#include #include "algo_utils.h" #include "utils.h" #include "url.h" #include "proxy.h" #include "timer.h" #include "proxy.h" #define PROBE_EVERY 2 uint64_t compute_delta(struct timespec* prev_time, uint64_t max, uint8_t update) { struct timespec curr; int secs, nsecs; uint64_t mili_sec; // 1. We compute the time difference if (clock_gettime(CLOCK_MONOTONIC, &curr) == -1){ perror("clock_gettime error"); exit(EXIT_FAILURE); } secs = curr.tv_sec - prev_time->tv_sec; nsecs = curr.tv_nsec - prev_time->tv_nsec; if(update) *prev_time = curr; mili_sec = secs * 1000 + nsecs / 1000000; if (mili_sec > max) mili_sec = max; return mili_sec; } int is_blacklisted(struct thunder_ctx* thunderc, int link_id) { if (thunderc->scheduler_activated) return thunderc->blacklisted[link_id] >= thunderc->received_pkts_on_link[link_id]; return 0; } void prepare(struct evt_core_ctx* ctx, struct evt_core_fdinfo* fdinfo, struct buffer_packet* bp) { struct algo_ctx* app_ctx = fdinfo->cat->app_ctx; struct thunder_ctx* thunderc = app_ctx->misc; thunderc->emit_id++; union abstract_packet metadata = { .fmt.headers.cmd = CMD_UDP_METADATA_THUNDER, .fmt.headers.size = sizeof(metadata.fmt.headers) + sizeof(metadata.fmt.content.udp_metadata_thunder), .fmt.headers.flags = 0, .fmt.content.udp_metadata_thunder.id = thunderc->emit_id, }; buffer_append_ap (bp, &metadata); if (ctx->verbose > 1) fprintf(stderr, " [algo_thunder] UDP metadata added\n"); } void pad(struct evt_core_ctx* ctx, struct evt_core_fdinfo* fdinfo, struct buffer_packet* bp) { struct algo_ctx* app_ctx = fdinfo->cat->app_ctx; struct thunder_ctx* thunderc = app_ctx->misc; uint64_t ref = 0l + thunderc->emit_id; dup_buffer_toa (&app_ctx->br, bp, (void *)ref); // 1. Clean old buffers (we keep only thunderc->total_links buffer, keeping more would be useless) if (ref > thunderc->total_links && get_app_buffer (&app_ctx->br, (void *)(ref - thunderc->total_links))) { mv_buffer_atof (&app_ctx->br, (void *)(ref - thunderc->total_links)); } // 2. Append abstract packets stored in our buffers uint64_t add_ref = ref; while(1) { if (add_ref < 1) break; add_ref--; struct buffer_packet *bp_iter = get_app_buffer (&app_ctx->br, (void *)add_ref); if (bp_iter == NULL) break; union abstract_packet *ap = buffer_first_ap (bp_iter); if (ap->fmt.headers.cmd != CMD_UDP_ENCAPSULATED) { fprintf(stderr, "Invalid buffer payload!\n"); exit(EXIT_FAILURE); } union abstract_packet *ap_meta = ap_next (ap); if (ap_meta->fmt.headers.cmd != CMD_UDP_METADATA_THUNDER) { fprintf(stderr, "Invalid buffer metadata!\n"); exit(EXIT_FAILURE); } if (buffer_full_size (bp) + ap->fmt.headers.size + ap_meta->fmt.headers.size > TOR_CELL_SIZE - thunderc->monit_pkt_size) break; buffer_append_ap (bp, ap); buffer_append_ap (bp, ap_meta); if (ctx->verbose > 1) fprintf(stderr, " [algo_thunder] Pad packet (now %ld bytes)\n", buffer_full_size (bp)); } } int schedule(struct evt_core_ctx* ctx, struct evt_core_fdinfo* fdinfo, struct buffer_packet* bp) { char url[256]; struct algo_ctx* app_ctx = fdinfo->cat->app_ctx; struct thunder_ctx* thunderc = app_ctx->misc; struct evt_core_fdinfo *to_fdinfo = NULL; struct evt_core_cat* cat = evt_core_get_from_cat (ctx, "tcp-write"); int64_t protect = thunderc->total_links; do { // 1. We choose the link if (cat->socklist->len == 0) { if (ctx->verbose > 1) fprintf(stderr, " [algo_thunder] No link available, packet will be dropped\n"); break; } int64_t protect2 = thunderc->total_links; to_fdinfo = NULL; do { thunderc->selected_link = (thunderc->selected_link + 1) % thunderc->total_links; thunderc->to_increment[thunderc->selected_link]++; sprintf(url, "tcp:write:127.0.0.1:%d", 7500 + thunderc->selected_link); to_fdinfo = evt_core_get_from_url (ctx, url); } while (to_fdinfo == NULL && --protect2 >= 0); if (protect2 < 0) { fprintf(stderr, " [algo_thunder] scheduler/no link available\n"); goto schedule_release; } // We let some time for blacklisted links to recover if (is_blacklisted (thunderc, thunderc->selected_link) && thunderc->to_increment[thunderc->selected_link] < PROBE_EVERY) continue; //printf("URL %s has been retained\n", url); // 2. We create the packet template union abstract_packet links = { .fmt.headers.cmd = CMD_LINK_MONITORING_THUNDER, .fmt.headers.size = thunderc->monit_pkt_size, .fmt.headers.flags = 0, .fmt.content.link_monitoring_thunder.to_increment = thunderc->to_increment[thunderc->selected_link], .fmt.content.link_monitoring_thunder.links_status = {} }; thunderc->to_increment[thunderc->selected_link] = 0; // 3. We append the template to the buffer struct buffer_packet* bp_dup = dup_buffer_tow (&app_ctx->br, bp, to_fdinfo); union abstract_packet *new_ap = buffer_append_ap (bp_dup, &links); // 4. We compute the time difference uint64_t mili_sec = 0; if (protect == thunderc->total_links) mili_sec = compute_delta (&thunderc->prev_link_time, UINT16_MAX, 1); //printf("send packet on link %d with delta=%ld\n", thunderc->selected_link, mili_sec); // 5. We create the array struct link_info *li = &new_ap->fmt.content.link_monitoring_thunder.links_status; for (int i = 0; i < thunderc->total_links; i++) { if (thunderc->sent_pkts_on_link[i] == 0) continue; thunderc->delta_t_per_link[i] += mili_sec; li[i].delta_t = thunderc->delta_t_per_link[i] > UINT16_MAX ? UINT16_MAX : thunderc->delta_t_per_link[i]; } thunderc->delta_t_per_link[thunderc->selected_link] = 0; li[thunderc->selected_link].delta_t = 0; thunderc->sent_pkts_on_link[thunderc->selected_link]++; if (ctx->verbose > 1) { dump_buffer_packet(bp_dup); fprintf(stderr, " [algo_thunder] Will send this info\n"); } main_on_tcp_write(ctx, to_fdinfo); } while (is_blacklisted (thunderc, thunderc->selected_link) && --protect >= 0); if (protect < 0) { fprintf(stderr, "all links were blacklisted, resetting\n"); for (int i = 0; i < thunderc->total_links; i++) { fprintf(stderr, " link=%d, blacklisted=%ld, rcved=%ld\n", i, thunderc->blacklisted[i], thunderc->received_pkts_on_link[i]); thunderc->received_pkts_on_link[i] = thunderc->blacklisted[i] + 1; } } if (ctx->verbose > 1) fprintf(stderr, " [algo_thunder] Packets sent\n"); schedule_release: // Release the buffer mv_buffer_rtof (&app_ctx->br, fdinfo); return 0; } struct block_info { uint8_t i; struct algo_ctx* app_ctx; uint64_t missing; uint8_t is_timeout; char reason[1024]; }; enum DONAR_TIMER_DECISION on_block (struct evt_core_ctx* ctx, void* raw) { struct block_info* bi = raw; struct thunder_ctx* thunderc = bi->app_ctx->misc; if (bi->is_timeout && thunderc->received_pkts_on_link[bi->i] >= bi->missing) goto release; if (thunderc->blacklisted[bi->i] >= bi->missing) goto release; printf("%s\n", bi->reason); thunderc->blacklisted[bi->i] = bi->missing; release: if (bi->is_timeout) free(bi); return DONAR_TIMER_STOP; } int is_in_order(struct thunder_ctx* thunderc, uint8_t link_id) { uint64_t ref = thunderc->received_pkts_on_link[link_id]; for (int i = 0; i < thunderc->total_links; i++) { uint64_t expected = link_id >= i ? ref : ref - 1; if (thunderc->received_pkts_on_link[i] > expected) { //printf("link_id=%d, i=%d, pkt_i=%ld, pkt_i_expected=%ld, pkt_link_id=%ld\n", link_id, i, thunderc->received_pkts_on_link[i], expected, ref); return 0; } } return 1; } void classify(struct evt_core_ctx* ctx, struct evt_core_fdinfo* fdinfo, struct buffer_packet* bp) { struct algo_ctx* app_ctx = fdinfo->cat->app_ctx; struct thunder_ctx* thunderc = app_ctx->misc; union abstract_packet* ap = buffer_first_ap (bp); while (ap != NULL && ap->fmt.headers.cmd != CMD_LINK_MONITORING_THUNDER) ap = ap_next(ap); if (ap == NULL) { fprintf(stderr, "Unable to find our packet\n"); exit(EXIT_FAILURE); } // 1. Update link info int link_id = url_get_port_int(fdinfo->url) - 7500; thunderc->received_pkts_on_link[link_id] += ap->fmt.content.link_monitoring_thunder.to_increment; //printf("Received %ld packets on link %d\n", thunderc->received_pkts_on_link[link_id], link_id); struct link_info *li = &ap->fmt.content.link_monitoring_thunder.links_status; uint64_t mili_sec = compute_delta (&thunderc->prev_rcv_link_time, UINT16_MAX, 1); for (int i = 0; i < thunderc->total_links; i++) { if (thunderc->received_pkts_on_link[i] <= 1) continue; thunderc->rcv_delta_t_per_link[i] += mili_sec; } thunderc->rcv_delta_t_per_link[link_id] = 0; // 3. Disable links that miss packets for (uint8_t i = 0; i < thunderc->total_links; i++) { uint64_t expected = i <= link_id ? thunderc->received_pkts_on_link[link_id] : thunderc->received_pkts_on_link[link_id] - 1; if (thunderc->received_pkts_on_link[i] >= expected) continue; // Nothing to do, all packets have been received int64_t timeout = thunderc->allowed_jitter_ms - li[i].delta_t; struct block_info *bi = malloc(sizeof(struct block_info)); bi->i = i; bi->app_ctx = app_ctx; bi->missing = expected; bi->is_timeout = 1; sprintf(bi->reason, " Missing Packet - Timeout for link %d after %ldms (expected: %ld, seen: %ld)", i, timeout, expected, thunderc->received_pkts_on_link[i]); if (timeout <= 0) { on_block(ctx, bi); continue; } set_timeout (ctx, timeout, bi, on_block); } if (ctx->verbose > 1) fprintf(stderr, " [algo_thunder] Classify done\n"); if (thunderc->scheduler_activated) { uint64_t ts = compute_delta (&thunderc->start_time, UINT64_MAX, 0); printf("[%ld] Blacklisted links: ", ts); for (int i = 0; i < thunderc->total_links; i++) { if (is_blacklisted (thunderc, i)) printf("_"); else printf("U"); } printf("\n"); } } struct unpad_info { union abstract_packet *ap_arr_pl[MAX_LINKS], *ap_arr_meta[MAX_LINKS]; uint8_t ap_arr_vals; }; void unpad(struct evt_core_ctx* ctx, struct evt_core_fdinfo* fdinfo, struct buffer_packet* bp, struct unpad_info *ui) { struct algo_ctx* app_ctx = fdinfo->cat->app_ctx; struct thunder_ctx* thunderc = app_ctx->misc; for (union abstract_packet* ap = buffer_first_ap (bp); ap != NULL; ap = ap_next(ap)) { if (ap->fmt.headers.cmd != CMD_UDP_ENCAPSULATED) continue; union abstract_packet* ap_meta = ap_next(ap); if (ap_meta == NULL || ap_meta->fmt.headers.cmd != CMD_UDP_METADATA_THUNDER) { fprintf(stderr, "Unexpected packet, expecting udp metadata\n"); } ui->ap_arr_pl[ui->ap_arr_vals] = ap; ui->ap_arr_meta[ui->ap_arr_vals] = ap_meta; ui->ap_arr_vals++; } if (ctx->verbose > 1) fprintf(stderr, " [algo_thunder] Unpad done\n"); } int compare_int64(const void *a,const void *b) { int64_t *x = (int64_t *) a; int64_t *y = (int64_t *) b; return *x - *y; } void adapt(struct evt_core_ctx* ctx, struct evt_core_fdinfo* fdinfo, struct buffer_packet* bp, struct unpad_info *ui) { struct algo_ctx* app_ctx = fdinfo->cat->app_ctx; struct thunder_ctx* thunderc = app_ctx->misc; char url[256]; struct evt_core_fdinfo *to_fdinfo = NULL; uint64_t delivered = 0; for (int i = ui->ap_arr_vals-1; i >= 0; i--) { //fprintf(stderr, "i=%d, ui->ap_arr_vals=%d\n", i, ui->ap_arr_vals); if (ui->ap_arr_meta[i]->fmt.content.udp_metadata_thunder.id <= thunderc->recv_id) continue; // already delivered thunderc->recv_id = ui->ap_arr_meta[i]->fmt.content.udp_metadata_thunder.id; // Find destination sprintf(url, "udp:write:127.0.0.1:%d", ui->ap_arr_pl[i]->fmt.content.udp_encapsulated.port); to_fdinfo = evt_core_get_from_url (ctx, url); if (to_fdinfo == NULL) { fprintf(stderr, "No fd for URL %s in tcp-read. Dropping packet :( \n", url); } struct buffer_packet *bp_dest = inject_buffer_tow (&app_ctx->br, to_fdinfo); bp_dest->mode = BP_WRITING; //dump_buffer_packet (bp_dest); buffer_append_ap (bp_dest, ui->ap_arr_pl[i]); main_on_udp_write(ctx, to_fdinfo); delivered++; } printf("[algo_thunder] Delivered %ld packets (now id=%d)\n", delivered, thunderc->recv_id); if (delivered > 4) { dump_buffer_packet (bp); } mv_buffer_rtof (&app_ctx->br, fdinfo); if (ctx->verbose > 1) fprintf(stderr, " [algo_thunder] Adapt done\n"); } int algo_thunder_on_stream(struct evt_core_ctx* ctx, struct evt_core_fdinfo* fdinfo, struct buffer_packet* bp) { struct unpad_info ui = {0}; classify(ctx, fdinfo, bp); unpad(ctx, fdinfo, bp, &ui); adapt(ctx, fdinfo, bp, &ui); return 0; } int algo_thunder_on_datagram(struct evt_core_ctx* ctx, struct evt_core_fdinfo* fdinfo, struct buffer_packet* bp) { prepare(ctx, fdinfo, bp); pad(ctx, fdinfo, bp); schedule(ctx, fdinfo, bp); return 0; } void algo_thunder_free(void* v) { struct rr_ctx* rr = v; free(rr); } void algo_thunder_init(struct evt_core_ctx* ctx, struct algo_ctx* app_ctx, struct algo_params* ap) { app_ctx->misc = malloc(sizeof(struct thunder_ctx)); app_ctx->free_misc = algo_thunder_free; if (app_ctx->misc == NULL) { perror("malloc failed in algo thunder init"); exit(EXIT_FAILURE); } memset(app_ctx->misc, 0, sizeof(struct thunder_ctx)); struct thunder_ctx* thunderc = app_ctx->misc; thunderc->recv_id = 1; thunderc->emit_id = 1; thunderc->total_links = app_ctx->ap.links; thunderc->selected_link = thunderc->total_links - 1; thunderc->allowed_jitter_ms = 200; for (int i = 0; i < thunderc->total_links; i++) { thunderc->received_pkts_on_link[i] = 1; thunderc->rcv_delta_t_per_link[i] = 0; } if (clock_gettime(CLOCK_MONOTONIC, &thunderc->start_time) == -1){ perror("clock_gettime error"); exit(EXIT_FAILURE); } union abstract_packet links = {}; //fprintf(stderr, "Total links %d\n", thunderc->total_links); thunderc->monit_pkt_size = sizeof(links.fmt.headers) + sizeof(links.fmt.content.link_monitoring_thunder) + sizeof(struct link_info) * (thunderc->total_links - 1); if (ap->algo_specific_params != NULL) { char *parse_ptr, *token, *params; for (params = ap->algo_specific_params; ; params = NULL) { token = strtok_r(params, ",", &parse_ptr); if (token == NULL) break; sscanf(token, "jitter=%ld", &thunderc->allowed_jitter_ms); sscanf(token, "scheduler=%d", &thunderc->scheduler_activated); } } printf("Allowed jitter set to %ld ms\n", thunderc->allowed_jitter_ms); printf("Scheduler is %s\n", thunderc->scheduler_activated ? "activated" : "deactivated"); init_timer(ctx); } int algo_thunder_on_err(struct evt_core_ctx *ctx, struct evt_core_fdinfo *fdinfo) { if (strstr(fdinfo->cat->name, "udp") != NULL) return 1; return 0; }