/* Copyright (c) 2017 - 2020 LiteSpeed Technologies Inc. See LICENSE. */ /* * http_client.c -- A simple HTTP/QUIC client */ #ifndef WIN32 #include #include #else #include #include #include #include #include #define STDOUT_FILENO 1 #define random rand #pragma warning(disable:4996) //POSIX name deprecated #endif #include #include #include #include #include #include #include #ifndef WIN32 #include #include #include #include #endif #include #include #include #include #include #include #include #include "lsquic.h" #include "test_common.h" #include "prog.h" #include "../src/liblsquic/lsquic_logger.h" #include "../src/liblsquic/lsquic_int_types.h" #include "../src/liblsquic/lsquic_util.h" /* include directly for reset_stream testing */ #include "../src/liblsquic/lsquic_varint.h" #include "../src/liblsquic/lsquic_hq.h" #include "../src/liblsquic/lsquic_sfcw.h" #include "../src/liblsquic/lsquic_hash.h" #include "../src/liblsquic/lsquic_stream.h" /* include directly for retire_cid testing */ #include "../src/liblsquic/lsquic_conn.h" #define MIN(a, b) ((a) < (b) ? (a) : (b)) /* This is used to exercise generating and sending of priority frames */ static int randomly_reprioritize_streams; static int s_display_cert_chain; /* If this file descriptor is open, the client will accept server push and * dump the contents here. See -u flag. */ static int promise_fd = -1; /* Set to true value to use header bypass. This means that the use code * creates header set via callbacks and then fetches it by calling * lsquic_stream_get_hset() when the first "on_read" event is called. */ static int g_header_bypass; static int s_discard_response; struct sample_stats { unsigned n; unsigned long min, max; unsigned long sum; /* To calculate mean */ unsigned long sum_X2; /* To calculate stddev */ }; static struct sample_stats s_stat_to_conn, /* Time to connect */ s_stat_ttfb, s_stat_req; /* From TTFB to EOS */ static unsigned s_stat_conns_ok, s_stat_conns_failed; static unsigned long s_stat_downloaded_bytes; static void update_sample_stats (struct sample_stats *stats, unsigned long val) { LSQ_DEBUG("%s: %p: %lu", __func__, stats, val); if (stats->n) { if (val < stats->min) stats->min = val; else if (val > stats->max) stats->max = val; } else { stats->min = val; stats->max = val; } stats->sum += val; stats->sum_X2 += val * val; ++stats->n; } static void calc_sample_stats (const struct sample_stats *stats, long double *mean_p, long double *stddev_p) { unsigned long mean, tmp; if (stats->n) { mean = stats->sum / stats->n; *mean_p = (long double) mean; if (stats->n > 1) { tmp = stats->sum_X2 - stats->n * mean * mean; tmp /= stats->n - 1; *stddev_p = sqrtl((long double) tmp); } else *stddev_p = 0; } else { *mean_p = 0; *stddev_p = 0; } } #ifdef WIN32 static char * strndup(const char *s, size_t n) { char *copy; copy = malloc(n + 1); if (copy) { memcpy(copy, s, n); copy[n] = '\0'; } return copy; } #endif struct lsquic_conn_ctx; struct path_elem { TAILQ_ENTRY(path_elem) next_pe; const char *path; }; struct http_client_ctx { TAILQ_HEAD(, lsquic_conn_ctx) conn_ctxs; const char *hostname; const char *method; const char *payload; char payload_size[20]; /* hcc_path_elems holds a list of paths which are to be requested from * the server. Each new request gets the next path from the list (the * iterator is stored in hcc_cur_pe); when the end is reached, the * iterator wraps around. */ TAILQ_HEAD(, path_elem) hcc_path_elems; struct path_elem *hcc_cur_pe; unsigned hcc_total_n_reqs; unsigned hcc_reqs_per_conn; unsigned hcc_concurrency; unsigned hcc_cc_reqs_per_conn; unsigned hcc_n_open_conns; unsigned hcc_reset_after_nbytes; unsigned hcc_retire_cid_after_nbytes; char *hcc_zero_rtt_file_name; enum { HCC_SKIP_0RTT = (1 << 0), HCC_SEEN_FIN = (1 << 1), HCC_ABORT_ON_INCOMPLETE = (1 << 2), } hcc_flags; struct prog *prog; const char *qif_file; FILE *qif_fh; }; struct lsquic_conn_ctx { TAILQ_ENTRY(lsquic_conn_ctx) next_ch; lsquic_conn_t *conn; struct http_client_ctx *client_ctx; lsquic_time_t ch_created; unsigned ch_n_reqs; /* This number gets decremented as streams are closed and * incremented as push promises are accepted. */ unsigned ch_n_cc_streams; /* This number is incremented as streams are opened * and decremented as streams are closed. It should * never exceed hcc_cc_reqs_per_conn in client_ctx. */ enum { CH_ZERO_RTT_SAVED = 1 << 0, } ch_flags; }; struct hset_elem { STAILQ_ENTRY(hset_elem) next; unsigned name_idx; char *name; char *value; }; STAILQ_HEAD(hset, hset_elem); static void hset_dump (const struct hset *, FILE *); static void hset_destroy (void *hset); static void display_cert_chain (lsquic_conn_t *); static void create_connections (struct http_client_ctx *client_ctx) { size_t len; FILE *file; unsigned char zero_rtt[0x2000]; if (0 == (client_ctx->hcc_flags & HCC_SKIP_0RTT) && client_ctx->hcc_zero_rtt_file_name) { file = fopen(client_ctx->hcc_zero_rtt_file_name, "rb"); if (!file) { LSQ_DEBUG("cannot open %s for reading: %s", client_ctx->hcc_zero_rtt_file_name, strerror(errno)); goto no_file; } len = fread(zero_rtt, 1, sizeof(zero_rtt), file); if (0 == len && !feof(file)) LSQ_WARN("error reading %s: %s", client_ctx->hcc_zero_rtt_file_name, strerror(errno)); fclose(file); LSQ_INFO("create connection zero_rtt %zu bytes", len); } else no_file: len = 0; while (client_ctx->hcc_n_open_conns < client_ctx->hcc_concurrency && client_ctx->hcc_total_n_reqs > 0) if (0 != prog_connect(client_ctx->prog, len ? zero_rtt : NULL, len)) { LSQ_ERROR("connection failed"); exit(EXIT_FAILURE); } } static void create_streams (struct http_client_ctx *client_ctx, lsquic_conn_ctx_t *conn_h) { while (conn_h->ch_n_reqs - conn_h->ch_n_cc_streams && conn_h->ch_n_cc_streams < client_ctx->hcc_cc_reqs_per_conn) { lsquic_conn_make_stream(conn_h->conn); conn_h->ch_n_cc_streams++; } } static lsquic_conn_ctx_t * http_client_on_new_conn (void *stream_if_ctx, lsquic_conn_t *conn) { struct http_client_ctx *client_ctx = stream_if_ctx; lsquic_conn_ctx_t *conn_h = calloc(1, sizeof(*conn_h)); conn_h->conn = conn; conn_h->client_ctx = client_ctx; conn_h->ch_n_reqs = MIN(client_ctx->hcc_total_n_reqs, client_ctx->hcc_reqs_per_conn); client_ctx->hcc_total_n_reqs -= conn_h->ch_n_reqs; TAILQ_INSERT_TAIL(&client_ctx->conn_ctxs, conn_h, next_ch); ++conn_h->client_ctx->hcc_n_open_conns; if (!TAILQ_EMPTY(&client_ctx->hcc_path_elems)) create_streams(client_ctx, conn_h); conn_h->ch_created = lsquic_time_now(); return conn_h; } struct create_another_conn_or_stop_ctx { struct event *event; struct http_client_ctx *client_ctx; }; static void create_another_conn_or_stop (evutil_socket_t sock, short events, void *ctx) { struct create_another_conn_or_stop_ctx *const cacos = ctx; struct http_client_ctx *const client_ctx = cacos->client_ctx; event_del(cacos->event); event_free(cacos->event); free(cacos); create_connections(client_ctx); if (0 == client_ctx->hcc_n_open_conns) { LSQ_INFO("All connections are closed: stop engine"); prog_stop(client_ctx->prog); } } static void http_client_on_conn_closed (lsquic_conn_t *conn) { lsquic_conn_ctx_t *conn_h = lsquic_conn_get_ctx(conn); struct create_another_conn_or_stop_ctx *cacos; enum LSQUIC_CONN_STATUS status; struct event_base *eb; char errmsg[80]; status = lsquic_conn_status(conn, errmsg, sizeof(errmsg)); LSQ_INFO("Connection closed. Status: %d. Message: %s", status, errmsg[0] ? errmsg : ""); if (conn_h->client_ctx->hcc_flags & HCC_ABORT_ON_INCOMPLETE) { if (!(conn_h->client_ctx->hcc_flags & HCC_SEEN_FIN)) abort(); } TAILQ_REMOVE(&conn_h->client_ctx->conn_ctxs, conn_h, next_ch); --conn_h->client_ctx->hcc_n_open_conns; cacos = calloc(1, sizeof(*cacos)); if (!cacos) { LSQ_ERROR("cannot allocate cacos"); exit(1); } eb = prog_eb(conn_h->client_ctx->prog); cacos->client_ctx = conn_h->client_ctx; cacos->event = event_new(eb, -1, 0, create_another_conn_or_stop, cacos); if (!cacos->event) { LSQ_ERROR("cannot allocate event"); exit(1); } if (0 != event_add(cacos->event, NULL)) { LSQ_ERROR("cannot add cacos event"); exit(1); } event_active(cacos->event, 0, 0); free(conn_h); } static int hsk_status_ok (enum lsquic_hsk_status status) { return status == LSQ_HSK_OK || status == LSQ_HSK_0RTT_OK; } static void http_client_on_hsk_done (lsquic_conn_t *conn, enum lsquic_hsk_status status) { lsquic_conn_ctx_t *conn_h = lsquic_conn_get_ctx(conn); struct http_client_ctx *client_ctx = conn_h->client_ctx; if (hsk_status_ok(status)) LSQ_INFO("handshake success %s", status == LSQ_HSK_0RTT_OK ? "with 0-RTT" : ""); else if (status == LSQ_HSK_FAIL) LSQ_INFO("handshake failed"); else if (status == LSQ_HSK_0RTT_FAIL) { LSQ_INFO("handshake failed because of 0-RTT, will retry without it"); client_ctx->hcc_flags |= HCC_SKIP_0RTT; ++client_ctx->hcc_concurrency; ++client_ctx->hcc_total_n_reqs; } else assert(0); if (hsk_status_ok(status) && s_display_cert_chain) display_cert_chain(conn); if (hsk_status_ok(status)) { conn_h = lsquic_conn_get_ctx(conn); ++s_stat_conns_ok; update_sample_stats(&s_stat_to_conn, lsquic_time_now() - conn_h->ch_created); if (TAILQ_EMPTY(&client_ctx->hcc_path_elems)) { LSQ_INFO("no paths mode: close connection"); lsquic_conn_close(conn_h->conn); } } else ++s_stat_conns_failed; } static void http_client_on_zero_rtt_info (lsquic_conn_t *conn, const unsigned char *buf, size_t bufsz) { lsquic_conn_ctx_t *const conn_h = lsquic_conn_get_ctx(conn); struct http_client_ctx *const client_ctx = conn_h->client_ctx; FILE *file; size_t nw; assert(client_ctx->hcc_zero_rtt_file_name); /* Our client is rather limited: only one file and only one ticket per * connection can be saved. */ if (conn_h->ch_flags & CH_ZERO_RTT_SAVED) { LSQ_DEBUG("zero-rtt already saved for this connection"); return; } file = fopen(client_ctx->hcc_zero_rtt_file_name, "wb"); if (!file) { LSQ_WARN("cannot open %s for writing: %s", client_ctx->hcc_zero_rtt_file_name, strerror(errno)); return; } nw = fwrite(buf, 1, bufsz, file); if (nw == bufsz) { LSQ_DEBUG("wrote %zd bytes of zero-rtt information to %s", nw, client_ctx->hcc_zero_rtt_file_name); conn_h->ch_flags |= CH_ZERO_RTT_SAVED; } else LSQ_WARN("error: fwrite(%s) returns %zd instead of %zd: %s", client_ctx->hcc_zero_rtt_file_name, nw, bufsz, strerror(errno)); fclose(file); } struct lsquic_stream_ctx { lsquic_stream_t *stream; struct http_client_ctx *client_ctx; const char *path; enum { HEADERS_SENT = (1 << 0), PROCESSED_HEADERS = 1 << 1, } sh_flags; lsquic_time_t sh_created; lsquic_time_t sh_ttfb; unsigned count; struct lsquic_reader reader; }; static lsquic_stream_ctx_t * http_client_on_new_stream (void *stream_if_ctx, lsquic_stream_t *stream) { const int pushed = lsquic_stream_is_pushed(stream); if (pushed) { LSQ_INFO("not accepting server push"); lsquic_stream_refuse_push(stream); return NULL; } lsquic_stream_ctx_t *st_h = calloc(1, sizeof(*st_h)); st_h->stream = stream; st_h->client_ctx = stream_if_ctx; st_h->sh_created = lsquic_time_now(); if (st_h->client_ctx->hcc_cur_pe) { st_h->client_ctx->hcc_cur_pe = TAILQ_NEXT( st_h->client_ctx->hcc_cur_pe, next_pe); if (!st_h->client_ctx->hcc_cur_pe) /* Wrap around */ st_h->client_ctx->hcc_cur_pe = TAILQ_FIRST(&st_h->client_ctx->hcc_path_elems); } else st_h->client_ctx->hcc_cur_pe = TAILQ_FIRST( &st_h->client_ctx->hcc_path_elems); st_h->path = st_h->client_ctx->hcc_cur_pe->path; if (st_h->client_ctx->payload) { st_h->reader.lsqr_read = test_reader_read; st_h->reader.lsqr_size = test_reader_size; st_h->reader.lsqr_ctx = create_lsquic_reader_ctx(st_h->client_ctx->payload); if (!st_h->reader.lsqr_ctx) exit(1); } else st_h->reader.lsqr_ctx = NULL; LSQ_INFO("created new stream, path: %s", st_h->path); lsquic_stream_wantwrite(stream, 1); if (randomly_reprioritize_streams) lsquic_stream_set_priority(stream, 1 + (random() & 0xFF)); return st_h; } static void send_headers (lsquic_stream_ctx_t *st_h) { const char *hostname = st_h->client_ctx->hostname; if (!hostname) hostname = st_h->client_ctx->prog->prog_hostname; lsquic_http_header_t headers_arr[] = { { .name = { .iov_base = ":method", .iov_len = 7, }, .value = { .iov_base = (void *) st_h->client_ctx->method, .iov_len = strlen(st_h->client_ctx->method), }, }, { .name = { .iov_base = ":scheme", .iov_len = 7, }, .value = { .iov_base = "https", .iov_len = 5, } }, { .name = { .iov_base = ":path", .iov_len = 5, }, .value = { .iov_base = (void *) st_h->path, .iov_len = strlen(st_h->path), }, }, { .name = { ":authority", 10, }, .value = { .iov_base = (void *) hostname, .iov_len = strlen(hostname), }, }, /* { .name = { "host", 4 }, .value = { .iov_base = (void *) st_h->client_ctx->hostname, .iov_len = strlen(st_h->client_ctx->hostname), }, }, */ { .name = { .iov_base = "user-agent", .iov_len = 10, }, .value = { .iov_base = (char *) st_h->client_ctx->prog->prog_settings.es_ua, .iov_len = strlen(st_h->client_ctx->prog->prog_settings.es_ua), }, }, /* The following headers only gets sent if there is request payload: */ { .name = { .iov_base = "content-type", .iov_len = 12, }, .value = { .iov_base = "application/octet-stream", .iov_len = 24, }, }, { .name = { .iov_base = "content-length", .iov_len = 14, }, .value = { .iov_base = (void *) st_h->client_ctx->payload_size, .iov_len = strlen(st_h->client_ctx->payload_size), }, }, }; lsquic_http_headers_t headers = { .count = sizeof(headers_arr) / sizeof(headers_arr[0]), .headers = headers_arr, }; if (!st_h->client_ctx->payload) headers.count -= 2; if (0 != lsquic_stream_send_headers(st_h->stream, &headers, st_h->client_ctx->payload == NULL)) { LSQ_ERROR("cannot send headers: %s", strerror(errno)); exit(1); } } /* This is here to exercise lsquic_conn_get_server_cert_chain() API */ static void display_cert_chain (lsquic_conn_t *conn) { STACK_OF(X509) *chain; X509_NAME *name; X509 *cert; unsigned i; char buf[100]; chain = lsquic_conn_get_server_cert_chain(conn); if (!chain) { LSQ_WARN("could not get server certificate chain"); return; } for (i = 0; i < sk_X509_num(chain); ++i) { cert = sk_X509_value(chain, i); name = X509_get_subject_name(cert); LSQ_INFO("cert #%u: name: %s", i, X509_NAME_oneline(name, buf, sizeof(buf))); X509_free(cert); } sk_X509_free(chain); } static void http_client_on_write (lsquic_stream_t *stream, lsquic_stream_ctx_t *st_h) { ssize_t nw; if (st_h->sh_flags & HEADERS_SENT) { if (st_h->client_ctx->payload && test_reader_size(st_h->reader.lsqr_ctx) > 0) { nw = lsquic_stream_writef(stream, &st_h->reader); if (nw < 0) { LSQ_ERROR("write error: %s", strerror(errno)); exit(1); } if (test_reader_size(st_h->reader.lsqr_ctx) > 0) { lsquic_stream_wantwrite(stream, 1); } else { lsquic_stream_shutdown(stream, 1); lsquic_stream_wantread(stream, 1); } } else { lsquic_stream_shutdown(stream, 1); lsquic_stream_wantread(stream, 1); } } else { st_h->sh_flags |= HEADERS_SENT; send_headers(st_h); } } static size_t discard (void *ctx, const unsigned char *buf, size_t sz, int fin) { return sz; } static void http_client_on_read (lsquic_stream_t *stream, lsquic_stream_ctx_t *st_h) { struct http_client_ctx *const client_ctx = st_h->client_ctx; struct hset *hset; ssize_t nread; unsigned old_prio, new_prio; unsigned char buf[0x200]; unsigned nreads = 0; #ifdef WIN32 srand(GetTickCount()); #endif do { if (g_header_bypass && !(st_h->sh_flags & PROCESSED_HEADERS)) { hset = lsquic_stream_get_hset(stream); if (!hset) { LSQ_ERROR("could not get header set from stream"); exit(2); } st_h->sh_ttfb = lsquic_time_now(); update_sample_stats(&s_stat_ttfb, st_h->sh_ttfb - st_h->sh_created); if (s_discard_response) LSQ_DEBUG("discard response: do not dump headers"); else hset_dump(hset, stdout); hset_destroy(hset); st_h->sh_flags |= PROCESSED_HEADERS; } else if (nread = (s_discard_response ? lsquic_stream_readf(stream, discard, NULL) : lsquic_stream_read(stream, buf, sizeof(buf))), nread > 0) { s_stat_downloaded_bytes += nread; /* test stream_reset after some number of read bytes */ if (client_ctx->hcc_reset_after_nbytes && s_stat_downloaded_bytes > client_ctx->hcc_reset_after_nbytes) { lsquic_stream_reset(stream, 0x1); break; } /* test retire_cid after some number of read bytes */ if (client_ctx->hcc_retire_cid_after_nbytes && s_stat_downloaded_bytes > client_ctx->hcc_retire_cid_after_nbytes) { lsquic_conn_retire_cid(lsquic_stream_conn(stream)); client_ctx->hcc_retire_cid_after_nbytes = 0; break; } if (!g_header_bypass && !(st_h->sh_flags & PROCESSED_HEADERS)) { /* First read is assumed to be the first byte */ st_h->sh_ttfb = lsquic_time_now(); update_sample_stats(&s_stat_ttfb, st_h->sh_ttfb - st_h->sh_created); st_h->sh_flags |= PROCESSED_HEADERS; } if (!s_discard_response) fwrite(buf, 1, nread, stdout); if (randomly_reprioritize_streams && (st_h->count++ & 0x3F) == 0) { old_prio = lsquic_stream_priority(stream); new_prio = 1 + (random() & 0xFF); #ifndef NDEBUG const int s = #endif lsquic_stream_set_priority(stream, new_prio); assert(s == 0); LSQ_DEBUG("changed stream %"PRIu64" priority from %u to %u", lsquic_stream_id(stream), old_prio, new_prio); } } else if (0 == nread) { update_sample_stats(&s_stat_req, lsquic_time_now() - st_h->sh_ttfb); client_ctx->hcc_flags |= HCC_SEEN_FIN; lsquic_stream_shutdown(stream, 0); break; } else if (client_ctx->prog->prog_settings.es_rw_once && EWOULDBLOCK == errno) { LSQ_NOTICE("emptied the buffer in 'once' mode"); break; } else if (lsquic_stream_is_rejected(stream)) { LSQ_NOTICE("stream was rejected"); lsquic_stream_close(stream); break; } else { LSQ_ERROR("could not read: %s", strerror(errno)); exit(2); } } while (client_ctx->prog->prog_settings.es_rw_once && nreads++ < 3 /* Emulate just a few reads */); } static void http_client_on_close (lsquic_stream_t *stream, lsquic_stream_ctx_t *st_h) { const int pushed = lsquic_stream_is_pushed(stream); if (pushed) { assert(NULL == st_h); return; } LSQ_INFO("%s called", __func__); struct http_client_ctx *const client_ctx = st_h->client_ctx; lsquic_conn_t *conn = lsquic_stream_conn(stream); lsquic_conn_ctx_t *conn_h; TAILQ_FOREACH(conn_h, &client_ctx->conn_ctxs, next_ch) if (conn_h->conn == conn) break; assert(conn_h); --conn_h->ch_n_reqs; --conn_h->ch_n_cc_streams; if (0 == conn_h->ch_n_reqs) { LSQ_INFO("all requests completed, closing connection"); lsquic_conn_close(conn_h->conn); } else { LSQ_INFO("%u active stream, %u request remain, creating %u new stream", conn_h->ch_n_cc_streams, conn_h->ch_n_reqs - conn_h->ch_n_cc_streams, MIN((conn_h->ch_n_reqs - conn_h->ch_n_cc_streams), (client_ctx->hcc_cc_reqs_per_conn - conn_h->ch_n_cc_streams))); create_streams(client_ctx, conn_h); } if (st_h->reader.lsqr_ctx) destroy_lsquic_reader_ctx(st_h->reader.lsqr_ctx); free(st_h); } static struct lsquic_stream_if http_client_if = { .on_new_conn = http_client_on_new_conn, .on_conn_closed = http_client_on_conn_closed, .on_new_stream = http_client_on_new_stream, .on_read = http_client_on_read, .on_write = http_client_on_write, .on_close = http_client_on_close, .on_hsk_done = http_client_on_hsk_done, }; static void usage (const char *prog) { const char *const slash = strrchr(prog, '/'); if (slash) prog = slash + 1; printf( "Usage: %s [opts]\n" "\n" "Options:\n" " -p PATH Path to request. May be specified more than once. If no\n" " path is specified, the connection is closed as soon as\n" " handshake succeeds.\n" " -n CONNS Number of concurrent connections. Defaults to 1.\n" " -r NREQS Total number of requests to send. Defaults to 1.\n" " -R MAXREQS Maximum number of requests per single connection. Some\n" " connections will have fewer requests than this.\n" " -w CONCUR Number of concurrent requests per single connection.\n" " Defaults to 1.\n" " -M METHOD Method. Defaults to GET.\n" " -P PAYLOAD Name of the file that contains payload to be used in the\n" " request. This adds two more headers to the request:\n" " content-type: application/octet-stream and\n" " content-length\n" " -K Discard server response\n" " -I Abort on incomplete reponse from server\n" " -4 Prefer IPv4 when resolving hostname\n" " -6 Prefer IPv6 when resolving hostname\n" " -0 FILE Provide RTT info file (reading or writing)\n" #ifndef WIN32 " -C DIR Certificate store. If specified, server certificate will\n" " be verified.\n" #endif " -a Display server certificate chain after successful handshake.\n" " -b N_BYTES Send RESET_STREAM frame after the client has read n bytes.\n" " -t Print stats to stdout.\n" " -T FILE Print stats to FILE. If FILE is -, print stats to stdout.\n" " -q FILE QIF mode: issue requests from the QIF file and validate\n" " server responses.\n" " -e TOKEN Hexadecimal string representing resume token.\n" , prog); } #ifndef WIN32 static X509_STORE *store; /* Windows does not have regex... */ static int ends_in_pem (const char *s) { int len; len = strlen(s); return len >= 4 && 0 == strcasecmp(s + len - 4, ".pem"); } static X509 * file2cert (const char *path) { X509 *cert = NULL; BIO *in; in = BIO_new(BIO_s_file()); if (!in) goto end; if (BIO_read_filename(in, path) <= 0) goto end; cert = PEM_read_bio_X509_AUX(in, NULL, NULL, NULL); end: BIO_free(in); return cert; } static int init_x509_cert_store (const char *path) { struct dirent *ent; X509 *cert; DIR *dir; char file_path[NAME_MAX]; int ret; dir = opendir(path); if (!dir) { LSQ_WARN("Cannot open directory `%s': %s", path, strerror(errno)); return -1; } store = X509_STORE_new(); while ((ent = readdir(dir))) { if (ends_in_pem(ent->d_name)) { ret = snprintf(file_path, sizeof(file_path), "%s/%s", path, ent->d_name); if (ret < 0) { LSQ_WARN("file_path formatting error %s", strerror(errno)); continue; } else if ((unsigned)ret >= sizeof(file_path)) { LSQ_WARN("file_path was truncated %s", strerror(errno)); continue; } cert = file2cert(file_path); if (cert) { if (1 != X509_STORE_add_cert(store, cert)) LSQ_WARN("could not add cert from %s", file_path); } else LSQ_WARN("could not read cert from %s", file_path); } } (void) closedir(dir); return 0; } static int verify_server_cert (void *ctx, STACK_OF(X509) *chain) { X509_STORE_CTX store_ctx; X509 *cert; int ver; if (!store) { if (0 != init_x509_cert_store(ctx)) return -1; } cert = sk_X509_shift(chain); X509_STORE_CTX_init(&store_ctx, store, cert, chain); ver = X509_verify_cert(&store_ctx); X509_STORE_CTX_cleanup(&store_ctx); if (ver != 1) LSQ_WARN("could not verify server certificate"); return ver == 1 ? 0 : -1; } #endif static void * hset_create (void *hsi_ctx, int is_push_promise) { struct hset *hset; if (s_discard_response) return (void *) 1; else if ((hset = malloc(sizeof(*hset)))) { STAILQ_INIT(hset); return hset; } else return NULL; } static enum lsquic_header_status hset_add_header (void *hset_p, unsigned name_idx, const char *name, unsigned name_len, const char *value, unsigned value_len) { struct hset *hset = hset_p; struct hset_elem *el; if (name) s_stat_downloaded_bytes += name_len + value_len + 4; /* ": \r\n" */ else s_stat_downloaded_bytes += 2; /* \r\n "*/ if (s_discard_response) return LSQUIC_HDR_OK; if (!name) /* This signals end of headers. We do no post-processing. */ return LSQUIC_HDR_OK; el = malloc(sizeof(*el)); if (!el) return LSQUIC_HDR_ERR_NOMEM; el->name = strndup(name, name_len); el->value = strndup(value, value_len); if (!(el->name && el->value)) { free(el->name); free(el->value); free(el); return LSQUIC_HDR_ERR_NOMEM; } el->name_idx = name_idx; STAILQ_INSERT_TAIL(hset, el, next); return LSQUIC_HDR_OK; } static void hset_destroy (void *hset_p) { struct hset *hset = hset_p; struct hset_elem *el, *next; if (!s_discard_response) { for (el = STAILQ_FIRST(hset); el; el = next) { next = STAILQ_NEXT(el, next); free(el->name); free(el->value); free(el); } free(hset); } } static void hset_dump (const struct hset *hset, FILE *out) { const struct hset_elem *el; STAILQ_FOREACH(el, hset, next) if (el->name_idx) fprintf(out, "%s (static table idx %u): %s\n", el->name, el->name_idx, el->value); else fprintf(out, "%s: %s\n", el->name, el->value); fprintf(out, "\n"); fflush(out); } /* These are basic and for illustration purposes only. You will want to * do your own verification by doing something similar to what is done * in src/liblsquic/lsquic_http1x_if.c */ static const struct lsquic_hset_if header_bypass_api = { .hsi_create_header_set = hset_create, .hsi_process_header = hset_add_header, .hsi_discard_header_set = hset_destroy, }; static void display_stat (FILE *out, const struct sample_stats *stats, const char *name) { long double mean, stddev; calc_sample_stats(stats, &mean, &stddev); fprintf(out, "%s: n: %u; min: %.2Lf ms; max: %.2Lf ms; mean: %.2Lf ms; " "sd: %.2Lf ms\n", name, stats->n, (long double) stats->min / 1000, (long double) stats->max / 1000, mean / 1000, stddev / 1000); } static lsquic_conn_ctx_t * qif_client_on_new_conn (void *stream_if_ctx, lsquic_conn_t *conn) { lsquic_conn_make_stream(conn); return stream_if_ctx; } static void qif_client_on_conn_closed (lsquic_conn_t *conn) { struct http_client_ctx *client_ctx = (void *) lsquic_conn_get_ctx(conn); LSQ_INFO("connection is closed: stop engine"); prog_stop(client_ctx->prog); } struct qif_stream_ctx { int reqno; struct lsquic_http_headers headers; char *qif_str; size_t qif_sz; size_t qif_off; char *resp_str; /* qif_sz allocated */ size_t resp_off; /* Read so far */ enum { QSC_HEADERS_SENT = 1 << 0, QSC_GOT_HEADERS = 1 << 1, } flags; }; #define MAX(a, b) ((a) > (b) ? (a) : (b)) lsquic_stream_ctx_t * qif_client_on_new_stream (void *stream_if_ctx, lsquic_stream_t *stream) { struct http_client_ctx *const client_ctx = stream_if_ctx; FILE *const fh = client_ctx->qif_fh; struct qif_stream_ctx *ctx; struct lsquic_http_header *header; static int reqno; size_t nalloc; int i; char *end, *tab, *line; char line_buf[0x1000]; ctx = calloc(1, sizeof(*ctx)); if (!ctx) { perror("calloc"); exit(1); } ctx->reqno = reqno++; nalloc = 0; while ((line = fgets(line_buf, sizeof(line_buf), fh))) { end = strchr(line, '\n'); if (!end) { fprintf(stderr, "no newline\n"); exit(1); } if (end == line) break; if (*line == '#') continue; tab = strchr(line, '\t'); if (!tab) { fprintf(stderr, "no TAB\n"); exit(1); } if (nalloc + (end + 1 - line) > ctx->qif_sz) { if (nalloc) nalloc = MAX(nalloc * 2, nalloc + (end + 1 - line)); else nalloc = end + 1 - line; ctx->qif_str = realloc(ctx->qif_str, nalloc); if (!ctx->qif_str) { perror("realloc"); exit(1); } } memcpy(ctx->qif_str + ctx->qif_sz, line, end + 1 - line); ctx->headers.headers = realloc(ctx->headers.headers, sizeof(ctx->headers.headers[0]) * (ctx->headers.count + 1)); if (!ctx->headers.headers) { perror("realloc"); exit(1); } header = &ctx->headers.headers[ctx->headers.count++]; header->name.iov_base = (void *) ctx->qif_sz; header->name.iov_len = tab - line; header->value.iov_base = (void *) (ctx->qif_sz + (tab - line + 1)); header->value.iov_len = end - tab - 1; ctx->qif_sz += end + 1 - line; } for (i = 0; i < ctx->headers.count; ++i) { ctx->headers.headers[i].name.iov_base = ctx->qif_str + (uintptr_t) ctx->headers.headers[i].name.iov_base; ctx->headers.headers[i].value.iov_base = ctx->qif_str + (uintptr_t) ctx->headers.headers[i].value.iov_base; } lsquic_stream_wantwrite(stream, 1); if (!line) { LSQ_DEBUG("Input QIF file ends; close file handle"); fclose(client_ctx->qif_fh); client_ctx->qif_fh = NULL; } return (void *) ctx; } static void qif_client_on_write (struct lsquic_stream *stream, lsquic_stream_ctx_t *h) { struct qif_stream_ctx *const ctx = (void *) h; size_t towrite; ssize_t nw; if (ctx->flags & QSC_HEADERS_SENT) { towrite = ctx->qif_sz - ctx->qif_off; nw = lsquic_stream_write(stream, ctx->qif_str + ctx->qif_off, towrite); if (nw >= 0) { LSQ_DEBUG("wrote %zd bytes to stream", nw); ctx->qif_off += nw; if (ctx->qif_off == (size_t) nw) { lsquic_stream_shutdown(stream, 1); lsquic_stream_wantread(stream, 1); LSQ_DEBUG("finished writing request %d", ctx->reqno); } } else { LSQ_ERROR("cannot write to stream: %s", strerror(errno)); lsquic_stream_wantwrite(stream, 0); lsquic_conn_abort(lsquic_stream_conn(stream)); } } else { if (0 == lsquic_stream_send_headers(stream, &ctx->headers, 0)) { ctx->flags |= QSC_HEADERS_SENT; LSQ_DEBUG("sent headers"); } else { LSQ_ERROR("cannot send headers: %s", strerror(errno)); lsquic_stream_wantwrite(stream, 0); lsquic_conn_abort(lsquic_stream_conn(stream)); } } } static void qif_client_on_read (struct lsquic_stream *stream, lsquic_stream_ctx_t *h) { struct qif_stream_ctx *const ctx = (void *) h; struct hset *hset; ssize_t nr; unsigned char buf[1]; LSQ_DEBUG("reading response to request %d", ctx->reqno); if (!(ctx->flags & QSC_GOT_HEADERS)) { hset = lsquic_stream_get_hset(stream); if (!hset) { LSQ_ERROR("could not get header set from stream"); exit(2); } LSQ_DEBUG("got header set for response %d", ctx->reqno); hset_dump(hset, stdout); hset_destroy(hset); ctx->flags |= QSC_GOT_HEADERS; } else { if (!ctx->resp_str) { ctx->resp_str = malloc(ctx->qif_sz); if (!ctx->resp_str) { perror("malloc"); exit(1); } } if (ctx->resp_off < ctx->qif_sz) { nr = lsquic_stream_read(stream, ctx->resp_str + ctx->resp_off, ctx->qif_sz - ctx->resp_off); if (nr > 0) { ctx->resp_off += nr; LSQ_DEBUG("read %zd bytes of reponse %d", nr, ctx->reqno); } else if (nr == 0) { LSQ_INFO("response %d too short", ctx->reqno); LSQ_WARN("response %d FAIL", ctx->reqno); lsquic_stream_shutdown(stream, 0); } else { LSQ_ERROR("error reading from stream"); lsquic_stream_wantread(stream, 0); lsquic_conn_abort(lsquic_stream_conn(stream)); } } else { /* Collect EOF */ nr = lsquic_stream_read(stream, buf, sizeof(buf)); if (nr == 0) { if (0 == memcmp(ctx->qif_str, ctx->resp_str, ctx->qif_sz)) LSQ_INFO("response %d OK", ctx->reqno); else LSQ_WARN("response %d FAIL", ctx->reqno); lsquic_stream_shutdown(stream, 0); } else if (nr > 0) { LSQ_INFO("response %d too long", ctx->reqno); LSQ_WARN("response %d FAIL", ctx->reqno); lsquic_stream_shutdown(stream, 0); } else { LSQ_ERROR("error reading from stream"); lsquic_stream_shutdown(stream, 0); lsquic_conn_abort(lsquic_stream_conn(stream)); } } } } static void qif_client_on_close (struct lsquic_stream *stream, lsquic_stream_ctx_t *h) { struct lsquic_conn *conn = lsquic_stream_conn(stream); struct http_client_ctx *client_ctx = (void *) lsquic_conn_get_ctx(conn); struct qif_stream_ctx *const ctx = (void *) h; free(ctx->qif_str); free(ctx->resp_str); free(ctx->headers.headers); free(ctx); if (client_ctx->qif_fh) lsquic_conn_make_stream(conn); else lsquic_conn_close(conn); } const struct lsquic_stream_if qif_client_if = { .on_new_conn = qif_client_on_new_conn, .on_conn_closed = qif_client_on_conn_closed, .on_new_stream = qif_client_on_new_stream, .on_read = qif_client_on_read, .on_write = qif_client_on_write, .on_close = qif_client_on_close, }; int main (int argc, char **argv) { int opt, s, was_empty; lsquic_time_t start_time; FILE *stats_fh = NULL; long double elapsed; struct http_client_ctx client_ctx; struct stat st; struct path_elem *pe; struct sport_head sports; struct prog prog; const char *token = NULL; TAILQ_INIT(&sports); memset(&client_ctx, 0, sizeof(client_ctx)); TAILQ_INIT(&client_ctx.hcc_path_elems); TAILQ_INIT(&client_ctx.conn_ctxs); client_ctx.method = "GET"; client_ctx.hcc_concurrency = 1; client_ctx.hcc_cc_reqs_per_conn = 1; client_ctx.hcc_reqs_per_conn = 1; client_ctx.hcc_total_n_reqs = 1; client_ctx.hcc_reset_after_nbytes = 0; client_ctx.hcc_retire_cid_after_nbytes = 0; client_ctx.prog = &prog; #ifdef WIN32 WSADATA wsd; WSAStartup(MAKEWORD(2, 2), &wsd); #endif prog_init(&prog, LSENG_HTTP, &sports, &http_client_if, &client_ctx); while (-1 != (opt = getopt(argc, argv, PROG_OPTS "46Br:R:IKu:EP:M:n:w:H:p:0:q:e:hatT:b:d:" #ifndef WIN32 "C:" #endif ))) { switch (opt) { case 'a': ++s_display_cert_chain; break; case '4': case '6': prog.prog_ipver = opt - '0'; break; case 'B': g_header_bypass = 1; prog.prog_api.ea_hsi_if = &header_bypass_api; prog.prog_api.ea_hsi_ctx = NULL; break; case 'I': client_ctx.hcc_flags |= HCC_ABORT_ON_INCOMPLETE; break; case 'K': ++s_discard_response; break; case 'u': /* Accept psh promise */ promise_fd = open(optarg, O_WRONLY|O_CREAT|O_TRUNC, 0644); if (promise_fd < 0) { perror("open"); exit(1); } prog.prog_settings.es_support_push = 1; /* Pokes into prog */ break; case 'E': /* E: randomly reprioritize strams. Now, that's * pretty random. :) */ randomly_reprioritize_streams = 1; break; case 'n': client_ctx.hcc_concurrency = atoi(optarg); break; case 'w': client_ctx.hcc_cc_reqs_per_conn = atoi(optarg); break; case 'P': client_ctx.payload = optarg; if (0 != stat(optarg, &st)) { perror("stat"); exit(2); } sprintf(client_ctx.payload_size, "%jd", (intmax_t) st.st_size); break; case 'M': client_ctx.method = optarg; break; case 'r': client_ctx.hcc_total_n_reqs = atoi(optarg); break; case 'R': client_ctx.hcc_reqs_per_conn = atoi(optarg); break; case 'H': client_ctx.hostname = optarg; prog.prog_hostname = optarg; /* Pokes into prog */ break; case 'p': pe = calloc(1, sizeof(*pe)); pe->path = optarg; TAILQ_INSERT_TAIL(&client_ctx.hcc_path_elems, pe, next_pe); break; case 'h': usage(argv[0]); prog_print_common_options(&prog, stdout); exit(0); case 'q': client_ctx.qif_file = optarg; break; case 'e': if (TAILQ_EMPTY(&sports)) token = optarg; else sport_set_token(TAILQ_LAST(&sports, sport_head), optarg); break; #ifndef WIN32 case 'C': prog.prog_api.ea_verify_cert = verify_server_cert; prog.prog_api.ea_verify_ctx = optarg; break; #endif case 't': stats_fh = stdout; break; case 'T': if (0 == strcmp(optarg, "-")) stats_fh = stdout; else { stats_fh = fopen(optarg, "w"); if (!stats_fh) { perror("fopen"); exit(1); } } break; case 'b': client_ctx.hcc_reset_after_nbytes = atoi(optarg); break; case 'd': client_ctx.hcc_retire_cid_after_nbytes = atoi(optarg); break; case '0': http_client_if.on_zero_rtt_info = http_client_on_zero_rtt_info; client_ctx.hcc_zero_rtt_file_name = optarg; break; default: if (0 != prog_set_opt(&prog, opt, optarg)) exit(1); } } #if LSQUIC_CONN_STATS prog.prog_api.ea_stats_fh = stats_fh; #endif prog.prog_settings.es_ua = LITESPEED_ID; if (client_ctx.qif_file) { client_ctx.qif_fh = fopen(client_ctx.qif_file, "r"); if (!client_ctx.qif_fh) { fprintf(stderr, "Cannot open %s for reading: %s\n", client_ctx.qif_file, strerror(errno)); exit(1); } LSQ_NOTICE("opened QIF file %s for reading\n", client_ctx.qif_file); prog.prog_api.ea_stream_if = &qif_client_if; g_header_bypass = 1; prog.prog_api.ea_hsi_if = &header_bypass_api; prog.prog_api.ea_hsi_ctx = NULL; } else if (TAILQ_EMPTY(&client_ctx.hcc_path_elems)) { fprintf(stderr, "Specify at least one path using -p option\n"); exit(1); } start_time = lsquic_time_now(); was_empty = TAILQ_EMPTY(&sports); if (0 != prog_prep(&prog)) { LSQ_ERROR("could not prep"); exit(EXIT_FAILURE); } if (!(client_ctx.hostname || prog.prog_hostname)) { fprintf(stderr, "Specify hostname (used for SNI and :authority) via " "-H option\n"); exit(EXIT_FAILURE); } if (was_empty && token) sport_set_token(TAILQ_LAST(&sports, sport_head), token); if (client_ctx.qif_file) { if (0 != prog_connect(&prog, NULL, 0)) { LSQ_ERROR("connection failed"); exit(EXIT_FAILURE); } } else create_connections(&client_ctx); LSQ_DEBUG("entering event loop"); s = prog_run(&prog); if (stats_fh) { elapsed = (long double) (lsquic_time_now() - start_time) / 1000000; fprintf(stats_fh, "overall statistics as calculated by %s:\n", argv[0]); display_stat(stats_fh, &s_stat_to_conn, "time for connect"); display_stat(stats_fh, &s_stat_req, "time for request"); display_stat(stats_fh, &s_stat_ttfb, "time to 1st byte"); fprintf(stats_fh, "downloaded %lu application bytes in %.3Lf seconds\n", s_stat_downloaded_bytes, elapsed); fprintf(stats_fh, "%.2Lf reqs/sec; %.0Lf bytes/sec\n", (long double) s_stat_req.n / elapsed, (long double) s_stat_downloaded_bytes / elapsed); fprintf(stats_fh, "read handler count %lu\n", prog.prog_read_count); } prog_cleanup(&prog); if (promise_fd >= 0) (void) close(promise_fd); while ((pe = TAILQ_FIRST(&client_ctx.hcc_path_elems))) { TAILQ_REMOVE(&client_ctx.hcc_path_elems, pe, next_pe); free(pe); } if (client_ctx.qif_fh) (void) fclose(client_ctx.qif_fh); exit(0 == s ? EXIT_SUCCESS : EXIT_FAILURE); }