#include "../mctp-defines.h" #include "base.h" #include "container-of.h" #include "libpldm/pldm.h" #include "libpldm/transport.h" #include "transport.h" #include #include #include #include #include #include #include #include #define MCTP_DEMUX_NAME "libmctp-demux-daemon" const uint8_t mctp_msg_type = MCTP_MSG_TYPE_PLDM; struct pldm_transport_mctp_demux { struct pldm_transport transport; int socket; /* In the future this probably needs to move to a tid-eid-uuid/network * id mapping for multi mctp networks */ pldm_tid_t tid_eid_map[MCTP_MAX_NUM_EID]; }; #define transport_to_demux(ptr) \ container_of(ptr, struct pldm_transport_mctp_demux, transport) struct pldm_transport * pldm_transport_mctp_demux_core(struct pldm_transport_mctp_demux *ctx) { return &ctx->transport; } static pldm_requester_rc_t pldm_transport_mctp_demux_open(void) { int fd = -1; ssize_t rc = -1; fd = socket(AF_UNIX, SOCK_SEQPACKET, 0); if (fd == -1) { return fd; } const char path[] = "\0mctp-mux"; struct sockaddr_un addr; addr.sun_family = AF_UNIX; memcpy(addr.sun_path, path, sizeof(path) - 1); rc = connect(fd, (struct sockaddr *)&addr, sizeof(path) + sizeof(addr.sun_family) - 1); if (rc == -1) { return PLDM_REQUESTER_OPEN_FAIL; } rc = write(fd, &mctp_msg_type, sizeof(mctp_msg_type)); if (rc == -1) { return PLDM_REQUESTER_OPEN_FAIL; } return fd; } int pldm_transport_mctp_demux_init_pollfd(struct pldm_transport *t, struct pollfd *pollfd) { struct pldm_transport_mctp_demux *ctx = transport_to_demux(t); pollfd->fd = ctx->socket; pollfd->events = POLLIN; return 0; } static int pldm_transport_mctp_demux_get_eid(struct pldm_transport_mctp_demux *ctx, pldm_tid_t tid, mctp_eid_t *eid) { int i; for (i = 0; i < MCTP_MAX_NUM_EID; i++) { if (ctx->tid_eid_map[i] == tid) { *eid = i; return 0; } } *eid = -1; return -1; } int pldm_transport_mctp_demux_map_tid(struct pldm_transport_mctp_demux *ctx, pldm_tid_t tid, mctp_eid_t eid) { ctx->tid_eid_map[eid] = tid; return 0; } int pldm_transport_mctp_demux_unmap_tid(struct pldm_transport_mctp_demux *ctx, __attribute__((unused)) pldm_tid_t tid, mctp_eid_t eid) { ctx->tid_eid_map[eid] = 0; return 0; } static pldm_requester_rc_t pldm_transport_mctp_demux_recv(struct pldm_transport *t, pldm_tid_t tid, void **pldm_resp_msg, size_t *resp_msg_len) { struct pldm_transport_mctp_demux *demux = transport_to_demux(t); mctp_eid_t eid = 0; int rc = pldm_transport_mctp_demux_get_eid(demux, tid, &eid); if (rc) { return PLDM_REQUESTER_RECV_FAIL; } ssize_t min_len = sizeof(eid) + sizeof(mctp_msg_type) + sizeof(struct pldm_msg_hdr); ssize_t length = recv(demux->socket, NULL, 0, MSG_PEEK | MSG_TRUNC); if (length <= 0) { return PLDM_REQUESTER_RECV_FAIL; } uint8_t *buf = malloc(length); if (buf == NULL) { return PLDM_REQUESTER_RECV_FAIL; } if (length < min_len) { /* read and discard */ recv(demux->socket, buf, length, 0); free(buf); return PLDM_REQUESTER_INVALID_RECV_LEN; } struct iovec iov[2]; uint8_t mctp_prefix[2]; size_t mctp_prefix_len = 2; size_t pldm_len = length - mctp_prefix_len; iov[0].iov_len = mctp_prefix_len; iov[0].iov_base = mctp_prefix; *pldm_resp_msg = buf; if (*pldm_resp_msg == NULL) { return PLDM_REQUESTER_RECV_FAIL; } iov[1].iov_len = pldm_len; iov[1].iov_base = *pldm_resp_msg; struct msghdr msg = { 0 }; msg.msg_iov = iov; msg.msg_iovlen = sizeof(iov) / sizeof(iov[0]); ssize_t bytes = recvmsg(demux->socket, &msg, 0); if (length != bytes) { free(*pldm_resp_msg); *pldm_resp_msg = NULL; return PLDM_REQUESTER_INVALID_RECV_LEN; } if ((mctp_prefix[0] != eid) || (mctp_prefix[1] != mctp_msg_type)) { free(*pldm_resp_msg); *pldm_resp_msg = NULL; return PLDM_REQUESTER_NOT_PLDM_MSG; } *resp_msg_len = pldm_len; return PLDM_REQUESTER_SUCCESS; } static pldm_requester_rc_t pldm_transport_mctp_demux_send(struct pldm_transport *t, pldm_tid_t tid, const void *pldm_req_msg, size_t req_msg_len) { struct pldm_transport_mctp_demux *demux = transport_to_demux(t); mctp_eid_t eid = 0; if (pldm_transport_mctp_demux_get_eid(demux, tid, &eid)) { return PLDM_REQUESTER_SEND_FAIL; } uint8_t hdr[2] = { eid, mctp_msg_type }; struct iovec iov[2]; iov[0].iov_base = hdr; iov[0].iov_len = sizeof(hdr); iov[1].iov_base = (uint8_t *)pldm_req_msg; iov[1].iov_len = req_msg_len; struct msghdr msg = { 0 }; msg.msg_iov = iov; msg.msg_iovlen = sizeof(iov) / sizeof(iov[0]); ssize_t rc = sendmsg(demux->socket, &msg, 0); if (rc == -1) { return PLDM_REQUESTER_SEND_FAIL; } return PLDM_REQUESTER_SUCCESS; } int pldm_transport_mctp_demux_init(struct pldm_transport_mctp_demux **ctx) { if (!ctx || *ctx) { return -EINVAL; } struct pldm_transport_mctp_demux *demux = calloc(1, sizeof(struct pldm_transport_mctp_demux)); if (!demux) { return -ENOMEM; } demux->transport.name = MCTP_DEMUX_NAME; demux->transport.version = 1; demux->transport.recv = pldm_transport_mctp_demux_recv; demux->transport.send = pldm_transport_mctp_demux_send; demux->transport.init_pollfd = pldm_transport_mctp_demux_init_pollfd; demux->socket = pldm_transport_mctp_demux_open(); if (demux->socket == -1) { free(demux); return -1; } *ctx = demux; return 0; } void pldm_transport_mctp_demux_destroy(struct pldm_transport_mctp_demux *ctx) { if (!ctx) { return; } close(ctx->socket); free(ctx); } /* Temporary for old API */ struct pldm_transport_mctp_demux * pldm_transport_mctp_demux_init_with_fd(int mctp_fd) { struct pldm_transport_mctp_demux *demux = calloc(1, sizeof(struct pldm_transport_mctp_demux)); if (!demux) { return NULL; } demux->transport.name = MCTP_DEMUX_NAME; demux->transport.version = 1; demux->transport.recv = pldm_transport_mctp_demux_recv; demux->transport.send = pldm_transport_mctp_demux_send; demux->transport.init_pollfd = pldm_transport_mctp_demux_init_pollfd; /* dup is so we can call pldm_transport_mctp_demux_destroy which closes * the socket, without closing the fd that is being used by the consumer */ demux->socket = dup(mctp_fd); if (demux->socket == -1) { free(demux); return NULL; } return demux; } int pldm_transport_mctp_demux_get_socket_fd( struct pldm_transport_mctp_demux *ctx) { if (ctx && ctx->socket) { return ctx->socket; } return -1; }