/** * libpsyc test server for packet parsing & rendering * * based on selectserver.c from http://beej.us/guide/bgnet/ * "The C source code presented in this document is hereby granted to the public domain, and is completely free of any license restriction." */ #include #include #include #include #include #include #include #include #include #include #define __USE_POSIX #include #include #include #include #include #include #include const size_t RECV_BUF_SIZE = 8 * 1024; const size_t CONT_BUF_SIZE = 8 * 1024; const size_t SEND_BUF_SIZE = 8 * 1024; const size_t NUM_PARSERS = 100; // max size for routing & entity header const size_t ROUTING_LINES = 16; const size_t ENTITY_LINES = 32; static inline void resetString (psycString *s, uint8_t freeptr) { if (freeptr && s->length) free((void*)s->ptr); s->ptr = NULL; s->length = 0; } // get sockaddr, IPv4 or IPv6: void *get_in_addr (struct sockaddr *sa) { if (sa->sa_family == AF_INET) return &(((struct sockaddr_in*)sa)->sin_addr); return &(((struct sockaddr_in6*)sa)->sin6_addr); } int main (int argc, char **argv) { char *port = argc > 1 ? argv[1] : "4440"; uint8_t routing_only = argc > 2 && memchr(argv[2], (int)'r', strlen(argv[2])); uint8_t verbose = argc > 2 && memchr(argv[2], (int)'v', strlen(argv[2])); uint8_t parse_multiple = argc > 2 && memchr(argv[2], (int)'m', strlen(argv[2])); uint8_t progress = argc > 2 && memchr(argv[2], (int)'p', strlen(argv[2])); uint8_t stats = argc > 2 && memchr(argv[2], (int)'s', strlen(argv[2])); size_t recv_buf_size = argc > 3 ? atoi(argv[3]) : 0; if (recv_buf_size <= 0) recv_buf_size = RECV_BUF_SIZE; fd_set master; // master file descriptor list fd_set read_fds; // temp file descriptor list for select() int fdmax; // maximum file descriptor number int listener; // listening socket descriptor int newfd; // newly accept()ed socket descriptor struct sockaddr_storage remoteaddr; // client address socklen_t addrlen; char buf[CONT_BUF_SIZE + RECV_BUF_SIZE]; // cont buf + recv buf: [ ccrrrr] char *recvbuf = buf + CONT_BUF_SIZE; // recv buf: ^^^^ char *parsebuf; // parse buf: ^^^^^^ char sendbuf[SEND_BUF_SIZE]; size_t nbytes, contbytes = 0; char remoteIP[INET6_ADDRSTRLEN]; int yes = 1; // for setsockopt() SO_REUSEADDR, below int i, j, rv; struct addrinfo hints, *ai, *p; psycParseState parsers[NUM_PARSERS]; psycPacket packets[NUM_PARSERS]; psycModifier routing[NUM_PARSERS][ROUTING_LINES]; psycModifier entity[NUM_PARSERS][ENTITY_LINES]; psycModifier *mod = NULL; struct timeval start[NUM_PARSERS], end[NUM_PARSERS]; int ret, retl; char oper; psycString name, value, elem; psycString *pname = NULL, *pvalue = NULL; psycParseListState listState; FD_ZERO(&master); // clear the master and temp sets FD_ZERO(&read_fds); // get us a socket and bind it memset(&hints, 0, sizeof hints); hints.ai_family = AF_UNSPEC; hints.ai_socktype = SOCK_STREAM; hints.ai_flags = AI_PASSIVE; if ((rv = getaddrinfo(NULL, port, &hints, &ai)) != 0) { fprintf(stderr, "error: %s\n", gai_strerror(rv)); exit(1); } for (p = ai; p != NULL; p = p->ai_next) { listener = socket(p->ai_family, p->ai_socktype, p->ai_protocol); if (listener < 0) continue; // lose the pesky "address already in use" error message setsockopt(listener, SOL_SOCKET, SO_REUSEADDR, &yes, sizeof(int)); if (bind(listener, p->ai_addr, p->ai_addrlen) < 0) { close(listener); continue; } break; } // if we got here, it means we didn't get bound if (p == NULL) { fprintf(stderr, "failed to bind\n"); exit(2); } freeaddrinfo(ai); // all done with this // listen if (listen(listener, 10) == -1) { perror("listen"); exit(3); } // add the listener to the master set FD_SET(listener, &master); // keep track of the biggest file descriptor fdmax = listener; // so far, it's this one // main loop for (;;) { read_fds = master; // copy it if (select(fdmax+1, &read_fds, NULL, NULL, NULL) == -1) { perror("select"); exit(4); } // run through the existing connections looking for data to read for (i = 0; i <= fdmax; i++) { if (FD_ISSET(i, &read_fds)) // we got one!! { if (i == listener) { // handle new connections if (fdmax == NUM_PARSERS - 1) continue; // ignore if there's too many addrlen = sizeof remoteaddr; newfd = accept(listener, (struct sockaddr *)&remoteaddr, &addrlen); if (newfd == -1) perror("accept"); else { FD_SET(newfd, &master); // add to master set if (newfd > fdmax) // keep track of the max fdmax = newfd; // reset parser state & packet if (routing_only) psyc_initParseState2(&parsers[newfd], PSYC_PARSE_ROUTING_ONLY); else psyc_initParseState(&parsers[newfd]); memset(&packets[newfd], 0, sizeof(psycPacket)); memset(&routing[newfd], 0, sizeof(psycModifier) * ROUTING_LINES); memset(&entity[newfd], 0, sizeof(psycModifier) * ENTITY_LINES); packets[newfd].routing.modifiers = routing[newfd]; packets[newfd].entity.modifiers = entity[newfd]; printf("# New connection from %s on socket %d\n", inet_ntop(remoteaddr.ss_family, get_in_addr((struct sockaddr*)&remoteaddr), remoteIP, INET6_ADDRSTRLEN), newfd); if (stats) gettimeofday(&start[newfd], NULL); } } else { // handle data from a client if ((nbytes = recv(i, recvbuf, recv_buf_size, 0)) <= 0) { if (stats) printf("%ld ms\n", (end[i].tv_sec * 1000000 + end[i].tv_usec - start[i].tv_sec * 1000000 - start[i].tv_usec) / 1000); // got error or connection closed by client if (nbytes == 0) // connection closed printf("socket %d hung up\n", i); else perror("recv"); close(i); // bye! FD_CLR(i, &master); // remove from master set } else { // we got some data from a client parsebuf = recvbuf - contbytes; psyc_setParseBuffer(&parsers[i], psyc_newString(parsebuf, contbytes + nbytes)); contbytes = 0; oper = 0; name.length = 0; value.length = 0; do { ret = psyc_parse(&parsers[i], &oper, &name, &value); if (verbose) printf("# ret = %d\n", ret); switch (ret) { case PSYC_PARSE_ROUTING: assert(packets[i].routing.lines < ROUTING_LINES); mod = &(packets[i].routing.modifiers[packets[i].routing.lines]); pname = &mod->name; pvalue = &mod->value; mod->flag = PSYC_MODIFIER_ROUTING; packets[i].routing.lines++; break; case PSYC_PARSE_ENTITY_INCOMPLETE: case PSYC_PARSE_ENTITY: assert(packets[i].entity.lines < ENTITY_LINES); mod = &(packets[i].entity.modifiers[packets[i].entity.lines]); pname = &mod->name; pvalue = &mod->value; if (ret == PSYC_PARSE_ENTITY) { packets[i].entity.lines++; mod->flag = psyc_isParseValueLengthFound(&parsers[i]) ? PSYC_MODIFIER_NEED_LENGTH : PSYC_MODIFIER_NO_LENGTH; } break; case PSYC_PARSE_BODY_INCOMPLETE: case PSYC_PARSE_BODY: pname = &(packets[i].method); pvalue = &(packets[i].data); break; case PSYC_PARSE_COMPLETE: if (verbose) printf("# Done parsing.\n"); else if (progress) write(1, ".", 1); if (!parse_multiple) // parse multiple packets? ret = -1; packets[i].flag = psyc_isParseContentLengthFound(&parsers[i]) ? PSYC_PACKET_NEED_LENGTH : PSYC_PACKET_NO_LENGTH; if (routing_only) { packets[i].content = packets[i].data; resetString(&packets[i].data, 0); } psyc_setPacketLength(&packets[i]); if (psyc_render(&packets[i], sendbuf, SEND_BUF_SIZE) == PSYC_RENDER_SUCCESS) { if (send(i, sendbuf, packets[i].length, 0) == -1) { perror("send error"); ret = -1; } } else { perror("render error"); ret = -1; } // reset packet packets[i].routingLength = 0; packets[i].contentLength = 0; packets[i].length = 0; packets[i].flag = 0; for (j = 0; j < packets[i].routing.lines; j++) { resetString(&packets[i].routing.modifiers[j].name, 1); resetString(&packets[i].routing.modifiers[j].value, 1); } packets[i].routing.lines = 0; if (routing_only) { resetString(&packets[i].content, 1); } else { for (j = 0; j < packets[i].entity.lines; j++) { resetString(&packets[i].entity.modifiers[j].name, 1); resetString(&packets[i].entity.modifiers[j].value, 1); } packets[i].entity.lines = 0; resetString(&packets[i].method, 1); resetString(&packets[i].data, 1); } break; case PSYC_PARSE_INSUFFICIENT: if (verbose) printf("# Insufficient data.\n"); contbytes = psyc_getParseRemainingLength(&parsers[i]); if (contbytes > 0) // copy end of parsebuf before start of recvbuf { assert(recvbuf - contbytes >= buf); // make sure it's still in the buffer memmove(recvbuf - contbytes, psyc_getParseRemainingBuffer(&parsers[i]), contbytes); } ret = 0; break; default: printf("# Error while parsing: %i\n", ret); ret = -1; } switch (ret) { case PSYC_PARSE_ENTITY_INCOMPLETE: case PSYC_PARSE_BODY_INCOMPLETE: ret = 0; case PSYC_PARSE_ENTITY: case PSYC_PARSE_ROUTING: case PSYC_PARSE_BODY: if (oper) { mod->oper = oper; if (verbose) printf("%c", oper); } if (name.length) { pname->ptr = malloc(name.length); pname->length = name.length; assert(pname->ptr != NULL); memcpy((void*)pname->ptr, name.ptr, name.length); name.length = 0; if (verbose) printf("%.*s = ", (int)pname->length, pname->ptr); } if (value.length) { if (!pvalue->length) pvalue->ptr = malloc(parsers[i].valueLength ? parsers[i].valueLength : value.length); assert(pvalue->ptr != NULL); memcpy((void*)pvalue->ptr + pvalue->length, value.ptr, value.length); pvalue->length += value.length; value.length = 0; if (verbose) { printf("[%.*s]", (int)pvalue->length, pvalue->ptr); if (parsers[i].valueLength > pvalue->length) printf("..."); printf("\n"); } } else if (verbose) printf("\n"); if (verbose) printf("\t\t\t\t\t\t\t\t# n:%ld v:%ld c:%ld r:%ld\n", pname->length, pvalue->length, parsers[i].contentParsed, parsers[i].routingLength); } switch (ret) { case PSYC_PARSE_ROUTING: case PSYC_PARSE_ENTITY: if (pname->length >= 5 && memcmp(pname->ptr, "_list", 5) == 0) { if (verbose) printf("## LIST START\n"); psyc_initParseListState(&listState); psyc_setParseListBuffer(&listState, *pvalue); do { retl = psyc_parseList(&listState, pname, pvalue, &elem); switch (retl) { case PSYC_PARSE_LIST_END: retl = 0; case PSYC_PARSE_LIST_ELEM: if (verbose) { printf("|%.*s\n", (int)elem.length, elem.ptr); if (ret == PSYC_PARSE_LIST_END) printf("## LIST END"); } break; default: printf("# Error while parsing list: %i\n", ret); ret = retl = -1; } } while (retl > 0); } } } while (ret > 0); if (progress) write(1, " ", 1); if (stats) gettimeofday(&end[i], NULL); if (ret < 0) { printf("# Closing connection: %i\n", i); close(i); // bye! FD_CLR(i, &master); // remove from master set } } } // END handle data from client } // END got new incoming connection } // END looping through file descriptors } // END for(;;)--and you thought it would never end! return 0; }