fprintf(fp, "\n%8s: %5.1f%%", "COND_BWD", 100.0 * (double)st->cond_bwd / (double)total); } if (st->cross_4k > 0) { fprintf(fp, "\n%8s: %5.1f%%", "CROSS_4K", 100.0 * (double)st->cross_4k / (double)total); } if (st->cross_2m > 0) { fprintf(fp, "\n%8s: %5.1f%%", "CROSS_2M", 100.0 * (double)st->cross_2m / (double)total); } for (i = 0; i < PERF_BR_MAX; i++) { if (st->counts[i] > 0) fprintf(fp, "\n%8s: %5.1f%%", branch_type_name(i), 100.0 * (double)st->counts[i] / (double)total); } for (i = 0; i < PERF_BR_NEW_MAX; i++) { if (st->new_counts[i] > 0) fprintf(fp, "\n%8s: %5.1f%%", branch_new_type_name(i), 100.0 * (double)st->new_counts[i] / (double)total); } } static int count_str_scnprintf(int idx, const char *str, char *bf, int size) { return scnprintf(bf, size, "%s%s", (idx) ? " " : " (", str); } int branch_type_str(struct branch_type_stat *st, char *bf, int size) { int i, j = 0, printed = 0; u64 total = 0; for (i = 0; i < PERF_BR_MAX; i++) total += st->counts[i]; for (i = 0; i < PERF_BR_NEW_MAX; i++) total += st->new_counts[i]; if (total == 0) return 0; if (st->cond_fwd > 0) printed += count_str_scnprintf(j++, "COND_FWD", bf + printed, size - printed); if (st->cond_bwd > 0) printed += count_str_scnprintf(j++, "COND_BWD", bf + printed, size - printed); for (i = 0; i < PERF_BR_MAX; i++) { if (i == PERF_BR_COND) continue; if (st->counts[i] > 0) printed += count_str_scnprintf(j++, branch_type_name(i), bf + printed, size - printed); } for (i = 0; i < PERF_BR_NEW_MAX; i++) { if (st->new_counts[i] > 0) printed += count_str_scnprintf(j++, branch_new_type_name(i), bf + printed, size - printed); } if (st->cross_4k > 0) printed += count_str_scnprintf(j++, "CROSS_4K", bf + printed, size - printed); if (st->cross_2m > 0) printed += count_str_scnprintf(j++, "CROSS_2M", bf + printed, size - printed); return printed; } const char *branch_spec_desc(int spec) { const char *branch_spec_outcomes[PERF_BR_SPEC_MAX] = { "N/A", "SPEC_WRONG_PATH", "NON_SPEC_CORRECT_PATH", "SPEC_CORRECT_PATH", }; if (spec >= 0 && spec < PERF_BR_SPEC_MAX) return branch_spec_outcomes[spec]; return NULL; }