/* $OpenBSD: ds.c,v 1.12 2022/07/27 19:42:22 kn Exp $ */ /* * Copyright (c) 2012 Mark Kettenis * * 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 "ds.h" #include "ldom_util.h" void ldc_rx_ctrl_vers(struct ldc_conn *, struct ldc_pkt *); void ldc_rx_ctrl_rtr(struct ldc_conn *, struct ldc_pkt *); void ldc_rx_ctrl_rts(struct ldc_conn *, struct ldc_pkt *); void ldc_rx_ctrl_rdx(struct ldc_conn *, struct ldc_pkt *); void ldc_send_ack(struct ldc_conn *); void ldc_send_nack(struct ldc_conn *); void ldc_send_rtr(struct ldc_conn *); void ldc_send_rts(struct ldc_conn *); void ldc_send_rdx(struct ldc_conn *); void ldc_rx_ctrl(struct ldc_conn *lc, struct ldc_pkt *lp) { switch (lp->ctrl) { case LDC_VERS: ldc_rx_ctrl_vers(lc, lp); break; case LDC_RTS: ldc_rx_ctrl_rts(lc, lp); break; case LDC_RTR: ldc_rx_ctrl_rtr(lc, lp); break; case LDC_RDX: ldc_rx_ctrl_rdx(lc, lp); break; default: DPRINTF(("CTRL/0x%02x/0x%02x\n", lp->stype, lp->ctrl)); ldc_reset(lc); break; } } void ldc_rx_ctrl_vers(struct ldc_conn *lc, struct ldc_pkt *lp) { struct ldc_pkt *lvp = (struct ldc_pkt *)lp; switch (lp->stype) { case LDC_INFO: if (lc->lc_state == LDC_RCV_VERS) { DPRINTF(("Spurious CTRL/INFO/VERS: state %d\n", lc->lc_state)); return; } DPRINTF(("CTRL/INFO/VERS %d.%d\n", lvp->major, lvp->minor)); if (lvp->major == LDC_VERSION_MAJOR && lvp->minor == LDC_VERSION_MINOR) ldc_send_ack(lc); else ldc_send_nack(lc); break; case LDC_ACK: if (lc->lc_state != LDC_SND_VERS) { DPRINTF(("Spurious CTRL/ACK/VERS: state %d\n", lc->lc_state)); ldc_reset(lc); return; } DPRINTF(("CTRL/ACK/VERS\n")); ldc_send_rts(lc); break; case LDC_NACK: DPRINTF(("CTRL/NACK/VERS\n")); ldc_reset(lc); break; default: DPRINTF(("CTRL/0x%02x/VERS\n", lp->stype)); ldc_reset(lc); break; } } void ldc_rx_ctrl_rts(struct ldc_conn *lc, struct ldc_pkt *lp) { switch (lp->stype) { case LDC_INFO: if (lc->lc_state != LDC_RCV_VERS) { DPRINTF(("Spurious CTRL/INFO/RTS: state %d\n", lc->lc_state)); ldc_reset(lc); return; } DPRINTF(("CTRL/INFO/RTS\n")); if (lp->env != LDC_MODE_RELIABLE) { ldc_reset(lc); return; } ldc_send_rtr(lc); break; case LDC_ACK: DPRINTF(("CTRL/ACK/RTS\n")); ldc_reset(lc); break; case LDC_NACK: DPRINTF(("CTRL/NACK/RTS\n")); ldc_reset(lc); break; default: DPRINTF(("CTRL/0x%02x/RTS\n", lp->stype)); ldc_reset(lc); break; } } void ldc_rx_ctrl_rtr(struct ldc_conn *lc, struct ldc_pkt *lp) { switch (lp->stype) { case LDC_INFO: if (lc->lc_state != LDC_SND_RTS) { DPRINTF(("Spurious CTRL/INFO/RTR: state %d\n", lc->lc_state)); ldc_reset(lc); return; } DPRINTF(("CTRL/INFO/RTR\n")); if (lp->env != LDC_MODE_RELIABLE) { ldc_reset(lc); return; } ldc_send_rdx(lc); #if 0 lc->lc_start(lc); #endif break; case LDC_ACK: DPRINTF(("CTRL/ACK/RTR\n")); ldc_reset(lc); break; case LDC_NACK: DPRINTF(("CTRL/NACK/RTR\n")); ldc_reset(lc); break; default: DPRINTF(("CTRL/0x%02x/RTR\n", lp->stype)); ldc_reset(lc); break; } } void ldc_rx_ctrl_rdx(struct ldc_conn *lc, struct ldc_pkt *lp) { switch (lp->stype) { case LDC_INFO: if (lc->lc_state != LDC_SND_RTR) { DPRINTF(("Spurious CTRL/INFO/RTR: state %d\n", lc->lc_state)); ldc_reset(lc); return; } DPRINTF(("CTRL/INFO/RDX\n")); #if 0 lc->lc_start(lc); #endif break; case LDC_ACK: DPRINTF(("CTRL/ACK/RDX\n")); ldc_reset(lc); break; case LDC_NACK: DPRINTF(("CTRL/NACK/RDX\n")); ldc_reset(lc); break; default: DPRINTF(("CTRL/0x%02x/RDX\n", lp->stype)); ldc_reset(lc); break; } } void ldc_rx_data(struct ldc_conn *lc, struct ldc_pkt *lp) { size_t len; if (lp->stype != LDC_INFO && lp->stype != LDC_ACK) { DPRINTF(("DATA/0x%02x\n", lp->stype)); ldc_reset(lc); return; } if (lc->lc_state != LDC_SND_RTR && lc->lc_state != LDC_SND_RDX) { DPRINTF(("Spurious DATA/INFO: state %d\n", lc->lc_state)); ldc_reset(lc); return; } #if 0 if (lp->ackid) { int i; for (i = 0; ds_service[i].ds_svc_id; i++) { if (ds_service[i].ds_ackid && lp->ackid >= ds_service[i].ds_ackid) { ds_service[i].ds_ackid = 0; ds_service[i].ds_start(lc, ds_service[i].ds_svc_handle); } } } #endif if (lp->stype == LDC_ACK) return; if (lp->env & LDC_FRAG_START) { lc->lc_len = (lp->env & LDC_LEN_MASK); memcpy((uint8_t *)lc->lc_msg, &lp->data, lc->lc_len); } else { len = (lp->env & LDC_LEN_MASK); if (lc->lc_len + len > sizeof(lc->lc_msg)) { DPRINTF(("Buffer overrun\n")); ldc_reset(lc); return; } memcpy((uint8_t *)lc->lc_msg + lc->lc_len, &lp->data, len); lc->lc_len += len; } if (lp->env & LDC_FRAG_STOP) { ldc_ack(lc, lp->seqid); lc->lc_rx_data(lc, lc->lc_msg, lc->lc_len); } } void ldc_send_vers(struct ldc_conn *lc) { struct ldc_pkt lp; ssize_t nbytes; bzero(&lp, sizeof(lp)); lp.type = LDC_CTRL; lp.stype = LDC_INFO; lp.ctrl = LDC_VERS; lp.major = 1; lp.minor = 0; nbytes = write(lc->lc_fd, &lp, sizeof(lp)); if (nbytes != sizeof(lp)) err(1, "write"); lc->lc_state = LDC_SND_VERS; } void ldc_send_ack(struct ldc_conn *lc) { struct ldc_pkt lp; ssize_t nbytes; bzero(&lp, sizeof(lp)); lp.type = LDC_CTRL; lp.stype = LDC_ACK; lp.ctrl = LDC_VERS; lp.major = 1; lp.minor = 0; nbytes = write(lc->lc_fd, &lp, sizeof(lp)); if (nbytes != sizeof(lp)) err(1, "write"); lc->lc_state = LDC_RCV_VERS; } void ldc_send_nack(struct ldc_conn *lc) { struct ldc_pkt lp; ssize_t nbytes; bzero(&lp, sizeof(lp)); lp.type = LDC_CTRL; lp.stype = LDC_NACK; lp.ctrl = LDC_VERS; lp.major = 1; lp.minor = 0; nbytes = write(lc->lc_fd, &lp, sizeof(lp)); if (nbytes != sizeof(lp)) err(1, "write"); lc->lc_state = 0; } void ldc_send_rts(struct ldc_conn *lc) { struct ldc_pkt lp; ssize_t nbytes; bzero(&lp, sizeof(lp)); lp.type = LDC_CTRL; lp.stype = LDC_INFO; lp.ctrl = LDC_RTS; lp.env = LDC_MODE_RELIABLE; lp.seqid = lc->lc_tx_seqid++; nbytes = write(lc->lc_fd, &lp, sizeof(lp)); if (nbytes != sizeof(lp)) err(1, "write"); lc->lc_state = LDC_SND_RTS; } void ldc_send_rtr(struct ldc_conn *lc) { struct ldc_pkt lp; ssize_t nbytes; bzero(&lp, sizeof(lp)); lp.type = LDC_CTRL; lp.stype = LDC_INFO; lp.ctrl = LDC_RTR; lp.env = LDC_MODE_RELIABLE; lp.seqid = lc->lc_tx_seqid++; nbytes = write(lc->lc_fd, &lp, sizeof(lp)); if (nbytes != sizeof(lp)) err(1, "write"); lc->lc_state = LDC_SND_RTR; } void ldc_send_rdx(struct ldc_conn *lc) { struct ldc_pkt lp; ssize_t nbytes; bzero(&lp, sizeof(lp)); lp.type = LDC_CTRL; lp.stype = LDC_INFO; lp.ctrl = LDC_RDX; lp.env = LDC_MODE_RELIABLE; lp.seqid = lc->lc_tx_seqid++; nbytes = write(lc->lc_fd, &lp, sizeof(lp)); if (nbytes != sizeof(lp)) err(1, "write"); lc->lc_state = LDC_SND_RDX; } void ldc_reset(struct ldc_conn *lc) { lc->lc_tx_seqid = 0; lc->lc_state = 0; #if 0 lc->lc_reset(lc); #endif } void ldc_ack(struct ldc_conn *lc, uint32_t ackid) { struct ldc_pkt lp; ssize_t nbytes; bzero(&lp, sizeof(lp)); lp.type = LDC_DATA; lp.stype = LDC_ACK; lp.seqid = lc->lc_tx_seqid++; lp.ackid = ackid; nbytes = write(lc->lc_fd, &lp, sizeof(lp)); if (nbytes != sizeof(lp)) err(1, "write"); } void ds_rx_msg(struct ldc_conn *lc, void *data, size_t len) { struct ds_conn *dc = lc->lc_cookie; struct ds_msg *dm = data; switch(dm->msg_type) { case DS_INIT_REQ: { struct ds_init_req *dr = data; DPRINTF(("DS_INIT_REQ %d.%d\n", dr->major_vers, dr->minor_vers)); if (dr->major_vers != 1 || dr->minor_vers != 0){ ldc_reset(lc); return; } ds_init_ack(lc); break; } case DS_REG_REQ: { struct ds_reg_req *dr = data; struct ds_conn_svc *dcs; uint16_t major = 0; DPRINTF(("DS_REG_REQ %s %d.%d 0x%016llx\n", dr->svc_id, dr->major_vers, dr->minor_vers, dr->svc_handle)); TAILQ_FOREACH(dcs, &dc->services, link) { if (strcmp(dr->svc_id, dcs->service->ds_svc_id) == 0 && dr->major_vers == dcs->service->ds_major_vers) { dcs->svc_handle = dr->svc_handle; dcs->ackid = lc->lc_tx_seqid; ds_reg_ack(lc, dcs->svc_handle, dcs->service->ds_minor_vers); dcs->service->ds_start(lc, dcs->svc_handle); return; } } TAILQ_FOREACH(dcs, &dc->services, link) { if (strcmp(dr->svc_id, dcs->service->ds_svc_id) == 0 && dcs->service->ds_major_vers > major) major = dcs->service->ds_major_vers; } ds_reg_nack(lc, dr->svc_handle, major); break; } case DS_UNREG: { struct ds_unreg *du = data; DPRINTF(("DS_UNREG 0x%016llx\n", du->svc_handle)); ds_unreg_ack(lc, du->svc_handle); break; } case DS_DATA: { struct ds_data *dd = data; struct ds_conn_svc *dcs; DPRINTF(("DS_DATA 0x%016llx\n", dd->svc_handle)); TAILQ_FOREACH(dcs, &dc->services, link) { if (dcs->svc_handle == dd->svc_handle) dcs->service->ds_rx_data(lc, dd->svc_handle, data, len); } break; } default: DPRINTF(("Unknown DS message type 0x%x\n", dm->msg_type)); ldc_reset(lc); break; } } void ds_init_ack(struct ldc_conn *lc) { struct ds_init_ack da; DPRINTF((" DS_INIT_ACK\n")); bzero(&da, sizeof(da)); da.msg_type = DS_INIT_ACK; da.payload_len = sizeof(da) - 8; da.minor_vers = 0; ds_send_msg(lc, &da, sizeof(da)); } void ds_reg_ack(struct ldc_conn *lc, uint64_t svc_handle, uint16_t minor) { struct ds_reg_ack da; DPRINTF((" DS_REG_ACK 0x%016llx\n", svc_handle)); bzero(&da, sizeof(da)); da.msg_type = DS_REG_ACK; da.payload_len = sizeof(da) - 8; da.svc_handle = svc_handle; da.minor_vers = minor; ds_send_msg(lc, &da, sizeof(da)); } void ds_reg_nack(struct ldc_conn *lc, uint64_t svc_handle, uint16_t major) { struct ds_reg_nack dn; DPRINTF((" DS_REG_NACK 0x%016llx\n", svc_handle)); bzero(&dn, sizeof(dn)); dn.msg_type = DS_REG_NACK; dn.payload_len = sizeof(dn) - 8; dn.svc_handle = svc_handle; dn.result = DS_REG_VER_NACK; dn.major_vers = major; ds_send_msg(lc, &dn, sizeof(dn)); } void ds_unreg_ack(struct ldc_conn *lc, uint64_t svc_handle) { struct ds_unreg du; DPRINTF((" DS_UNREG_ACK 0x%016llx\n", svc_handle)); bzero(&du, sizeof(du)); du.msg_type = DS_UNREG_ACK; du.payload_len = sizeof(du) - 8; du.svc_handle = svc_handle; ds_send_msg(lc, &du, sizeof(du)); } void ds_unreg_nack(struct ldc_conn *lc, uint64_t svc_handle) { struct ds_unreg du; DPRINTF((" DS_UNREG_NACK 0x%016llx\n", svc_handle)); bzero(&du, sizeof(du)); du.msg_type = DS_UNREG_NACK; du.payload_len = sizeof(du) - 8; du.svc_handle = svc_handle; ds_send_msg(lc, &du, sizeof(du)); } void ds_receive_msg(struct ldc_conn *lc, void *buf, size_t len) { int env = LDC_FRAG_START; struct ldc_pkt lp; uint8_t *p = buf; ssize_t nbytes; while (len > 0) { nbytes = read(lc->lc_fd, &lp, sizeof(lp)); if (nbytes != sizeof(lp)) err(1, "read"); if (lp.type != LDC_DATA && lp.stype != LDC_INFO) { ldc_reset(lc); return; } if ((lp.env & LDC_FRAG_START) != env) { ldc_reset(lc); return; } bcopy(&lp.data, p, (lp.env & LDC_LEN_MASK)); p += (lp.env & LDC_LEN_MASK); len -= (lp.env & LDC_LEN_MASK); if (lp.env & LDC_FRAG_STOP) ldc_ack(lc, lp.seqid); env = (lp.env & LDC_FRAG_STOP) ? LDC_FRAG_START : 0; } } void ldc_send_msg(struct ldc_conn *lc, void *buf, size_t len) { struct ldc_pkt lp; uint8_t *p = buf; ssize_t nbytes; while (len > 0) { bzero(&lp, sizeof(lp)); lp.type = LDC_DATA; lp.stype = LDC_INFO; lp.env = min(len, LDC_PKT_PAYLOAD); if (p == buf) lp.env |= LDC_FRAG_START; if (len <= LDC_PKT_PAYLOAD) lp.env |= LDC_FRAG_STOP; lp.seqid = lc->lc_tx_seqid++; bcopy(p, &lp.data, min(len, LDC_PKT_PAYLOAD)); nbytes = write(lc->lc_fd, &lp, sizeof(lp)); if (nbytes != sizeof(lp)) err(1, "write"); p += min(len, LDC_PKT_PAYLOAD); len -= min(len, LDC_PKT_PAYLOAD); } } void ds_send_msg(struct ldc_conn *lc, void *buf, size_t len) { uint8_t *p = buf; struct ldc_pkt lp; ssize_t nbytes; while (len > 0) { ldc_send_msg(lc, p, min(len, LDC_MSG_MAX)); p += min(len, LDC_MSG_MAX); len -= min(len, LDC_MSG_MAX); if (len > 0) { /* Consume ACK. */ nbytes = read(lc->lc_fd, &lp, sizeof(lp)); if (nbytes != sizeof(lp)) err(1, "read"); #if 0 { uint64_t *msg = (uint64_t *)&lp; int i; for (i = 0; i < 8; i++) printf("%02x: %016llx\n", i, msg[i]); } #endif } } } TAILQ_HEAD(ds_conn_head, ds_conn) ds_conns = TAILQ_HEAD_INITIALIZER(ds_conns); int num_ds_conns; struct ds_conn * ds_conn_open(const char *path, void *cookie) { struct ds_conn *dc; dc = xmalloc(sizeof(*dc)); dc->path = xstrdup(path); dc->cookie = cookie; dc->fd = open(path, O_RDWR); if (dc->fd == -1) err(1, "cannot open %s", path); memset(&dc->lc, 0, sizeof(dc->lc)); dc->lc.lc_fd = dc->fd; dc->lc.lc_cookie = dc; dc->lc.lc_rx_data = ds_rx_msg; TAILQ_INIT(&dc->services); TAILQ_INSERT_TAIL(&ds_conns, dc, link); dc->id = num_ds_conns++; return dc; } void ds_conn_register_service(struct ds_conn *dc, struct ds_service *ds) { struct ds_conn_svc *dcs; dcs = xzalloc(sizeof(*dcs)); dcs->service = ds; TAILQ_INSERT_TAIL(&dc->services, dcs, link); } void ds_conn_handle(struct ds_conn *dc) { struct ldc_pkt lp; ssize_t nbytes; nbytes = read(dc->fd, &lp, sizeof(lp)); if (nbytes != sizeof(lp)) { ldc_reset(&dc->lc); return; } switch (lp.type) { case LDC_CTRL: ldc_rx_ctrl(&dc->lc, &lp); break; case LDC_DATA: ldc_rx_data(&dc->lc, &lp); break; default: DPRINTF(("0x%02x/0x%02x/0x%02x\n", lp.type, lp.stype, lp.ctrl)); ldc_reset(&dc->lc); break; } } void ds_conn_serve(void) { struct ds_conn *dc; struct pollfd *pfd; int nfds; pfd = xreallocarray(NULL, num_ds_conns, sizeof(*pfd)); TAILQ_FOREACH(dc, &ds_conns, link) { pfd[dc->id].fd = dc->fd; pfd[dc->id].events = POLLIN; } while (1) { nfds = poll(pfd, num_ds_conns, -1); if (nfds == -1) err(1, "poll"); if (nfds == 0) errx(1, "poll timeout"); TAILQ_FOREACH(dc, &ds_conns, link) { if (pfd[dc->id].revents) ds_conn_handle(dc); } } }