/* $OpenBSD: frontend_lpr.c,v 1.3 2020/03/16 20:46:44 benno Exp $ */ /* * Copyright (c) 2017 Eric Faurot * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include #include #include #include #include #include #include #include #include #include #include #include #include "lpd.h" #include "lp.h" #include "io.h" #include "log.h" #include "proc.h" #define SERVER_TIMEOUT 30000 #define CLIENT_TIMEOUT 5000 #define MAXARG 50 #define F_ZOMBIE 0x1 #define F_WAITADDRINFO 0x2 #define STATE_READ_COMMAND 0 #define STATE_READ_FILE 1 struct lpr_conn { SPLAY_ENTRY(lpr_conn) entry; uint32_t id; char hostname[NI_MAXHOST]; struct io *io; int state; int flags; int recvjob; int recvcf; size_t expect; FILE *ofp; /* output file when receiving data */ int ifd; /* input file for displayq/rmjob */ char *cmd; int ai_done; struct addrinfo *ai; struct io *iofwd; }; SPLAY_HEAD(lpr_conn_tree, lpr_conn); static int lpr_conn_cmp(struct lpr_conn *, struct lpr_conn *); SPLAY_PROTOTYPE(lpr_conn_tree, lpr_conn, entry, lpr_conn_cmp); static void lpr_on_allowedhost(struct lpr_conn *, const char *, const char *); static void lpr_on_recvjob(struct lpr_conn *, int); static void lpr_on_recvjob_file(struct lpr_conn *, int, size_t, int, int); static void lpr_on_request(struct lpr_conn *, int, const char *, const char *); static void lpr_on_getaddrinfo(void *, int, struct addrinfo *); static void lpr_io_dispatch(struct io *, int, void *); static int lpr_readcommand(struct lpr_conn *); static int lpr_readfile(struct lpr_conn *); static int lpr_parsejobfilter(struct lpr_conn *, struct lp_jobfilter *, int, char **); static void lpr_free(struct lpr_conn *); static void lpr_close(struct lpr_conn *); static void lpr_ack(struct lpr_conn *, char); static void lpr_reply(struct lpr_conn *, const char *); static void lpr_stream(struct lpr_conn *); static void lpr_forward(struct lpr_conn *); static void lpr_iofwd_dispatch(struct io *, int, void *); static struct lpr_conn_tree conns; void lpr_init(void) { SPLAY_INIT(&conns); } void lpr_conn(uint32_t connid, struct listener *l, int sock, const struct sockaddr *sa) { struct lpr_conn *conn; if ((conn = calloc(1, sizeof(*conn))) == NULL) { log_warn("%s: calloc", __func__); close(sock); frontend_conn_closed(connid); return; } conn->id = connid; conn->ifd = -1; conn->io = io_new(); if (conn->io == NULL) { log_warn("%s: io_new", __func__); free(conn); close(sock); frontend_conn_closed(connid); return; } SPLAY_INSERT(lpr_conn_tree, &conns, conn); io_set_callback(conn->io, lpr_io_dispatch, conn); io_set_timeout(conn->io, CLIENT_TIMEOUT); io_set_write(conn->io); io_attach(conn->io, sock); conn->state = STATE_READ_COMMAND; m_create(p_engine, IMSG_LPR_ALLOWEDHOST, conn->id, 0, -1); m_add_sockaddr(p_engine, sa); m_close(p_engine); } void lpr_dispatch_engine(struct imsgproc *proc, struct imsg *imsg) { struct lpr_conn *conn = NULL, key; const char *hostname, *reject, *cmd; size_t sz; int ack, cf = 0; key.id = imsg->hdr.peerid; if (key.id) { conn = SPLAY_FIND(lpr_conn_tree, &conns, &key); if (conn == NULL) { log_debug("%08x dead-session", key.id); if (imsg->fd != -1) close(imsg->fd); return; } } switch (imsg->hdr.type) { case IMSG_LPR_ALLOWEDHOST: m_get_string(proc, &hostname); m_get_string(proc, &reject); m_end(proc); lpr_on_allowedhost(conn, hostname, reject); break; case IMSG_LPR_RECVJOB: m_get_int(proc, &ack); m_end(proc); lpr_on_recvjob(conn, ack); break; case IMSG_LPR_RECVJOB_CF: cf = 1; case IMSG_LPR_RECVJOB_DF: m_get_int(proc, &ack); m_get_size(proc, &sz); m_end(proc); lpr_on_recvjob_file(conn, ack, sz, cf, imsg->fd); break; case IMSG_LPR_DISPLAYQ: case IMSG_LPR_RMJOB: m_get_string(proc, &hostname); m_get_string(proc, &cmd); m_end(proc); lpr_on_request(conn, imsg->fd, hostname, cmd); break; default: fatalx("%s: unexpected imsg %s", __func__, log_fmt_imsgtype(imsg->hdr.type)); } } static void lpr_on_allowedhost(struct lpr_conn *conn, const char *hostname, const char *reject) { strlcpy(conn->hostname, hostname, sizeof(conn->hostname)); if (reject) lpr_reply(conn, reject); else io_set_read(conn->io); } static void lpr_on_recvjob(struct lpr_conn *conn, int ack) { if (ack == LPR_ACK) conn->recvjob = 1; else log_debug("%08x recvjob failed", conn->id); lpr_ack(conn, ack); } static void lpr_on_recvjob_file(struct lpr_conn *conn, int ack, size_t sz, int cf, int fd) { if (ack != LPR_ACK) { lpr_ack(conn, ack); return; } if (fd == -1) { log_warnx("%s: failed to get fd", __func__); lpr_ack(conn, LPR_NACK); return; } conn->ofp = fdopen(fd, "w"); if (conn->ofp == NULL) { log_warn("%s: fdopen", __func__); close(fd); lpr_ack(conn, LPR_NACK); return; } conn->expect = sz; if (cf) conn->recvcf = cf; conn->state = STATE_READ_FILE; lpr_ack(conn, LPR_ACK); } static void lpr_on_request(struct lpr_conn *conn, int fd, const char *hostname, const char *cmd) { struct addrinfo hints; if (fd == -1) { log_warnx("%s: no fd received", __func__); lpr_close(conn); return; } log_debug("%08x stream init", conn->id); conn->ifd = fd; /* Prepare for command forwarding if necessary. */ if (cmd) { log_debug("%08x forwarding to %s: \\%d%s", conn->id, hostname, cmd[0], cmd + 1); conn->cmd = strdup(cmd); if (conn->cmd == NULL) log_warn("%s: strdup", __func__); else { memset(&hints, 0, sizeof(hints)); hints.ai_socktype = SOCK_STREAM; conn->flags |= F_WAITADDRINFO; /* * The callback might run immediatly, so conn->ifd * must be set before, to block lpr_forward(). */ resolver_getaddrinfo(hostname, "printer", &hints, lpr_on_getaddrinfo, conn); } } lpr_stream(conn); } static void lpr_on_getaddrinfo(void *arg, int r, struct addrinfo *ai) { struct lpr_conn *conn = arg; conn->flags &= ~F_WAITADDRINFO; if (conn->flags & F_ZOMBIE) { if (ai) freeaddrinfo(ai); lpr_free(conn); } else { conn->ai_done = 1; conn->ai = ai; lpr_forward(conn); } } static void lpr_io_dispatch(struct io *io, int evt, void *arg) { struct lpr_conn *conn = arg; int r; switch (evt) { case IO_DATAIN: switch(conn->state) { case STATE_READ_COMMAND: r = lpr_readcommand(conn); break; case STATE_READ_FILE: r = lpr_readfile(conn); break; default: fatal("%s: unexpected state %d", __func__, conn->state); } if (r == 0) io_set_write(conn->io); return; case IO_LOWAT: if (conn->recvjob) io_set_read(conn->io); else if (conn->ifd != -1) lpr_stream(conn); else if (conn->cmd == NULL) lpr_close(conn); return; case IO_DISCONNECTED: log_debug("%08x disconnected", conn->id); /* * Some clients don't wait for the last acknowledgment to close * the session. So just consider it is closed normally. */ case IO_CLOSED: if (conn->recvcf && conn->state == STATE_READ_COMMAND) { /* * Commit the transaction if we received a control file * and the last file was received correctly. */ m_compose(p_engine, IMSG_LPR_RECVJOB_COMMIT, conn->id, 0, -1, NULL, 0); conn->recvjob = 0; } break; case IO_TIMEOUT: log_debug("%08x timeout", conn->id); break; case IO_ERROR: log_debug("%08x io-error", conn->id); break; default: fatalx("%s: unexpected event %d", __func__, evt); } lpr_close(conn); } static int lpr_readcommand(struct lpr_conn *conn) { struct lp_jobfilter jf; size_t count; const char *errstr; char *argv[MAXARG], *line; int i, argc, cmd; line = io_getline(conn->io, NULL); if (line == NULL) { if (io_datalen(conn->io) >= LPR_MAXCMDLEN) { lpr_reply(conn, "Request line too long"); return 0; } return -1; } cmd = line[0]; line++; if (cmd == 0) { lpr_reply(conn, "No command"); return 0; } log_debug("%08x cmd \\%d", conn->id, cmd); /* Parse the command. */ for (argc = 0; argc < MAXARG; ) { argv[argc] = strsep(&line, " \t"); if (argv[argc] == NULL) break; if (argv[argc][0] != '\0') argc++; } if (argc == MAXARG) { lpr_reply(conn, "Argument list too long"); return 0; } if (argc == 0) { lpr_reply(conn, "No queue specified"); return 0; } #define CMD(c) ((int)(c)) #define SUBCMD(c) (0x100 | (int)(c)) if (conn->recvjob) cmd |= 0x100; switch (cmd) { case CMD('\1'): /* PRINT */ m_create(p_engine, IMSG_LPR_PRINTJOB, 0, 0, -1); m_add_string(p_engine, argv[0]); m_close(p_engine); lpr_ack(conn, LPR_ACK); return 0; case CMD('\2'): /* RECEIVE JOB */ m_create(p_engine, IMSG_LPR_RECVJOB, conn->id, 0, -1); m_add_string(p_engine, conn->hostname); m_add_string(p_engine, argv[0]); m_close(p_engine); return 0; case CMD('\3'): /* QUEUE STATE SHORT [job#...] [user..] */ case CMD('\4'): /* QUEUE STATE LONG [job#...] [user..] */ if (lpr_parsejobfilter(conn, &jf, argc - 1, argv + 1) == -1) return 0; m_create(p_engine, IMSG_LPR_DISPLAYQ, conn->id, 0, -1); m_add_int(p_engine, (cmd == '\3') ? 0 : 1); m_add_string(p_engine, conn->hostname); m_add_string(p_engine, argv[0]); m_add_int(p_engine, jf.njob); for (i = 0; i < jf.njob; i++) m_add_int(p_engine, jf.jobs[i]); m_add_int(p_engine, jf.nuser); for (i = 0; i < jf.nuser; i++) m_add_string(p_engine, jf.users[i]); m_close(p_engine); return 0; case CMD('\5'): /* REMOVE JOBS [job#...] [user..] */ if (argc < 2) { lpr_reply(conn, "No agent specified"); return 0; } if (lpr_parsejobfilter(conn, &jf, argc - 2, argv + 2) == -1) return 0; m_create(p_engine, IMSG_LPR_RMJOB, conn->id, 0, -1); m_add_string(p_engine, conn->hostname); m_add_string(p_engine, argv[0]); m_add_string(p_engine, argv[1]); m_add_int(p_engine, jf.njob); for (i = 0; i < jf.njob; i++) m_add_int(p_engine, jf.jobs[i]); m_add_int(p_engine, jf.nuser); for (i = 0; i < jf.nuser; i++) m_add_string(p_engine, jf.users[i]); m_close(p_engine); return 0; case SUBCMD('\1'): /* ABORT */ m_compose(p_engine, IMSG_LPR_RECVJOB_CLEAR, conn->id, 0, -1, NULL, 0); conn->recvcf = 0; lpr_ack(conn, LPR_ACK); return 0; case SUBCMD('\2'): /* CONTROL FILE */ case SUBCMD('\3'): /* DATA FILE */ if (argc != 2) { log_debug("%08x invalid number of argument", conn->id); lpr_ack(conn, LPR_NACK); return 0; } errstr = NULL; count = strtonum(argv[0], 1, LPR_MAXFILESIZE, &errstr); if (errstr) { log_debug("%08x invalid file size: %s", conn->id, strerror(errno)); lpr_ack(conn, LPR_NACK); return 0; } if (cmd == SUBCMD('\2')) { if (conn->recvcf) { log_debug("%08x cf file already received", conn->id); lpr_ack(conn, LPR_NACK); return 0; } m_create(p_engine, IMSG_LPR_RECVJOB_CF, conn->id, 0, -1); } else m_create(p_engine, IMSG_LPR_RECVJOB_DF, conn->id, 0, -1); m_add_size(p_engine, count); m_add_string(p_engine, argv[1]); m_close(p_engine); return 0; default: if (conn->recvjob) lpr_reply(conn, "Protocol error"); else lpr_reply(conn, "Illegal service request"); return 0; } } static int lpr_readfile(struct lpr_conn *conn) { size_t len, w; char *data; if (conn->expect) { /* Read file content. */ data = io_data(conn->io); len = io_datalen(conn->io); if (len > conn->expect) len = conn->expect; log_debug("%08x %zu bytes received", conn->id, len); w = fwrite(data, 1, len, conn->ofp); if (w != len) { log_warnx("%s: fwrite", __func__); lpr_close(conn); return -1; } io_drop(conn->io, w); conn->expect -= w; if (conn->expect) return -1; fclose(conn->ofp); conn->ofp = NULL; log_debug("%08x file received", conn->id); } /* Try to read '\0'. */ len = io_datalen(conn->io); if (len == 0) return -1; data = io_data(conn->io); io_drop(conn->io, 1); log_debug("%08x eof %d", conn->id, (int)*data); if (*data != '\0') { lpr_close(conn); return -1; } conn->state = STATE_READ_COMMAND; lpr_ack(conn, LPR_ACK); return 0; } static int lpr_parsejobfilter(struct lpr_conn *conn, struct lp_jobfilter *jf, int argc, char **argv) { const char *errstr; char *arg; int i, jobnum; memset(jf, 0, sizeof(*jf)); for (i = 0; i < argc; i++) { arg = argv[i]; if (isdigit((unsigned char)arg[0])) { if (jf->njob == LP_MAXREQUESTS) { lpr_reply(conn, "Too many requests"); return -1; } errstr = NULL; jobnum = strtonum(arg, 0, INT_MAX, &errstr); if (errstr) { lpr_reply(conn, "Invalid job number"); return -1; } jf->jobs[jf->njob++] = jobnum; } else { if (jf->nuser == LP_MAXUSERS) { lpr_reply(conn, "Too many users"); return -1; } jf->users[jf->nuser++] = arg; } } return 0; } static void lpr_free(struct lpr_conn *conn) { if ((conn->flags & F_WAITADDRINFO) == 0) free(conn); } static void lpr_close(struct lpr_conn *conn) { uint32_t connid = conn->id; SPLAY_REMOVE(lpr_conn_tree, &conns, conn); if (conn->recvjob) m_compose(p_engine, IMSG_LPR_RECVJOB_ROLLBACK, conn->id, 0, -1, NULL, 0); io_free(conn->io); free(conn->cmd); if (conn->ofp) fclose(conn->ofp); if (conn->ifd != -1) close(conn->ifd); if (conn->ai) freeaddrinfo(conn->ai); if (conn->iofwd) io_free(conn->iofwd); conn->flags |= F_ZOMBIE; lpr_free(conn); frontend_conn_closed(connid); } static void lpr_ack(struct lpr_conn *conn, char c) { if (c == 0) log_debug("%08x ack", conn->id); else log_debug("%08x nack %d", conn->id, (int)c); io_write(conn->io, &c, 1); } static void lpr_reply(struct lpr_conn *conn, const char *s) { log_debug("%08x reply: %s", conn->id, s); io_printf(conn->io, "%s\n", s); } /* * Stream reponse file to the client. */ static void lpr_stream(struct lpr_conn *conn) { char buf[BUFSIZ]; ssize_t r; for (;;) { if (io_queued(conn->io) > 65536) return; r = read(conn->ifd, buf, sizeof(buf)); if (r == -1) { if (errno == EINTR) continue; log_warn("%s: read", __func__); break; } if (r == 0) { log_debug("%08x stream done", conn->id); break; } log_debug("%08x stream %zu bytes", conn->id, r); if (io_write(conn->io, buf, r) == -1) { log_warn("%s: io_write", __func__); break; } } close(conn->ifd); conn->ifd = -1; if (conn->cmd) lpr_forward(conn); else if (io_queued(conn->io) == 0) lpr_close(conn); } /* * Forward request to the remote printer. */ static void lpr_forward(struct lpr_conn *conn) { /* * Do not start forwarding the command if the address is not resolved * or if the local response is still being sent to the client. */ if (!conn->ai_done || conn->ifd == -1) return; if (conn->ai == NULL) { if (io_queued(conn->io) == 0) lpr_close(conn); return; } log_debug("%08x forward start", conn->id); conn->iofwd = io_new(); if (conn->iofwd == NULL) { log_warn("%s: io_new", __func__); if (io_queued(conn->io) == 0) lpr_close(conn); return; } io_set_callback(conn->iofwd, lpr_iofwd_dispatch, conn); io_set_timeout(conn->io, SERVER_TIMEOUT); io_connect(conn->iofwd, conn->ai); conn->ai = NULL; } static void lpr_iofwd_dispatch(struct io *io, int evt, void *arg) { struct lpr_conn *conn = arg; switch (evt) { case IO_CONNECTED: log_debug("%08x forward connected", conn->id); /* Send the request. */ io_print(io, conn->cmd); io_print(io, "\n"); io_set_write(io); return; case IO_DATAIN: /* Relay. */ io_write(conn->io, io_data(io), io_datalen(io)); io_drop(io, io_datalen(io)); return; case IO_LOWAT: /* Read response. */ io_set_read(io); return; case IO_CLOSED: break; case IO_DISCONNECTED: log_debug("%08x forward disconnected", conn->id); break; case IO_TIMEOUT: log_debug("%08x forward timeout", conn->id); break; case IO_ERROR: log_debug("%08x forward io-error", conn->id); break; default: fatalx("%s: unexpected event %d", __func__, evt); } log_debug("%08x forward done", conn->id); io_free(io); free(conn->cmd); conn->cmd = NULL; conn->iofwd = NULL; if (io_queued(conn->io) == 0) lpr_close(conn); } static int lpr_conn_cmp(struct lpr_conn *a, struct lpr_conn *b) { if (a->id < b->id) return -1; if (a->id > b->id) return 1; return 0; } SPLAY_GENERATE(lpr_conn_tree, lpr_conn, entry, lpr_conn_cmp);