/* * Copyright (c) 2020 Yubico AB. All rights reserved. * Use of this source code is governed by a BSD-style * license that can be found in the LICENSE file. * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include #include "fido.h" #include "netlink.h" #ifdef FIDO_FUZZ static ssize_t (*fuzz_read)(int, void *, size_t); static ssize_t (*fuzz_write)(int, const void *, size_t); # define READ fuzz_read # define WRITE fuzz_write #else # define READ read # define WRITE write #endif #ifndef SOL_NETLINK #define SOL_NETLINK 270 #endif #define NETLINK_POLL_MS 100 /* XXX avoid signed NLA_ALIGNTO */ #undef NLA_HDRLEN #define NLA_HDRLEN NLMSG_ALIGN(sizeof(struct nlattr)) typedef struct nlmsgbuf { size_t siz; /* alloc size */ size_t len; /* of payload */ unsigned char *ptr; /* in payload */ union { struct nlmsghdr nlmsg; char buf[NLMSG_HDRLEN]; /* align */ } u; unsigned char payload[]; } nlmsgbuf_t; typedef struct genlmsgbuf { union { struct genlmsghdr genl; char buf[GENL_HDRLEN]; /* align */ } u; } genlmsgbuf_t; typedef struct nlamsgbuf { size_t siz; /* alloc size */ size_t len; /* of payload */ unsigned char *ptr; /* in payload */ union { struct nlattr nla; char buf[NLA_HDRLEN]; /* align */ } u; unsigned char payload[]; } nlamsgbuf_t; typedef struct nl_family { uint16_t id; uint32_t mcastgrp; } nl_family_t; typedef struct nl_poll { uint32_t dev; unsigned int eventcnt; } nl_poll_t; typedef struct nl_target { int found; uint32_t *value; } nl_target_t; static const void * nlmsg_ptr(const nlmsgbuf_t *m) { return (&m->u.nlmsg); } static size_t nlmsg_len(const nlmsgbuf_t *m) { return (m->u.nlmsg.nlmsg_len); } static uint16_t nlmsg_type(const nlmsgbuf_t *m) { return (m->u.nlmsg.nlmsg_type); } static nlmsgbuf_t * nlmsg_new(uint16_t type, uint16_t flags, size_t len) { nlmsgbuf_t *m; size_t siz; if (len > SIZE_MAX - sizeof(*m) || (siz = sizeof(*m) + len) > UINT16_MAX || (m = calloc(1, siz)) == NULL) return (NULL); m->siz = siz; m->len = len; m->ptr = m->payload; m->u.nlmsg.nlmsg_type = type; m->u.nlmsg.nlmsg_flags = NLM_F_REQUEST | flags; m->u.nlmsg.nlmsg_len = NLMSG_HDRLEN; return (m); } static nlamsgbuf_t * nla_from_buf(const unsigned char **ptr, size_t *len) { nlamsgbuf_t h, *a; size_t nlalen, skip; if (*len < sizeof(h.u)) return (NULL); memset(&h, 0, sizeof(h)); memcpy(&h.u, *ptr, sizeof(h.u)); if ((nlalen = h.u.nla.nla_len) < sizeof(h.u) || nlalen > *len || nlalen - sizeof(h.u) > UINT16_MAX || nlalen > SIZE_MAX - sizeof(*a) || (skip = NLMSG_ALIGN(nlalen)) > *len || (a = calloc(1, sizeof(*a) + nlalen - sizeof(h.u))) == NULL) return (NULL); memcpy(&a->u, *ptr, nlalen); a->siz = sizeof(*a) + nlalen - sizeof(h.u); a->ptr = a->payload; a->len = nlalen - sizeof(h.u); *ptr += skip; *len -= skip; return (a); } static nlamsgbuf_t * nla_getattr(nlamsgbuf_t *a) { return (nla_from_buf((void *)&a->ptr, &a->len)); } static uint16_t nla_type(const nlamsgbuf_t *a) { return (a->u.nla.nla_type); } static nlamsgbuf_t * nlmsg_getattr(nlmsgbuf_t *m) { return (nla_from_buf((void *)&m->ptr, &m->len)); } static int nla_read(nlamsgbuf_t *a, void *buf, size_t cnt) { if (cnt > a->u.nla.nla_len || fido_buf_read((void *)&a->ptr, &a->len, buf, cnt) < 0) return (-1); a->u.nla.nla_len = (uint16_t)(a->u.nla.nla_len - cnt); return (0); } static nlmsgbuf_t * nlmsg_from_buf(const unsigned char **ptr, size_t *len) { nlmsgbuf_t h, *m; size_t msglen, skip; if (*len < sizeof(h.u)) return (NULL); memset(&h, 0, sizeof(h)); memcpy(&h.u, *ptr, sizeof(h.u)); if ((msglen = h.u.nlmsg.nlmsg_len) < sizeof(h.u) || msglen > *len || msglen - sizeof(h.u) > UINT16_MAX || (skip = NLMSG_ALIGN(msglen)) > *len || (m = nlmsg_new(0, 0, msglen - sizeof(h.u))) == NULL) return (NULL); memcpy(&m->u, *ptr, msglen); *ptr += skip; *len -= skip; return (m); } static int nlmsg_read(nlmsgbuf_t *m, void *buf, size_t cnt) { if (cnt > m->u.nlmsg.nlmsg_len || fido_buf_read((void *)&m->ptr, &m->len, buf, cnt) < 0) return (-1); m->u.nlmsg.nlmsg_len = (uint32_t)(m->u.nlmsg.nlmsg_len - cnt); return (0); } static int nlmsg_write(nlmsgbuf_t *m, const void *buf, size_t cnt) { if (cnt > UINT32_MAX - m->u.nlmsg.nlmsg_len || fido_buf_write(&m->ptr, &m->len, buf, cnt) < 0) return (-1); m->u.nlmsg.nlmsg_len = (uint32_t)(m->u.nlmsg.nlmsg_len + cnt); return (0); } static int nlmsg_set_genl(nlmsgbuf_t *m, uint8_t cmd) { genlmsgbuf_t g; memset(&g, 0, sizeof(g)); g.u.genl.cmd = cmd; g.u.genl.version = NFC_GENL_VERSION; return (nlmsg_write(m, &g, sizeof(g))); } static int nlmsg_get_genl(nlmsgbuf_t *m, uint8_t cmd) { genlmsgbuf_t g; memset(&g, 0, sizeof(g)); if (nlmsg_read(m, &g, sizeof(g)) < 0 || g.u.genl.cmd != cmd) return (-1); return (0); } static int nlmsg_get_status(nlmsgbuf_t *m) { int status; if (nlmsg_read(m, &status, sizeof(status)) < 0 || status == INT_MIN) return (-1); if (status < 0) status = -status; return (status); } static int nlmsg_setattr(nlmsgbuf_t *m, uint16_t type, const void *ptr, size_t len) { int r; char *padding; size_t skip; nlamsgbuf_t a; if ((skip = NLMSG_ALIGN(len)) > UINT16_MAX - sizeof(a.u) || skip < len || (padding = calloc(1, skip - len)) == NULL) return (-1); memset(&a, 0, sizeof(a)); a.u.nla.nla_type = type; a.u.nla.nla_len = (uint16_t)(len + sizeof(a.u)); r = nlmsg_write(m, &a.u, sizeof(a.u)) < 0 || nlmsg_write(m, ptr, len) < 0 || nlmsg_write(m, padding, skip - len) < 0 ? -1 : 0; free(padding); return (r); } static int nlmsg_set_u16(nlmsgbuf_t *m, uint16_t type, uint16_t val) { return (nlmsg_setattr(m, type, &val, sizeof(val))); } static int nlmsg_set_u32(nlmsgbuf_t *m, uint16_t type, uint32_t val) { return (nlmsg_setattr(m, type, &val, sizeof(val))); } static int nlmsg_set_str(nlmsgbuf_t *m, uint16_t type, const char *val) { return (nlmsg_setattr(m, type, val, strlen(val) + 1)); } static int nla_get_u16(nlamsgbuf_t *a, uint16_t *v) { return (nla_read(a, v, sizeof(*v))); } static int nla_get_u32(nlamsgbuf_t *a, uint32_t *v) { return (nla_read(a, v, sizeof(*v))); } static char * nla_get_str(nlamsgbuf_t *a) { size_t n; char *s = NULL; if ((n = a->len) < 1 || a->ptr[n - 1] != '\0' || (s = calloc(1, n)) == NULL || nla_read(a, s, n) < 0) { free(s); return (NULL); } s[n - 1] = '\0'; return (s); } static int nlmsg_tx(int fd, const nlmsgbuf_t *m) { ssize_t r; if ((r = WRITE(fd, nlmsg_ptr(m), nlmsg_len(m))) == -1) { fido_log_error(errno, "%s: write", __func__); return (-1); } if (r < 0 || (size_t)r != nlmsg_len(m)) { fido_log_debug("%s: %zd != %zu", __func__, r, nlmsg_len(m)); return (-1); } fido_log_xxd(nlmsg_ptr(m), nlmsg_len(m), "%s", __func__); return (0); } static ssize_t nlmsg_rx(int fd, unsigned char *ptr, size_t len, int ms) { ssize_t r; if (len > SSIZE_MAX) { fido_log_debug("%s: len", __func__); return (-1); } if (fido_hid_unix_wait(fd, ms, NULL) < 0) { fido_log_debug("%s: fido_hid_unix_wait", __func__); return (-1); } if ((r = READ(fd, ptr, len)) == -1) { fido_log_error(errno, "%s: read %zd", __func__, r); return (-1); } fido_log_xxd(ptr, (size_t)r, "%s", __func__); return (r); } static int nlmsg_iter(nlmsgbuf_t *m, void *arg, int (*parser)(nlamsgbuf_t *, void *)) { nlamsgbuf_t *a; int r; while ((a = nlmsg_getattr(m)) != NULL) { r = parser(a, arg); free(a); if (r < 0) { fido_log_debug("%s: parser", __func__); return (-1); } } return (0); } static int nla_iter(nlamsgbuf_t *g, void *arg, int (*parser)(nlamsgbuf_t *, void *)) { nlamsgbuf_t *a; int r; while ((a = nla_getattr(g)) != NULL) { r = parser(a, arg); free(a); if (r < 0) { fido_log_debug("%s: parser", __func__); return (-1); } } return (0); } static int nl_parse_reply(const uint8_t *blob, size_t blob_len, uint16_t msg_type, uint8_t genl_cmd, void *arg, int (*parser)(nlamsgbuf_t *, void *)) { nlmsgbuf_t *m; int r; while (blob_len) { if ((m = nlmsg_from_buf(&blob, &blob_len)) == NULL) { fido_log_debug("%s: nlmsg", __func__); return (-1); } if (nlmsg_type(m) == NLMSG_ERROR) { r = nlmsg_get_status(m); free(m); return (r); } if (nlmsg_type(m) != msg_type || nlmsg_get_genl(m, genl_cmd) < 0) { fido_log_debug("%s: skipping", __func__); free(m); continue; } if (parser != NULL && nlmsg_iter(m, arg, parser) < 0) { fido_log_debug("%s: nlmsg_iter", __func__); free(m); return (-1); } free(m); } return (0); } static int parse_mcastgrp(nlamsgbuf_t *a, void *arg) { nl_family_t *family = arg; char *name; switch (nla_type(a)) { case CTRL_ATTR_MCAST_GRP_NAME: if ((name = nla_get_str(a)) == NULL || strcmp(name, NFC_GENL_MCAST_EVENT_NAME) != 0) { free(name); return (-1); /* XXX skip? */ } free(name); return (0); case CTRL_ATTR_MCAST_GRP_ID: if (family->mcastgrp) break; if (nla_get_u32(a, &family->mcastgrp) < 0) { fido_log_debug("%s: group", __func__); return (-1); } return (0); } fido_log_debug("%s: ignoring nla 0x%x", __func__, nla_type(a)); return (0); } static int parse_mcastgrps(nlamsgbuf_t *a, void *arg) { return (nla_iter(a, arg, parse_mcastgrp)); } static int parse_family(nlamsgbuf_t *a, void *arg) { nl_family_t *family = arg; switch (nla_type(a)) { case CTRL_ATTR_FAMILY_ID: if (family->id) break; if (nla_get_u16(a, &family->id) < 0) { fido_log_debug("%s: id", __func__); return (-1); } return (0); case CTRL_ATTR_MCAST_GROUPS: return (nla_iter(a, family, parse_mcastgrps)); } fido_log_debug("%s: ignoring nla 0x%x", __func__, nla_type(a)); return (0); } static int nl_get_nfc_family(int fd, uint16_t *type, uint32_t *mcastgrp) { nlmsgbuf_t *m; uint8_t reply[512]; nl_family_t family; ssize_t r; int ok; if ((m = nlmsg_new(GENL_ID_CTRL, 0, 64)) == NULL || nlmsg_set_genl(m, CTRL_CMD_GETFAMILY) < 0 || nlmsg_set_u16(m, CTRL_ATTR_FAMILY_ID, GENL_ID_CTRL) < 0 || nlmsg_set_str(m, CTRL_ATTR_FAMILY_NAME, NFC_GENL_NAME) < 0 || nlmsg_tx(fd, m) < 0) { free(m); return (-1); } free(m); memset(&family, 0, sizeof(family)); if ((r = nlmsg_rx(fd, reply, sizeof(reply), -1)) < 0) { fido_log_debug("%s: nlmsg_rx", __func__); return (-1); } if ((ok = nl_parse_reply(reply, (size_t)r, GENL_ID_CTRL, CTRL_CMD_NEWFAMILY, &family, parse_family)) != 0) { fido_log_debug("%s: nl_parse_reply: %d", __func__, ok); return (-1); } if (family.id == 0 || family.mcastgrp == 0) { fido_log_debug("%s: missing attr", __func__); return (-1); } *type = family.id; *mcastgrp = family.mcastgrp; return (0); } static int parse_target(nlamsgbuf_t *a, void *arg) { nl_target_t *t = arg; if (t->found || nla_type(a) != NFC_ATTR_TARGET_INDEX) { fido_log_debug("%s: ignoring nla 0x%x", __func__, nla_type(a)); return (0); } if (nla_get_u32(a, t->value) < 0) { fido_log_debug("%s: target", __func__); return (-1); } t->found = 1; return (0); } int fido_nl_power_nfc(fido_nl_t *nl, uint32_t dev) { nlmsgbuf_t *m; uint8_t reply[512]; ssize_t r; int ok; if ((m = nlmsg_new(nl->nfc_type, NLM_F_ACK, 64)) == NULL || nlmsg_set_genl(m, NFC_CMD_DEV_UP) < 0 || nlmsg_set_u32(m, NFC_ATTR_DEVICE_INDEX, dev) < 0 || nlmsg_tx(nl->fd, m) < 0) { free(m); return (-1); } free(m); if ((r = nlmsg_rx(nl->fd, reply, sizeof(reply), -1)) < 0) { fido_log_debug("%s: nlmsg_rx", __func__); return (-1); } if ((ok = nl_parse_reply(reply, (size_t)r, nl->nfc_type, NFC_CMD_DEV_UP, NULL, NULL)) != 0 && ok != EALREADY) { fido_log_debug("%s: nl_parse_reply: %d", __func__, ok); return (-1); } return (0); } static int nl_nfc_poll(fido_nl_t *nl, uint32_t dev) { nlmsgbuf_t *m; uint8_t reply[512]; ssize_t r; int ok; if ((m = nlmsg_new(nl->nfc_type, NLM_F_ACK, 64)) == NULL || nlmsg_set_genl(m, NFC_CMD_START_POLL) < 0 || nlmsg_set_u32(m, NFC_ATTR_DEVICE_INDEX, dev) < 0 || nlmsg_set_u32(m, NFC_ATTR_PROTOCOLS, NFC_PROTO_ISO14443_MASK) < 0 || nlmsg_tx(nl->fd, m) < 0) { free(m); return (-1); } free(m); if ((r = nlmsg_rx(nl->fd, reply, sizeof(reply), -1)) < 0) { fido_log_debug("%s: nlmsg_rx", __func__); return (-1); } if ((ok = nl_parse_reply(reply, (size_t)r, nl->nfc_type, NFC_CMD_START_POLL, NULL, NULL)) != 0) { fido_log_debug("%s: nl_parse_reply: %d", __func__, ok); return (-1); } return (0); } static int nl_dump_nfc_target(fido_nl_t *nl, uint32_t dev, uint32_t *target, int ms) { nlmsgbuf_t *m; nl_target_t t; uint8_t reply[512]; ssize_t r; int ok; if ((m = nlmsg_new(nl->nfc_type, NLM_F_DUMP, 64)) == NULL || nlmsg_set_genl(m, NFC_CMD_GET_TARGET) < 0 || nlmsg_set_u32(m, NFC_ATTR_DEVICE_INDEX, dev) < 0 || nlmsg_tx(nl->fd, m) < 0) { free(m); return (-1); } free(m); if ((r = nlmsg_rx(nl->fd, reply, sizeof(reply), ms)) < 0) { fido_log_debug("%s: nlmsg_rx", __func__); return (-1); } memset(&t, 0, sizeof(t)); t.value = target; if ((ok = nl_parse_reply(reply, (size_t)r, nl->nfc_type, NFC_CMD_GET_TARGET, &t, parse_target)) != 0) { fido_log_debug("%s: nl_parse_reply: %d", __func__, ok); return (-1); } if (!t.found) { fido_log_debug("%s: target not found", __func__); return (-1); } return (0); } static int parse_nfc_event(nlamsgbuf_t *a, void *arg) { nl_poll_t *ctx = arg; uint32_t dev; if (nla_type(a) != NFC_ATTR_DEVICE_INDEX) { fido_log_debug("%s: ignoring nla 0x%x", __func__, nla_type(a)); return (0); } if (nla_get_u32(a, &dev) < 0) { fido_log_debug("%s: dev", __func__); return (-1); } if (dev == ctx->dev) ctx->eventcnt++; else fido_log_debug("%s: ignoring dev 0x%x", __func__, dev); return (0); } int fido_nl_get_nfc_target(fido_nl_t *nl, uint32_t dev, uint32_t *target) { uint8_t reply[512]; nl_poll_t ctx; ssize_t r; int ok; if (nl_nfc_poll(nl, dev) < 0) { fido_log_debug("%s: nl_nfc_poll", __func__); return (-1); } #ifndef FIDO_FUZZ if (setsockopt(nl->fd, SOL_NETLINK, NETLINK_ADD_MEMBERSHIP, &nl->nfc_mcastgrp, sizeof(nl->nfc_mcastgrp)) == -1) { fido_log_error(errno, "%s: setsockopt add", __func__); return (-1); } #endif r = nlmsg_rx(nl->fd, reply, sizeof(reply), NETLINK_POLL_MS); #ifndef FIDO_FUZZ if (setsockopt(nl->fd, SOL_NETLINK, NETLINK_DROP_MEMBERSHIP, &nl->nfc_mcastgrp, sizeof(nl->nfc_mcastgrp)) == -1) { fido_log_error(errno, "%s: setsockopt drop", __func__); return (-1); } #endif if (r < 0) { fido_log_debug("%s: nlmsg_rx", __func__); return (-1); } memset(&ctx, 0, sizeof(ctx)); ctx.dev = dev; if ((ok = nl_parse_reply(reply, (size_t)r, nl->nfc_type, NFC_EVENT_TARGETS_FOUND, &ctx, parse_nfc_event)) != 0) { fido_log_debug("%s: nl_parse_reply: %d", __func__, ok); return (-1); } if (ctx.eventcnt == 0) { fido_log_debug("%s: dev 0x%x not observed", __func__, dev); return (-1); } if (nl_dump_nfc_target(nl, dev, target, -1) < 0) { fido_log_debug("%s: nl_dump_nfc_target", __func__); return (-1); } return (0); } void fido_nl_free(fido_nl_t **nlp) { fido_nl_t *nl; if (nlp == NULL || (nl = *nlp) == NULL) return; if (nl->fd != -1 && close(nl->fd) == -1) fido_log_error(errno, "%s: close", __func__); free(nl); *nlp = NULL; } fido_nl_t * fido_nl_new(void) { fido_nl_t *nl; int ok = -1; if ((nl = calloc(1, sizeof(*nl))) == NULL) return (NULL); if ((nl->fd = socket(AF_NETLINK, SOCK_RAW | SOCK_CLOEXEC, NETLINK_GENERIC)) == -1) { fido_log_error(errno, "%s: socket", __func__); goto fail; } nl->saddr.nl_family = AF_NETLINK; if (bind(nl->fd, (struct sockaddr *)&nl->saddr, sizeof(nl->saddr)) == -1) { fido_log_error(errno, "%s: bind", __func__); goto fail; } if (nl_get_nfc_family(nl->fd, &nl->nfc_type, &nl->nfc_mcastgrp) < 0) { fido_log_debug("%s: nl_get_nfc_family", __func__); goto fail; } ok = 0; fail: if (ok < 0) fido_nl_free(&nl); return (nl); } #ifdef FIDO_FUZZ void set_netlink_io_functions(ssize_t (*read_f)(int, void *, size_t), ssize_t (*write_f)(int, const void *, size_t)) { fuzz_read = read_f; fuzz_write = write_f; } #endif