Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Jakub Kiciński | 4773 | 99.42% | 20 | 90.91% |
Jiri Pirko | 27 | 0.56% | 1 | 4.55% |
Colin Ian King | 1 | 0.02% | 1 | 4.55% |
Total | 4801 | 22 |
// SPDX-License-Identifier: GPL-2.0 OR BSD-3-Clause #include <errno.h> #include <poll.h> #include <string.h> #include <stdlib.h> #include <stdio.h> #include <unistd.h> #include <linux/types.h> #include <linux/genetlink.h> #include <sys/socket.h> #include "ynl.h" #define ARRAY_SIZE(arr) (sizeof(arr) / sizeof(*arr)) #define __yerr_msg(yse, _msg...) \ ({ \ struct ynl_error *_yse = (yse); \ \ if (_yse) { \ snprintf(_yse->msg, sizeof(_yse->msg) - 1, _msg); \ _yse->msg[sizeof(_yse->msg) - 1] = 0; \ } \ }) #define __yerr_code(yse, _code...) \ ({ \ struct ynl_error *_yse = (yse); \ \ if (_yse) { \ _yse->code = _code; \ } \ }) #define __yerr(yse, _code, _msg...) \ ({ \ __yerr_msg(yse, _msg); \ __yerr_code(yse, _code); \ }) #define __perr(yse, _msg) __yerr(yse, errno, _msg) #define yerr_msg(_ys, _msg...) __yerr_msg(&(_ys)->err, _msg) #define yerr(_ys, _code, _msg...) __yerr(&(_ys)->err, _code, _msg) #define perr(_ys, _msg) __yerr(&(_ys)->err, errno, _msg) /* -- Netlink boiler plate */ static int ynl_err_walk_report_one(const struct ynl_policy_nest *policy, unsigned int type, char *str, int str_sz, int *n) { if (!policy) { if (*n < str_sz) *n += snprintf(str, str_sz, "!policy"); return 1; } if (type > policy->max_attr) { if (*n < str_sz) *n += snprintf(str, str_sz, "!oob"); return 1; } if (!policy->table[type].name) { if (*n < str_sz) *n += snprintf(str, str_sz, "!name"); return 1; } if (*n < str_sz) *n += snprintf(str, str_sz - *n, ".%s", policy->table[type].name); return 0; } static int ynl_err_walk(struct ynl_sock *ys, void *start, void *end, unsigned int off, const struct ynl_policy_nest *policy, char *str, int str_sz, const struct ynl_policy_nest **nest_pol) { unsigned int astart_off, aend_off; const struct nlattr *attr; unsigned int data_len; unsigned int type; bool found = false; int n = 0; if (!policy) { if (n < str_sz) n += snprintf(str, str_sz, "!policy"); return n; } data_len = end - start; ynl_attr_for_each_payload(start, data_len, attr) { astart_off = (char *)attr - (char *)start; aend_off = astart_off + ynl_attr_data_len(attr); if (aend_off <= off) continue; found = true; break; } if (!found) return 0; off -= astart_off; type = ynl_attr_type(attr); if (ynl_err_walk_report_one(policy, type, str, str_sz, &n)) return n; if (!off) { if (nest_pol) *nest_pol = policy->table[type].nest; return n; } if (!policy->table[type].nest) { if (n < str_sz) n += snprintf(str, str_sz, "!nest"); return n; } off -= sizeof(struct nlattr); start = ynl_attr_data(attr); end = start + ynl_attr_data_len(attr); return n + ynl_err_walk(ys, start, end, off, policy->table[type].nest, &str[n], str_sz - n, nest_pol); } #define NLMSGERR_ATTR_MISS_TYPE (NLMSGERR_ATTR_POLICY + 1) #define NLMSGERR_ATTR_MISS_NEST (NLMSGERR_ATTR_POLICY + 2) #define NLMSGERR_ATTR_MAX (NLMSGERR_ATTR_MAX + 2) static int ynl_ext_ack_check(struct ynl_sock *ys, const struct nlmsghdr *nlh, unsigned int hlen) { const struct nlattr *tb[NLMSGERR_ATTR_MAX + 1] = {}; char miss_attr[sizeof(ys->err.msg)]; char bad_attr[sizeof(ys->err.msg)]; const struct nlattr *attr; const char *str = NULL; if (!(nlh->nlmsg_flags & NLM_F_ACK_TLVS)) { yerr_msg(ys, "%s", strerror(ys->err.code)); return YNL_PARSE_CB_OK; } ynl_attr_for_each(attr, nlh, hlen) { unsigned int len, type; len = ynl_attr_data_len(attr); type = ynl_attr_type(attr); if (type > NLMSGERR_ATTR_MAX) continue; tb[type] = attr; switch (type) { case NLMSGERR_ATTR_OFFS: case NLMSGERR_ATTR_MISS_TYPE: case NLMSGERR_ATTR_MISS_NEST: if (len != sizeof(__u32)) return YNL_PARSE_CB_ERROR; break; case NLMSGERR_ATTR_MSG: str = ynl_attr_get_str(attr); if (str[len - 1]) return YNL_PARSE_CB_ERROR; break; default: break; } } bad_attr[0] = '\0'; miss_attr[0] = '\0'; if (tb[NLMSGERR_ATTR_OFFS]) { unsigned int n, off; void *start, *end; ys->err.attr_offs = ynl_attr_get_u32(tb[NLMSGERR_ATTR_OFFS]); n = snprintf(bad_attr, sizeof(bad_attr), "%sbad attribute: ", str ? " (" : ""); start = ynl_nlmsg_data_offset(ys->nlh, ys->family->hdr_len); end = ynl_nlmsg_end_addr(ys->nlh); off = ys->err.attr_offs; off -= sizeof(struct nlmsghdr); off -= ys->family->hdr_len; n += ynl_err_walk(ys, start, end, off, ys->req_policy, &bad_attr[n], sizeof(bad_attr) - n, NULL); if (n >= sizeof(bad_attr)) n = sizeof(bad_attr) - 1; bad_attr[n] = '\0'; } if (tb[NLMSGERR_ATTR_MISS_TYPE]) { const struct ynl_policy_nest *nest_pol = NULL; unsigned int n, off, type; void *start, *end; int n2; type = ynl_attr_get_u32(tb[NLMSGERR_ATTR_MISS_TYPE]); n = snprintf(miss_attr, sizeof(miss_attr), "%smissing attribute: ", bad_attr[0] ? ", " : (str ? " (" : "")); start = ynl_nlmsg_data_offset(ys->nlh, ys->family->hdr_len); end = ynl_nlmsg_end_addr(ys->nlh); nest_pol = ys->req_policy; if (tb[NLMSGERR_ATTR_MISS_NEST]) { off = ynl_attr_get_u32(tb[NLMSGERR_ATTR_MISS_NEST]); off -= sizeof(struct nlmsghdr); off -= ys->family->hdr_len; n += ynl_err_walk(ys, start, end, off, ys->req_policy, &miss_attr[n], sizeof(miss_attr) - n, &nest_pol); } n2 = 0; ynl_err_walk_report_one(nest_pol, type, &miss_attr[n], sizeof(miss_attr) - n, &n2); n += n2; if (n >= sizeof(miss_attr)) n = sizeof(miss_attr) - 1; miss_attr[n] = '\0'; } /* Implicitly depend on ys->err.code already set */ if (str) yerr_msg(ys, "Kernel %s: '%s'%s%s%s", ys->err.code ? "error" : "warning", str, bad_attr, miss_attr, bad_attr[0] || miss_attr[0] ? ")" : ""); else if (bad_attr[0] || miss_attr[0]) yerr_msg(ys, "Kernel %s: %s%s", ys->err.code ? "error" : "warning", bad_attr, miss_attr); else yerr_msg(ys, "%s", strerror(ys->err.code)); return YNL_PARSE_CB_OK; } static int ynl_cb_error(const struct nlmsghdr *nlh, struct ynl_parse_arg *yarg) { const struct nlmsgerr *err = ynl_nlmsg_data(nlh); unsigned int hlen; int code; code = err->error >= 0 ? err->error : -err->error; yarg->ys->err.code = code; errno = code; hlen = sizeof(*err); if (!(nlh->nlmsg_flags & NLM_F_CAPPED)) hlen += ynl_nlmsg_data_len(&err->msg); ynl_ext_ack_check(yarg->ys, nlh, hlen); return code ? YNL_PARSE_CB_ERROR : YNL_PARSE_CB_STOP; } static int ynl_cb_done(const struct nlmsghdr *nlh, struct ynl_parse_arg *yarg) { int err; err = *(int *)NLMSG_DATA(nlh); if (err < 0) { yarg->ys->err.code = -err; errno = -err; ynl_ext_ack_check(yarg->ys, nlh, sizeof(int)); return YNL_PARSE_CB_ERROR; } return YNL_PARSE_CB_STOP; } /* Attribute validation */ int ynl_attr_validate(struct ynl_parse_arg *yarg, const struct nlattr *attr) { const struct ynl_policy_attr *policy; unsigned int type, len; unsigned char *data; data = ynl_attr_data(attr); len = ynl_attr_data_len(attr); type = ynl_attr_type(attr); if (type > yarg->rsp_policy->max_attr) { yerr(yarg->ys, YNL_ERROR_INTERNAL, "Internal error, validating unknown attribute"); return -1; } policy = &yarg->rsp_policy->table[type]; switch (policy->type) { case YNL_PT_REJECT: yerr(yarg->ys, YNL_ERROR_ATTR_INVALID, "Rejected attribute (%s)", policy->name); return -1; case YNL_PT_IGNORE: break; case YNL_PT_U8: if (len == sizeof(__u8)) break; yerr(yarg->ys, YNL_ERROR_ATTR_INVALID, "Invalid attribute (u8 %s)", policy->name); return -1; case YNL_PT_U16: if (len == sizeof(__u16)) break; yerr(yarg->ys, YNL_ERROR_ATTR_INVALID, "Invalid attribute (u16 %s)", policy->name); return -1; case YNL_PT_U32: if (len == sizeof(__u32)) break; yerr(yarg->ys, YNL_ERROR_ATTR_INVALID, "Invalid attribute (u32 %s)", policy->name); return -1; case YNL_PT_U64: if (len == sizeof(__u64)) break; yerr(yarg->ys, YNL_ERROR_ATTR_INVALID, "Invalid attribute (u64 %s)", policy->name); return -1; case YNL_PT_UINT: if (len == sizeof(__u32) || len == sizeof(__u64)) break; yerr(yarg->ys, YNL_ERROR_ATTR_INVALID, "Invalid attribute (uint %s)", policy->name); return -1; case YNL_PT_FLAG: /* Let flags grow into real attrs, why not.. */ break; case YNL_PT_NEST: if (!len || len >= sizeof(*attr)) break; yerr(yarg->ys, YNL_ERROR_ATTR_INVALID, "Invalid attribute (nest %s)", policy->name); return -1; case YNL_PT_BINARY: if (!policy->len || len == policy->len) break; yerr(yarg->ys, YNL_ERROR_ATTR_INVALID, "Invalid attribute (binary %s)", policy->name); return -1; case YNL_PT_NUL_STR: if ((!policy->len || len <= policy->len) && !data[len - 1]) break; yerr(yarg->ys, YNL_ERROR_ATTR_INVALID, "Invalid attribute (string %s)", policy->name); return -1; case YNL_PT_BITFIELD32: if (len == sizeof(struct nla_bitfield32)) break; yerr(yarg->ys, YNL_ERROR_ATTR_INVALID, "Invalid attribute (bitfield32 %s)", policy->name); return -1; default: yerr(yarg->ys, YNL_ERROR_ATTR_INVALID, "Invalid attribute (unknown %s)", policy->name); return -1; } return 0; } /* Generic code */ static void ynl_err_reset(struct ynl_sock *ys) { ys->err.code = 0; ys->err.attr_offs = 0; ys->err.msg[0] = 0; } struct nlmsghdr *ynl_msg_start(struct ynl_sock *ys, __u32 id, __u16 flags) { struct nlmsghdr *nlh; ynl_err_reset(ys); nlh = ys->nlh = ynl_nlmsg_put_header(ys->tx_buf); nlh->nlmsg_type = id; nlh->nlmsg_flags = flags; nlh->nlmsg_seq = ++ys->seq; /* This is a local YNL hack for length checking, we put the buffer * length in nlmsg_pid, since messages sent to the kernel always use * PID 0. Message needs to be terminated with ynl_msg_end(). */ nlh->nlmsg_pid = YNL_SOCKET_BUFFER_SIZE; return nlh; } static int ynl_msg_end(struct ynl_sock *ys, struct nlmsghdr *nlh) { /* We stash buffer length in nlmsg_pid. */ if (nlh->nlmsg_pid == 0) { yerr(ys, YNL_ERROR_INPUT_INVALID, "Unknown input buffer length"); return -EINVAL; } if (nlh->nlmsg_pid == YNL_MSG_OVERFLOW) { yerr(ys, YNL_ERROR_INPUT_TOO_BIG, "Constructed message longer than internal buffer"); return -EMSGSIZE; } nlh->nlmsg_pid = 0; return 0; } struct nlmsghdr * ynl_gemsg_start(struct ynl_sock *ys, __u32 id, __u16 flags, __u8 cmd, __u8 version) { struct genlmsghdr gehdr; struct nlmsghdr *nlh; void *data; nlh = ynl_msg_start(ys, id, flags); memset(&gehdr, 0, sizeof(gehdr)); gehdr.cmd = cmd; gehdr.version = version; data = ynl_nlmsg_put_extra_header(nlh, sizeof(gehdr)); memcpy(data, &gehdr, sizeof(gehdr)); return nlh; } void ynl_msg_start_req(struct ynl_sock *ys, __u32 id) { ynl_msg_start(ys, id, NLM_F_REQUEST | NLM_F_ACK); } void ynl_msg_start_dump(struct ynl_sock *ys, __u32 id) { ynl_msg_start(ys, id, NLM_F_REQUEST | NLM_F_ACK | NLM_F_DUMP); } struct nlmsghdr * ynl_gemsg_start_req(struct ynl_sock *ys, __u32 id, __u8 cmd, __u8 version) { return ynl_gemsg_start(ys, id, NLM_F_REQUEST | NLM_F_ACK, cmd, version); } struct nlmsghdr * ynl_gemsg_start_dump(struct ynl_sock *ys, __u32 id, __u8 cmd, __u8 version) { return ynl_gemsg_start(ys, id, NLM_F_REQUEST | NLM_F_ACK | NLM_F_DUMP, cmd, version); } static int ynl_cb_null(const struct nlmsghdr *nlh, struct ynl_parse_arg *yarg) { yerr(yarg->ys, YNL_ERROR_UNEXPECT_MSG, "Received a message when none were expected"); return YNL_PARSE_CB_ERROR; } static int __ynl_sock_read_msgs(struct ynl_parse_arg *yarg, ynl_parse_cb_t cb, int flags) { struct ynl_sock *ys = yarg->ys; const struct nlmsghdr *nlh; ssize_t len, rem; int ret; len = recv(ys->socket, ys->rx_buf, YNL_SOCKET_BUFFER_SIZE, flags); if (len < 0) { if (flags & MSG_DONTWAIT && errno == EAGAIN) return YNL_PARSE_CB_STOP; return len; } ret = YNL_PARSE_CB_STOP; for (rem = len; rem > 0; NLMSG_NEXT(nlh, rem)) { nlh = (struct nlmsghdr *)&ys->rx_buf[len - rem]; if (!NLMSG_OK(nlh, rem)) { yerr(yarg->ys, YNL_ERROR_INV_RESP, "Invalid message or trailing data in the response."); return YNL_PARSE_CB_ERROR; } if (nlh->nlmsg_flags & NLM_F_DUMP_INTR) { /* TODO: handle this better */ yerr(yarg->ys, YNL_ERROR_DUMP_INTER, "Dump interrupted / inconsistent, please retry."); return YNL_PARSE_CB_ERROR; } switch (nlh->nlmsg_type) { case 0: yerr(yarg->ys, YNL_ERROR_INV_RESP, "Invalid message type in the response."); return YNL_PARSE_CB_ERROR; case NLMSG_NOOP: case NLMSG_OVERRUN ... NLMSG_MIN_TYPE - 1: ret = YNL_PARSE_CB_OK; break; case NLMSG_ERROR: ret = ynl_cb_error(nlh, yarg); break; case NLMSG_DONE: ret = ynl_cb_done(nlh, yarg); break; default: ret = cb(nlh, yarg); break; } } return ret; } static int ynl_sock_read_msgs(struct ynl_parse_arg *yarg, ynl_parse_cb_t cb) { return __ynl_sock_read_msgs(yarg, cb, 0); } static int ynl_recv_ack(struct ynl_sock *ys, int ret) { struct ynl_parse_arg yarg = { .ys = ys, }; if (!ret) { yerr(ys, YNL_ERROR_EXPECT_ACK, "Expecting an ACK but nothing received"); return -1; } return ynl_sock_read_msgs(&yarg, ynl_cb_null); } /* Init/fini and genetlink boiler plate */ static int ynl_get_family_info_mcast(struct ynl_sock *ys, const struct nlattr *mcasts) { const struct nlattr *entry, *attr; unsigned int i; ynl_attr_for_each_nested(attr, mcasts) ys->n_mcast_groups++; if (!ys->n_mcast_groups) return 0; ys->mcast_groups = calloc(ys->n_mcast_groups, sizeof(*ys->mcast_groups)); if (!ys->mcast_groups) return YNL_PARSE_CB_ERROR; i = 0; ynl_attr_for_each_nested(entry, mcasts) { ynl_attr_for_each_nested(attr, entry) { if (ynl_attr_type(attr) == CTRL_ATTR_MCAST_GRP_ID) ys->mcast_groups[i].id = ynl_attr_get_u32(attr); if (ynl_attr_type(attr) == CTRL_ATTR_MCAST_GRP_NAME) { strncpy(ys->mcast_groups[i].name, ynl_attr_get_str(attr), GENL_NAMSIZ - 1); ys->mcast_groups[i].name[GENL_NAMSIZ - 1] = 0; } } i++; } return 0; } static int ynl_get_family_info_cb(const struct nlmsghdr *nlh, struct ynl_parse_arg *yarg) { struct ynl_sock *ys = yarg->ys; const struct nlattr *attr; bool found_id = true; ynl_attr_for_each(attr, nlh, sizeof(struct genlmsghdr)) { if (ynl_attr_type(attr) == CTRL_ATTR_MCAST_GROUPS) if (ynl_get_family_info_mcast(ys, attr)) return YNL_PARSE_CB_ERROR; if (ynl_attr_type(attr) != CTRL_ATTR_FAMILY_ID) continue; if (ynl_attr_data_len(attr) != sizeof(__u16)) { yerr(ys, YNL_ERROR_ATTR_INVALID, "Invalid family ID"); return YNL_PARSE_CB_ERROR; } ys->family_id = ynl_attr_get_u16(attr); found_id = true; } if (!found_id) { yerr(ys, YNL_ERROR_ATTR_MISSING, "Family ID missing"); return YNL_PARSE_CB_ERROR; } return YNL_PARSE_CB_OK; } static int ynl_sock_read_family(struct ynl_sock *ys, const char *family_name) { struct ynl_parse_arg yarg = { .ys = ys, }; struct nlmsghdr *nlh; int err; nlh = ynl_gemsg_start_req(ys, GENL_ID_CTRL, CTRL_CMD_GETFAMILY, 1); ynl_attr_put_str(nlh, CTRL_ATTR_FAMILY_NAME, family_name); err = ynl_msg_end(ys, nlh); if (err < 0) return err; err = send(ys->socket, nlh, nlh->nlmsg_len, 0); if (err < 0) { perr(ys, "failed to request socket family info"); return err; } err = ynl_sock_read_msgs(&yarg, ynl_get_family_info_cb); if (err < 0) { free(ys->mcast_groups); perr(ys, "failed to receive the socket family info - no such family?"); return err; } err = ynl_recv_ack(ys, err); if (err < 0) { free(ys->mcast_groups); return err; } return 0; } struct ynl_sock * ynl_sock_create(const struct ynl_family *yf, struct ynl_error *yse) { struct sockaddr_nl addr; struct ynl_sock *ys; socklen_t addrlen; int one = 1; ys = malloc(sizeof(*ys) + 2 * YNL_SOCKET_BUFFER_SIZE); if (!ys) return NULL; memset(ys, 0, sizeof(*ys)); ys->family = yf; ys->tx_buf = &ys->raw_buf[0]; ys->rx_buf = &ys->raw_buf[YNL_SOCKET_BUFFER_SIZE]; ys->ntf_last_next = &ys->ntf_first; ys->socket = socket(AF_NETLINK, SOCK_RAW, NETLINK_GENERIC); if (ys->socket < 0) { __perr(yse, "failed to create a netlink socket"); goto err_free_sock; } if (setsockopt(ys->socket, SOL_NETLINK, NETLINK_CAP_ACK, &one, sizeof(one))) { __perr(yse, "failed to enable netlink ACK"); goto err_close_sock; } if (setsockopt(ys->socket, SOL_NETLINK, NETLINK_EXT_ACK, &one, sizeof(one))) { __perr(yse, "failed to enable netlink ext ACK"); goto err_close_sock; } memset(&addr, 0, sizeof(addr)); addr.nl_family = AF_NETLINK; if (bind(ys->socket, (struct sockaddr *)&addr, sizeof(addr)) < 0) { __perr(yse, "unable to bind to a socket address"); goto err_close_sock;; } memset(&addr, 0, sizeof(addr)); addrlen = sizeof(addr); if (getsockname(ys->socket, (struct sockaddr *)&addr, &addrlen) < 0) { __perr(yse, "unable to read socket address"); goto err_close_sock;; } ys->portid = addr.nl_pid; ys->seq = random(); if (ynl_sock_read_family(ys, yf->name)) { if (yse) memcpy(yse, &ys->err, sizeof(*yse)); goto err_close_sock; } return ys; err_close_sock: close(ys->socket); err_free_sock: free(ys); return NULL; } void ynl_sock_destroy(struct ynl_sock *ys) { struct ynl_ntf_base_type *ntf; close(ys->socket); while ((ntf = ynl_ntf_dequeue(ys))) ynl_ntf_free(ntf); free(ys->mcast_groups); free(ys); } /* YNL multicast handling */ void ynl_ntf_free(struct ynl_ntf_base_type *ntf) { ntf->free(ntf); } int ynl_subscribe(struct ynl_sock *ys, const char *grp_name) { unsigned int i; int err; for (i = 0; i < ys->n_mcast_groups; i++) if (!strcmp(ys->mcast_groups[i].name, grp_name)) break; if (i == ys->n_mcast_groups) { yerr(ys, ENOENT, "Multicast group '%s' not found", grp_name); return -1; } err = setsockopt(ys->socket, SOL_NETLINK, NETLINK_ADD_MEMBERSHIP, &ys->mcast_groups[i].id, sizeof(ys->mcast_groups[i].id)); if (err < 0) { perr(ys, "Subscribing to multicast group failed"); return -1; } return 0; } int ynl_socket_get_fd(struct ynl_sock *ys) { return ys->socket; } struct ynl_ntf_base_type *ynl_ntf_dequeue(struct ynl_sock *ys) { struct ynl_ntf_base_type *ntf; if (!ynl_has_ntf(ys)) return NULL; ntf = ys->ntf_first; ys->ntf_first = ntf->next; if (ys->ntf_last_next == &ntf->next) ys->ntf_last_next = &ys->ntf_first; return ntf; } static int ynl_ntf_parse(struct ynl_sock *ys, const struct nlmsghdr *nlh) { struct ynl_parse_arg yarg = { .ys = ys, }; const struct ynl_ntf_info *info; struct ynl_ntf_base_type *rsp; struct genlmsghdr *gehdr; int ret; gehdr = ynl_nlmsg_data(nlh); if (gehdr->cmd >= ys->family->ntf_info_size) return YNL_PARSE_CB_ERROR; info = &ys->family->ntf_info[gehdr->cmd]; if (!info->cb) return YNL_PARSE_CB_ERROR; rsp = calloc(1, info->alloc_sz); rsp->free = info->free; yarg.data = rsp->data; yarg.rsp_policy = info->policy; ret = info->cb(nlh, &yarg); if (ret <= YNL_PARSE_CB_STOP) goto err_free; rsp->family = nlh->nlmsg_type; rsp->cmd = gehdr->cmd; *ys->ntf_last_next = rsp; ys->ntf_last_next = &rsp->next; return YNL_PARSE_CB_OK; err_free: info->free(rsp); return YNL_PARSE_CB_ERROR; } static int ynl_ntf_trampoline(const struct nlmsghdr *nlh, struct ynl_parse_arg *yarg) { return ynl_ntf_parse(yarg->ys, nlh); } int ynl_ntf_check(struct ynl_sock *ys) { struct ynl_parse_arg yarg = { .ys = ys, }; int err; do { err = __ynl_sock_read_msgs(&yarg, ynl_ntf_trampoline, MSG_DONTWAIT); if (err < 0) return err; } while (err > 0); return 0; } /* YNL specific helpers used by the auto-generated code */ struct ynl_dump_list_type *YNL_LIST_END = (void *)(0xb4d123); void ynl_error_unknown_notification(struct ynl_sock *ys, __u8 cmd) { yerr(ys, YNL_ERROR_UNKNOWN_NTF, "Unknown notification message type '%d'", cmd); } int ynl_error_parse(struct ynl_parse_arg *yarg, const char *msg) { yerr(yarg->ys, YNL_ERROR_INV_RESP, "Error parsing response: %s", msg); return YNL_PARSE_CB_ERROR; } static int ynl_check_alien(struct ynl_sock *ys, const struct nlmsghdr *nlh, __u32 rsp_cmd) { struct genlmsghdr *gehdr; if (ynl_nlmsg_data_len(nlh) < sizeof(*gehdr)) { yerr(ys, YNL_ERROR_INV_RESP, "Kernel responded with truncated message"); return -1; } gehdr = ynl_nlmsg_data(nlh); if (gehdr->cmd != rsp_cmd) return ynl_ntf_parse(ys, nlh); return 0; } static int ynl_req_trampoline(const struct nlmsghdr *nlh, struct ynl_parse_arg *yarg) { struct ynl_req_state *yrs = (void *)yarg; int ret; ret = ynl_check_alien(yrs->yarg.ys, nlh, yrs->rsp_cmd); if (ret) return ret < 0 ? YNL_PARSE_CB_ERROR : YNL_PARSE_CB_OK; return yrs->cb(nlh, &yrs->yarg); } int ynl_exec(struct ynl_sock *ys, struct nlmsghdr *req_nlh, struct ynl_req_state *yrs) { int err; err = ynl_msg_end(ys, req_nlh); if (err < 0) return err; err = send(ys->socket, req_nlh, req_nlh->nlmsg_len, 0); if (err < 0) return err; do { err = ynl_sock_read_msgs(&yrs->yarg, ynl_req_trampoline); } while (err > 0); return err; } static int ynl_dump_trampoline(const struct nlmsghdr *nlh, struct ynl_parse_arg *data) { struct ynl_dump_state *ds = (void *)data; struct ynl_dump_list_type *obj; struct ynl_parse_arg yarg = {}; int ret; ret = ynl_check_alien(ds->yarg.ys, nlh, ds->rsp_cmd); if (ret) return ret < 0 ? YNL_PARSE_CB_ERROR : YNL_PARSE_CB_OK; obj = calloc(1, ds->alloc_sz); if (!obj) return YNL_PARSE_CB_ERROR; if (!ds->first) ds->first = obj; if (ds->last) ds->last->next = obj; ds->last = obj; yarg = ds->yarg; yarg.data = &obj->data; return ds->cb(nlh, &yarg); } static void *ynl_dump_end(struct ynl_dump_state *ds) { if (!ds->first) return YNL_LIST_END; ds->last->next = YNL_LIST_END; return ds->first; } int ynl_exec_dump(struct ynl_sock *ys, struct nlmsghdr *req_nlh, struct ynl_dump_state *yds) { int err; err = ynl_msg_end(ys, req_nlh); if (err < 0) return err; err = send(ys->socket, req_nlh, req_nlh->nlmsg_len, 0); if (err < 0) return err; do { err = ynl_sock_read_msgs(&yds->yarg, ynl_dump_trampoline); if (err < 0) goto err_close_list; } while (err > 0); yds->first = ynl_dump_end(yds); return 0; err_close_list: yds->first = ynl_dump_end(yds); return -1; }
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