/* * This file is part of Luma3DS. * Copyright (C) 2016-2020 Aurora Wright, TuxSH * * SPDX-License-Identifier: (MIT OR GPL-2.0-or-later) */ #include #include <3ds/result.h> #include <3ds/svc.h> #include <3ds/synchronization.h> #include <3ds/services/ac.h> #include #include "memory.h" #include "minisoc.h" #include "sock_util.h" #include "sleep.h" extern Handle preTerminationEvent; extern bool preTerminationRequested; // soc's poll function is odd, and doesn't like -1 as fd. // so this compacts everything together static void compact(struct sock_server *serv) { int new_fds[MAX_CTXS]; struct sock_ctx *new_ctxs[MAX_CTXS]; nfds_t n = 0; for(nfds_t i = 0; i < serv->nfds; i++) { if(serv->poll_fds[i].fd != -1) { new_fds[n] = serv->poll_fds[i].fd; new_ctxs[n] = serv->ctx_ptrs[i]; n++; } } for(nfds_t i = 0; i < n; i++) { serv->poll_fds[i].fd = new_fds[i]; serv->ctx_ptrs[i] = new_ctxs[i]; serv->ctx_ptrs[i]->i = i; } serv->nfds = n; serv->compact_needed = false; } static struct sock_ctx *server_alloc_server_ctx(struct sock_server *serv) { for(int i = 0; i < MAX_PORTS; i++) { if(serv->serv_ctxs[i].type == SOCK_NONE) return &serv->serv_ctxs[i]; } return NULL; } static void server_close_ctx(struct sock_server *serv, struct sock_ctx *ctx) { serv->compact_needed = true; Handle sock = serv->poll_fds[ctx->i].fd; if(ctx->type == SOCK_CLIENT) { serv->close_cb(ctx); serv->free(serv, ctx); ctx->serv->n--; } socClose(sock); ctx->should_close = false; serv->poll_fds[ctx->i].fd = -1; serv->poll_fds[ctx->i].events = 0; serv->poll_fds[ctx->i].revents = 0; ctx->type = SOCK_NONE; serv->ctx_ptrs[ctx->i] = NULL; } Result server_init(struct sock_server *serv) { Result ret = 0; ret = miniSocInit(); if(R_FAILED(ret)) return ret; memset(serv, 0, sizeof(struct sock_server)); for(int i = 0; i < MAX_PORTS; i++) serv->serv_ctxs[i].type = SOCK_NONE; for(int i = 0; i < MAX_CTXS; i++) serv->ctx_ptrs[i] = NULL; ret = svcCreateEvent(&serv->started_event, RESET_STICKY); if(R_FAILED(ret)) return ret; return svcCreateEvent(&serv->shall_terminate_event, RESET_STICKY); } Result server_bind(struct sock_server *serv, u16 port) { int server_sockfd; Handle handles[2] = { preTerminationEvent, serv->shall_terminate_event }; s32 idx = -1; server_sockfd = socSocket(AF_INET, SOCK_STREAM, 0); int res; u32 tries = 15; while(server_sockfd == -1 && --tries > 0) { if(svcWaitSynchronizationN(&idx, handles, 2, false, 100 * 1000 * 1000LL) == 0) return -1; server_sockfd = socSocket(AF_INET, SOCK_STREAM, 0); } if (server_sockfd < -10000 || tries == 0) { // Socket services broken serv->init_result = -1; svcSignalEvent(serv->shall_terminate_event); return -1; } struct sockaddr_in saddr; saddr.sin_family = AF_INET; saddr.sin_port = htons(port); saddr.sin_addr.s_addr = socGethostid(); res = socBind(server_sockfd, (struct sockaddr*)&saddr, sizeof(struct sockaddr_in)); if(res == 0) { res = socListen(server_sockfd, 2); if(res == 0) { int idx = serv->nfds; serv->nfds++; serv->poll_fds[idx].fd = server_sockfd; serv->poll_fds[idx].events = POLLIN; struct sock_ctx *new_ctx = server_alloc_server_ctx(serv); memcpy(&new_ctx->addr_in, &saddr, sizeof(struct sockaddr_in)); new_ctx->type = SOCK_SERVER; new_ctx->sockfd = server_sockfd; new_ctx->n = 0; new_ctx->i = idx; serv->ctx_ptrs[idx] = new_ctx; } } if (res != 0) { // Socket services broken serv->init_result = res; svcSignalEvent(serv->shall_terminate_event); return res; } return 0; } static bool server_should_exit(struct sock_server *serv) { return svcWaitSynchronization(serv->shall_terminate_event, 0) == 0 || svcWaitSynchronization(preTerminationEvent, 0) == 0; } void server_run(struct sock_server *serv) { struct pollfd *fds = serv->poll_fds; serv->running = true; svcSignalEvent(serv->started_event); while(serv->running && !preTerminationRequested) { if(server_should_exit(serv)) goto abort_connections; if(serv->nfds == 0) { svcSleepThread(12 * 1000 * 1000LL); continue; } for(nfds_t i = 0; i < serv->nfds; i++) fds[i].revents = 0; if (Sleep__Status()) { while (!Wifi__IsConnected() && serv->running && !preTerminationRequested) svcSleepThread(1000000000ULL); } int pollres = socPoll(fds, serv->nfds, 50); if(server_should_exit(serv) || pollres < -10000) goto abort_connections; for(nfds_t i = 0; pollres > 0 && i < serv->nfds; i++) { struct sock_ctx *curr_ctx = serv->ctx_ptrs[i]; if((fds[i].revents & (POLLHUP | POLLERR | POLLNVAL)) || curr_ctx->should_close) server_close_ctx(serv, curr_ctx); else if(fds[i].revents & POLLIN) { if(curr_ctx->type == SOCK_SERVER) // Listening socket? { struct sockaddr_in saddr; socklen_t len = sizeof(struct sockaddr_in); int client_sockfd = socAccept(fds[i].fd, (struct sockaddr *)&saddr, &len); if(server_should_exit(serv)) goto abort_connections; if(client_sockfd < 0 || curr_ctx->n == serv->clients_per_server || serv->nfds == MAX_CTXS) socClose(client_sockfd); else { struct sock_ctx *new_ctx = serv->alloc(serv, ntohs(curr_ctx->addr_in.sin_port)); if(new_ctx == NULL) socClose(client_sockfd); else { fds[serv->nfds].fd = client_sockfd; fds[serv->nfds].events = POLLIN; fds[serv->nfds].revents = 0; int new_idx = serv->nfds; serv->nfds++; curr_ctx->n++; new_ctx->type = SOCK_CLIENT; new_ctx->sockfd = client_sockfd; new_ctx->serv = curr_ctx; new_ctx->i = new_idx; new_ctx->n = 0; new_ctx->should_close = false; serv->ctx_ptrs[new_idx] = new_ctx; if(serv->accept_cb(new_ctx) == -1) server_close_ctx(serv, new_ctx); memcpy(&new_ctx->addr_in, &saddr, sizeof(struct sockaddr_in)); } } } else { if(serv->data_cb(curr_ctx) == -1) server_close_ctx(serv, curr_ctx); } } } if(server_should_exit(serv)) goto abort_connections; if(serv->compact_needed) compact(serv); } // Clean up. for(unsigned int i = 0; i < serv->nfds; i++) { if(fds[i].fd != -1) socClose(fds[i].fd); } serv->running = false; svcClearEvent(serv->started_event); return; abort_connections: server_kill_connections(serv); serv->running = false; svcClearEvent(serv->started_event); svcSignalEvent(serv->shall_terminate_event); } void server_set_should_close_all(struct sock_server *serv) { nfds_t nfds = serv->nfds; for(unsigned int i = 0; i < nfds; i++) serv->ctx_ptrs[i]->should_close = true; } void server_kill_connections(struct sock_server *serv) { struct pollfd *fds = serv->poll_fds; nfds_t nfds = serv->nfds; for(unsigned int i = 0; i < nfds; i++) { if(fds[i].fd == -1) continue; struct linger linger; linger.l_onoff = 1; linger.l_linger = 0; socSetsockopt(fds[i].fd, SOL_SOCKET, SO_LINGER, &linger, sizeof(struct linger)); socClose(fds[i].fd); fds[i].fd = -1; if(serv->ctx_ptrs[i] != NULL) serv->ctx_ptrs[i]->should_close = true; } } void server_finalize(struct sock_server *serv) { for(nfds_t i = 0; i < MAX_CTXS; i++) { if(serv->ctx_ptrs[i] != NULL) server_close_ctx(serv, serv->ctx_ptrs[i]); } miniSocExit(); svcClearEvent(serv->shall_terminate_event); svcCloseHandle(serv->shall_terminate_event); svcClearEvent(serv->started_event); svcCloseHandle(serv->started_event); } bool Wifi__IsConnected(void) { u32 status = 0; u32 wifistatus = 0; acInit(); return R_SUCCEEDED(ACU_GetWifiStatus(&wifistatus)) && wifistatus > 0 && R_SUCCEEDED(ACU_GetStatus(&status)) && status != 1; }