/* * Copyright 2023-2024 The OpenSSL Project Authors. All Rights Reserved. * * Licensed under the Apache License 2.0 (the "License"). You may not use * this file except in compliance with the License. You can obtain a copy * in the file LICENSE in the source distribution or at * https://www.openssl.org/source/license.html */ #include "internal/qlog.h" #include "internal/json_enc.h" #include "internal/common.h" #include "internal/cryptlib.h" #include "crypto/ctype.h" #define BITS_PER_WORD (sizeof(size_t) * 8) #define NUM_ENABLED_W ((QLOG_EVENT_TYPE_NUM + BITS_PER_WORD - 1) / BITS_PER_WORD) static ossl_unused ossl_inline int bit_get(const size_t *p, uint32_t bit_no) { return p[bit_no / BITS_PER_WORD] & (((size_t)1) << (bit_no % BITS_PER_WORD)); } static ossl_unused ossl_inline void bit_set(size_t *p, uint32_t bit_no, int enable) { size_t mask = (((size_t)1) << (bit_no % BITS_PER_WORD)); if (enable) p[bit_no / BITS_PER_WORD] |= mask; else p[bit_no / BITS_PER_WORD] &= ~mask; } struct qlog_st { QLOG_TRACE_INFO info; BIO *bio; size_t enabled[NUM_ENABLED_W]; uint32_t event_type; const char *event_cat, *event_name, *event_combined_name; OSSL_TIME event_time, prev_event_time; OSSL_JSON_ENC json; int header_done, first_event_done; }; static OSSL_TIME default_now(void *arg) { return ossl_time_now(); } /* * Construction * ============ */ QLOG *ossl_qlog_new(const QLOG_TRACE_INFO *info) { QLOG *qlog = OPENSSL_zalloc(sizeof(QLOG)); if (qlog == NULL) return NULL; qlog->info.odcid = info->odcid; qlog->info.is_server = info->is_server; qlog->info.now_cb = info->now_cb; qlog->info.now_cb_arg = info->now_cb_arg; qlog->info.override_process_id = info->override_process_id; if (info->title != NULL && (qlog->info.title = OPENSSL_strdup(info->title)) == NULL) goto err; if (info->description != NULL && (qlog->info.description = OPENSSL_strdup(info->description)) == NULL) goto err; if (info->group_id != NULL && (qlog->info.group_id = OPENSSL_strdup(info->group_id)) == NULL) goto err; if (info->override_impl_name != NULL && (qlog->info.override_impl_name = OPENSSL_strdup(info->override_impl_name)) == NULL) goto err; if (!ossl_json_init(&qlog->json, NULL, OSSL_JSON_FLAG_IJSON | OSSL_JSON_FLAG_SEQ)) goto err; if (qlog->info.now_cb == NULL) qlog->info.now_cb = default_now; return qlog; err: if (qlog != NULL) { OPENSSL_free((char *)qlog->info.title); OPENSSL_free((char *)qlog->info.description); OPENSSL_free((char *)qlog->info.group_id); OPENSSL_free((char *)qlog->info.override_impl_name); OPENSSL_free(qlog); } return NULL; } QLOG *ossl_qlog_new_from_env(const QLOG_TRACE_INFO *info) { QLOG *qlog = NULL; const char *qlogdir = ossl_safe_getenv("QLOGDIR"); const char *qfilter = ossl_safe_getenv("OSSL_QFILTER"); char qlogdir_sep, *filename = NULL; size_t i, l, strl; if (info == NULL || qlogdir == NULL) return NULL; l = strlen(qlogdir); if (l == 0) return NULL; qlogdir_sep = ossl_determine_dirsep(qlogdir); /* dir; [sep]; ODCID; _; strlen("client" / "server"); strlen(".sqlog"); NUL */ strl = l + 1 + info->odcid.id_len * 2 + 1 + 6 + 6 + 1; filename = OPENSSL_malloc(strl); if (filename == NULL) return NULL; memcpy(filename, qlogdir, l); if (qlogdir_sep != '\0') filename[l++] = qlogdir_sep; for (i = 0; i < info->odcid.id_len; ++i) l += BIO_snprintf(filename + l, strl - l, "%02x", info->odcid.id[i]); l += BIO_snprintf(filename + l, strl - l, "_%s.sqlog", info->is_server ? "server" : "client"); qlog = ossl_qlog_new(info); if (qlog == NULL) goto err; if (!ossl_qlog_set_sink_filename(qlog, filename)) goto err; if (qfilter == NULL || qfilter[0] == '\0') qfilter = "*"; if (!ossl_qlog_set_filter(qlog, qfilter)) goto err; OPENSSL_free(filename); return qlog; err: OPENSSL_free(filename); ossl_qlog_free(qlog); return NULL; } void ossl_qlog_free(QLOG *qlog) { if (qlog == NULL) return; ossl_json_flush_cleanup(&qlog->json); BIO_free_all(qlog->bio); OPENSSL_free((char *)qlog->info.title); OPENSSL_free((char *)qlog->info.description); OPENSSL_free((char *)qlog->info.group_id); OPENSSL_free((char *)qlog->info.override_impl_name); OPENSSL_free(qlog); } /* * Configuration * ============= */ int ossl_qlog_set_sink_bio(QLOG *qlog, BIO *bio) { if (qlog == NULL) return 0; ossl_qlog_flush(qlog); /* best effort */ BIO_free_all(qlog->bio); qlog->bio = bio; ossl_json_set0_sink(&qlog->json, bio); return 1; } #ifndef OPENSSL_NO_STDIO int ossl_qlog_set_sink_file(QLOG *qlog, FILE *f, int close_flag) { BIO *bio; if (qlog == NULL) return 0; bio = BIO_new_fp(f, BIO_CLOSE); if (bio == NULL) return 0; if (!ossl_qlog_set_sink_bio(qlog, bio)) { BIO_free_all(bio); return 0; } return 1; } #endif int ossl_qlog_set_sink_filename(QLOG *qlog, const char *filename) { BIO *bio; if (qlog == NULL) return 0; /* * We supply our own text encoding as JSON requires UTF-8, so disable any * OS-specific processing here. */ bio = BIO_new_file(filename, "wb"); if (bio == NULL) return 0; if (!ossl_qlog_set_sink_bio(qlog, bio)) { BIO_free_all(bio); return 0; } return 1; } int ossl_qlog_flush(QLOG *qlog) { if (qlog == NULL) return 1; return ossl_json_flush(&qlog->json); } int ossl_qlog_set_event_type_enabled(QLOG *qlog, uint32_t event_type, int enabled) { if (qlog == NULL || event_type >= QLOG_EVENT_TYPE_NUM) return 0; bit_set(qlog->enabled, event_type, enabled); return 1; } int ossl_qlog_enabled(QLOG *qlog, uint32_t event_type) { if (qlog == NULL) return 0; return bit_get(qlog->enabled, event_type) != 0; } /* * Event Lifecycle * =============== */ static void write_str_once(QLOG *qlog, const char *key, char **p) { if (*p == NULL) return; ossl_json_key(&qlog->json, key); ossl_json_str(&qlog->json, *p); OPENSSL_free(*p); *p = NULL; } static void qlog_event_seq_header(QLOG *qlog) { if (qlog->header_done) return; ossl_json_object_begin(&qlog->json); { ossl_json_key(&qlog->json, "qlog_version"); ossl_json_str(&qlog->json, "0.3"); ossl_json_key(&qlog->json, "qlog_format"); ossl_json_str(&qlog->json, "JSON-SEQ"); write_str_once(qlog, "title", (char **)&qlog->info.title); write_str_once(qlog, "description", (char **)&qlog->info.description); ossl_json_key(&qlog->json, "trace"); ossl_json_object_begin(&qlog->json); { ossl_json_key(&qlog->json, "common_fields"); ossl_json_object_begin(&qlog->json); { ossl_json_key(&qlog->json, "time_format"); ossl_json_str(&qlog->json, "delta"); ossl_json_key(&qlog->json, "protocol_type"); ossl_json_array_begin(&qlog->json); { ossl_json_str(&qlog->json, "QUIC"); } /* protocol_type */ ossl_json_array_end(&qlog->json); write_str_once(qlog, "group_id", (char **)&qlog->info.group_id); ossl_json_key(&qlog->json, "system_info"); ossl_json_object_begin(&qlog->json); { if (qlog->info.override_process_id != 0) { ossl_json_key(&qlog->json, "process_id"); ossl_json_u64(&qlog->json, qlog->info.override_process_id); } else { #if defined(OPENSSL_SYS_UNIX) ossl_json_key(&qlog->json, "process_id"); ossl_json_u64(&qlog->json, (uint64_t)getpid()); #elif defined(OPENSSL_SYS_WINDOWS) ossl_json_key(&qlog->json, "process_id"); ossl_json_u64(&qlog->json, (uint64_t)GetCurrentProcessId()); #endif } } /* system_info */ ossl_json_object_end(&qlog->json); } /* common_fields */ ossl_json_object_end(&qlog->json); ossl_json_key(&qlog->json, "vantage_point"); ossl_json_object_begin(&qlog->json); { char buf[128]; const char *p = buf; if (qlog->info.override_impl_name != NULL) { p = qlog->info.override_impl_name; } else { BIO_snprintf(buf, sizeof(buf), "OpenSSL/%s (%s)", OpenSSL_version(OPENSSL_FULL_VERSION_STRING), OpenSSL_version(OPENSSL_PLATFORM) + 10); } ossl_json_key(&qlog->json, "type"); ossl_json_str(&qlog->json, qlog->info.is_server ? "server" : "client"); ossl_json_key(&qlog->json, "name"); ossl_json_str(&qlog->json, p); } /* vantage_point */ ossl_json_object_end(&qlog->json); } /* trace */ ossl_json_object_end(&qlog->json); } ossl_json_object_end(&qlog->json); qlog->header_done = 1; } static void qlog_event_prologue(QLOG *qlog) { qlog_event_seq_header(qlog); ossl_json_object_begin(&qlog->json); ossl_json_key(&qlog->json, "name"); ossl_json_str(&qlog->json, qlog->event_combined_name); ossl_json_key(&qlog->json, "data"); ossl_json_object_begin(&qlog->json); } static void qlog_event_epilogue(QLOG *qlog) { ossl_json_object_end(&qlog->json); ossl_json_key(&qlog->json, "time"); if (!qlog->first_event_done) { ossl_json_u64(&qlog->json, ossl_time2ms(qlog->event_time)); qlog->prev_event_time = qlog->event_time; qlog->first_event_done = 1; } else { OSSL_TIME delta = ossl_time_subtract(qlog->event_time, qlog->prev_event_time); ossl_json_u64(&qlog->json, ossl_time2ms(delta)); qlog->prev_event_time = qlog->event_time; } ossl_json_object_end(&qlog->json); } int ossl_qlog_event_try_begin(QLOG *qlog, uint32_t event_type, const char *event_cat, const char *event_name, const char *event_combined_name) { if (qlog == NULL) return 0; if (!ossl_assert(qlog->event_type == QLOG_EVENT_TYPE_NONE) || !ossl_qlog_enabled(qlog, event_type)) return 0; qlog->event_type = event_type; qlog->event_cat = event_cat; qlog->event_name = event_name; qlog->event_combined_name = event_combined_name; qlog->event_time = qlog->info.now_cb(qlog->info.now_cb_arg); qlog_event_prologue(qlog); return 1; } void ossl_qlog_event_end(QLOG *qlog) { if (!ossl_assert(qlog != NULL && qlog->event_type != QLOG_EVENT_TYPE_NONE)) return; qlog_event_epilogue(qlog); qlog->event_type = QLOG_EVENT_TYPE_NONE; } /* * Field Generators * ================ */ void ossl_qlog_group_begin(QLOG *qlog, const char *name) { if (name != NULL) ossl_json_key(&qlog->json, name); ossl_json_object_begin(&qlog->json); } void ossl_qlog_group_end(QLOG *qlog) { ossl_json_object_end(&qlog->json); } void ossl_qlog_array_begin(QLOG *qlog, const char *name) { if (name != NULL) ossl_json_key(&qlog->json, name); ossl_json_array_begin(&qlog->json); } void ossl_qlog_array_end(QLOG *qlog) { ossl_json_array_end(&qlog->json); } void ossl_qlog_override_time(QLOG *qlog, OSSL_TIME event_time) { qlog->event_time = event_time; } void ossl_qlog_str(QLOG *qlog, const char *name, const char *value) { if (name != NULL) ossl_json_key(&qlog->json, name); ossl_json_str(&qlog->json, value); } void ossl_qlog_str_len(QLOG *qlog, const char *name, const char *value, size_t value_len) { if (name != NULL) ossl_json_key(&qlog->json, name); ossl_json_str_len(&qlog->json, value, value_len); } void ossl_qlog_u64(QLOG *qlog, const char *name, uint64_t value) { if (name != NULL) ossl_json_key(&qlog->json, name); ossl_json_u64(&qlog->json, value); } void ossl_qlog_i64(QLOG *qlog, const char *name, int64_t value) { if (name != NULL) ossl_json_key(&qlog->json, name); ossl_json_i64(&qlog->json, value); } void ossl_qlog_bool(QLOG *qlog, const char *name, int value) { if (name != NULL) ossl_json_key(&qlog->json, name); ossl_json_bool(&qlog->json, value); } void ossl_qlog_bin(QLOG *qlog, const char *name, const void *value, size_t value_len) { if (name != NULL) ossl_json_key(&qlog->json, name); ossl_json_str_hex(&qlog->json, value, value_len); } /* * Filter Parsing * ============== */ struct lexer { const char *p, *term_end, *end; }; static ossl_inline int is_term_sep_ws(char c) { return c == ' ' || c == '\r' || c == '\n' || c == '\t'; } static ossl_inline int is_name_char(char c) { return ossl_isalpha(c) || ossl_isdigit(c) || c == '_' || c == '-'; } static int lex_init(struct lexer *lex, const char *in, size_t in_len) { if (in == NULL) return 0; lex->p = in; lex->term_end = in; lex->end = in + in_len; return 1; } static int lex_do(struct lexer *lex) { const char *p = lex->term_end, *end = lex->end, *term_end; for (; is_term_sep_ws(*p) && p < end; ++p); if (p == end) { lex->p = end; lex->term_end = end; return 0; } for (term_end = p; !is_term_sep_ws(*term_end) && term_end < end; ++term_end); lex->p = p; lex->term_end = term_end; return 1; } static int lex_eot(struct lexer *lex) { return lex->p == lex->term_end; } static int lex_peek_char(struct lexer *lex) { return lex_eot(lex) ? -1 : *lex->p; } static int lex_skip_char(struct lexer *lex) { if (lex_eot(lex)) return 0; ++lex->p; return 1; } static int lex_match(struct lexer *lex, const char *s, size_t s_len) { if ((size_t)(lex->term_end - lex->p) != s_len) return 0; if (memcmp(lex->p, s, s_len)) return 0; return 1; } static void lex_get_rest(struct lexer *lex, const char **str, size_t *str_l) { *str = lex->p; *str_l = lex->term_end - lex->p; } static int lex_extract_to(struct lexer *lex, char c, const char **str, size_t *str_l) { const char *p = lex->p, *term_end = lex->term_end, *s; for (s = p; s < term_end && *s != c; ++s); if (s == term_end) return 0; *str = p; *str_l = s - p; lex->p = ++s; return 1; } static int ossl_unused filter_match_event(const char *cat, size_t cat_l, const char *event, size_t event_l, const char *expect_cat, const char *expect_event) { size_t expect_cat_l = strlen(expect_cat); size_t expect_event_l = strlen(expect_event); if ((cat != NULL && cat_l != expect_cat_l) || (event != NULL && event_l != expect_event_l) || (cat != NULL && memcmp(cat, expect_cat, expect_cat_l)) || (event != NULL && memcmp(event, expect_event, expect_event_l))) return 0; return 1; } /* * enabled: event enablement bitmask Array of size NUM_ENABLED_W. * add: 1 to enable an event, 0 to disable. * cat: Category name/length. Not necessarily zero terminated. * NULL to match any. * event: Event name/length. Not necessarily zero terminated. * NULL to match any. */ static void filter_apply(size_t *enabled, int add, const char *cat, size_t cat_l, const char *event, size_t event_l) { /* Find events which match the given filters. */ # define QLOG_EVENT(e_cat, e_name) \ if (filter_match_event(cat, cat_l, event, event_l, \ #e_cat, #e_name)) \ bit_set(enabled, QLOG_EVENT_TYPE_##e_cat##_##e_name, add); # include "internal/qlog_events.h" # undef QLOG_EVENT } static int lex_fail(struct lexer *lex, const char *msg) { /* * TODO(QLOG FUTURE): Determine how to print log messages about bad filter * strings */ lex->p = lex->term_end = lex->end; return 0; } static int validate_name(const char **p, size_t *l) { const char *p_ = *p; size_t i, l_ = *l; if (l_ == 1 && *p_ == '*') { *p = NULL; *l = 0; return 1; } if (l_ == 0) return 0; for (i = 0; i < l_; ++i) if (!is_name_char(p_[i])) return 0; return 1; } int ossl_qlog_set_filter(QLOG *qlog, const char *filter) { struct lexer lex = {0}; char c; const char *cat, *event; size_t cat_l, event_l, enabled[NUM_ENABLED_W]; int add; memcpy(enabled, qlog->enabled, sizeof(enabled)); if (!lex_init(&lex, filter, strlen(filter))) return 0; while (lex_do(&lex)) { c = lex_peek_char(&lex); if (c == '+' || c == '-') { add = (c == '+'); lex_skip_char(&lex); c = lex_peek_char(&lex); if (!is_name_char(c) && c != '*') return lex_fail(&lex, "expected alphanumeric name or '*'" " after +/-"); } else if (!is_name_char(c) && c != '*') { return lex_fail(&lex, "expected +/- or alphanumeric name or '*'"); } else { add = 1; } if (lex_match(&lex, "*", 1)) { filter_apply(enabled, add, NULL, 0, NULL, 0); continue; } if (!lex_extract_to(&lex, ':', &cat, &cat_l)) return lex_fail(&lex, "expected ':' after category name"); lex_get_rest(&lex, &event, &event_l); if (!validate_name(&cat, &cat_l)) return lex_fail(&lex, "expected alphanumeric category name or '*'"); if (!validate_name(&event, &event_l)) return lex_fail(&lex, "expected alphanumeric event name or '*'"); filter_apply(enabled, add, cat, cat_l, event, event_l); } memcpy(qlog->enabled, enabled, sizeof(enabled)); return 1; }