/* Copyright (c) 2014-2016, The Linux Foundation. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 and * only version 2 as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. */ /* * IPC ROUTER GLINK XPRT module. */ #define DEBUG #include #include #include #include #include #include #include #include #include //#include static int ipc_router_glink_xprt_debug_mask; module_param_named(debug_mask, ipc_router_glink_xprt_debug_mask, int, S_IRUGO | S_IWUSR | S_IWGRP); #if defined(DEBUG) #define D(x...) do { \ if (ipc_router_glink_xprt_debug_mask) \ pr_info(x); \ } while (0) #else #define D(x...) do { } while (0) #endif #define MIN_FRAG_SZ (IPC_ROUTER_HDR_SIZE + sizeof(union rr_control_msg)) #define IPC_RTR_XPRT_NAME_LEN (2 * GLINK_NAME_SIZE) #define PIL_SUBSYSTEM_NAME_LEN 32 #define DEFAULT_NUM_INTENTS 5 #define DEFAULT_RX_INTENT_SIZE 2048 /** * ipc_router_glink_xprt - IPC Router's GLINK XPRT structure * @list: IPC router's GLINK XPRT list. * @ch_name: GLink Channel Name. * @edge: Edge between the local node and the remote node. * @transport: Physical Transport Name as identified by Glink. * @pil_edge: Edge name understood by PIL. * @ipc_rtr_xprt_name: XPRT Name to be registered with IPC Router. * @xprt: IPC Router XPRT structure to contain XPRT specific info. * @ch_hndl: Opaque Channel handle returned by GLink. * @xprt_wq: Workqueue to queue read & other XPRT related works. * @ss_reset_rwlock: Read-Write lock to protect access to the ss_reset flag. * @ss_reset: flag used to check SSR state. * @pil: pil handle to the remote subsystem * @sft_close_complete: Variable to indicate completion of SSR handling * by IPC Router. * @xprt_version: IPC Router header version supported by this XPRT. * @xprt_option: XPRT specific options to be handled by IPC Router. * @disable_pil_loading: Disable PIL Loading of the subsystem. */ struct ipc_router_glink_xprt { struct list_head list; char ch_name[GLINK_NAME_SIZE]; char edge[GLINK_NAME_SIZE]; char transport[GLINK_NAME_SIZE]; char pil_edge[PIL_SUBSYSTEM_NAME_LEN]; char ipc_rtr_xprt_name[IPC_RTR_XPRT_NAME_LEN]; struct msm_ipc_router_xprt xprt; void *ch_hndl; struct workqueue_struct *xprt_wq; struct rw_semaphore ss_reset_rwlock; int ss_reset; void *pil; struct completion sft_close_complete; unsigned xprt_version; unsigned xprt_option; bool disable_pil_loading; }; struct ipc_router_glink_xprt_work { struct ipc_router_glink_xprt *glink_xprtp; struct work_struct work; }; struct queue_rx_intent_work { struct ipc_router_glink_xprt *glink_xprtp; size_t intent_size; struct work_struct work; }; struct read_work { struct ipc_router_glink_xprt *glink_xprtp; void *iovec; size_t iovec_size; void * (*vbuf_provider)(void *iovec, size_t offset, size_t *size); void * (*pbuf_provider)(void *iovec, size_t offset, size_t *size); struct work_struct work; }; static void glink_xprt_read_data(struct work_struct *work); static void glink_xprt_open_event(struct work_struct *work); static void glink_xprt_close_event(struct work_struct *work); /** * ipc_router_glink_xprt_config - Config. Info. of each GLINK XPRT * @ch_name: Name of the GLINK endpoint exported by GLINK driver. * @edge: Edge between the local node and remote node. * @transport: Physical Transport Name as identified by GLINK. * @pil_edge: Edge name understood by PIL. * @ipc_rtr_xprt_name: XPRT Name to be registered with IPC Router. * @link_id: Network Cluster ID to which this XPRT belongs to. * @xprt_version: IPC Router header version supported by this XPRT. * @disable_pil_loading:Disable PIL Loading of the subsystem. */ struct ipc_router_glink_xprt_config { char ch_name[GLINK_NAME_SIZE]; char edge[GLINK_NAME_SIZE]; char transport[GLINK_NAME_SIZE]; char ipc_rtr_xprt_name[IPC_RTR_XPRT_NAME_LEN]; char pil_edge[PIL_SUBSYSTEM_NAME_LEN]; uint32_t link_id; unsigned xprt_version; unsigned xprt_option; bool disable_pil_loading; }; #define MODULE_NAME "ipc_router_glink_xprt" static DEFINE_MUTEX(glink_xprt_list_lock_lha1); static LIST_HEAD(glink_xprt_list); static struct workqueue_struct *glink_xprt_wq; static void glink_xprt_link_state_cb(struct glink_link_state_cb_info *cb_info, void *priv); static struct glink_link_info glink_xprt_link_info = { NULL, NULL, glink_xprt_link_state_cb}; static void *glink_xprt_link_state_notif_handle; struct xprt_state_work_info { char edge[GLINK_NAME_SIZE]; char transport[GLINK_NAME_SIZE]; uint32_t link_state; struct work_struct work; }; #define OVERFLOW_ADD_UNSIGNED(type, a, b) \ (((type)~0 - (a)) < (b) ? true : false) static void *glink_xprt_vbuf_provider(void *iovec, size_t offset, size_t *buf_size) { struct rr_packet *pkt = (struct rr_packet *)iovec; struct sk_buff *skb; size_t temp_size = 0; if (unlikely(!pkt || !buf_size)) return NULL; *buf_size = 0; skb_queue_walk(pkt->pkt_fragment_q, skb) { if (unlikely(OVERFLOW_ADD_UNSIGNED(size_t, temp_size, skb->len))) break; temp_size += skb->len; if (offset >= temp_size) continue; *buf_size = temp_size - offset; return (void *)skb->data + skb->len - *buf_size; } return NULL; } /** * ipc_router_glink_xprt_set_version() - Set the IPC Router version in transport * @xprt: Reference to the transport structure. * @version: The version to be set in transport. */ static void ipc_router_glink_xprt_set_version( struct msm_ipc_router_xprt *xprt, unsigned version) { struct ipc_router_glink_xprt *glink_xprtp; if (!xprt) return; glink_xprtp = container_of(xprt, struct ipc_router_glink_xprt, xprt); glink_xprtp->xprt_version = version; } static int ipc_router_glink_xprt_get_version( struct msm_ipc_router_xprt *xprt) { struct ipc_router_glink_xprt *glink_xprtp; if (!xprt) return -EINVAL; glink_xprtp = container_of(xprt, struct ipc_router_glink_xprt, xprt); return (int)glink_xprtp->xprt_version; } static int ipc_router_glink_xprt_get_option( struct msm_ipc_router_xprt *xprt) { struct ipc_router_glink_xprt *glink_xprtp; if (!xprt) return -EINVAL; glink_xprtp = container_of(xprt, struct ipc_router_glink_xprt, xprt); return (int)glink_xprtp->xprt_option; } static int ipc_router_glink_xprt_write(void *data, uint32_t len, struct msm_ipc_router_xprt *xprt) { struct rr_packet *pkt = (struct rr_packet *)data; struct rr_packet *temp_pkt; int ret; struct ipc_router_glink_xprt *glink_xprtp = container_of(xprt, struct ipc_router_glink_xprt, xprt); if (!pkt) return -EINVAL; if (!len || pkt->length != len) return -EINVAL; temp_pkt = clone_pkt(pkt); if (!temp_pkt) { IPC_RTR_ERR("%s: Error cloning packet while tx\n", __func__); return -ENOMEM; } down_read(&glink_xprtp->ss_reset_rwlock); if (glink_xprtp->ss_reset) { release_pkt(temp_pkt); IPC_RTR_ERR("%s: %s chnl reset\n", __func__, xprt->name); ret = -ENETRESET; goto out_write_data; } D("%s: Ready to write %d bytes\n", __func__, len); ret = glink_txv(glink_xprtp->ch_hndl, (void *)glink_xprtp, (void *)temp_pkt, len, glink_xprt_vbuf_provider, NULL, true); if (ret < 0) { release_pkt(temp_pkt); IPC_RTR_ERR("%s: Error %d while tx\n", __func__, ret); goto out_write_data; } ret = len; D("%s:%s: TX Complete for %d bytes @ %p\n", __func__, glink_xprtp->ipc_rtr_xprt_name, len, temp_pkt); out_write_data: up_read(&glink_xprtp->ss_reset_rwlock); return ret; } static int ipc_router_glink_xprt_close(struct msm_ipc_router_xprt *xprt) { struct ipc_router_glink_xprt *glink_xprtp = container_of(xprt, struct ipc_router_glink_xprt, xprt); down_write(&glink_xprtp->ss_reset_rwlock); glink_xprtp->ss_reset = 1; up_write(&glink_xprtp->ss_reset_rwlock); return glink_close(glink_xprtp->ch_hndl); } static void glink_xprt_sft_close_done(struct msm_ipc_router_xprt *xprt) { struct ipc_router_glink_xprt *glink_xprtp = container_of(xprt, struct ipc_router_glink_xprt, xprt); complete_all(&glink_xprtp->sft_close_complete); } static struct rr_packet *glink_xprt_copy_data(struct read_work *rx_work) { void *buf, *pbuf, *dest_buf; size_t buf_size; struct rr_packet *pkt; struct sk_buff *skb; pkt = create_pkt(NULL); if (!pkt) { IPC_RTR_ERR("%s: Couldn't alloc rr_packet\n", __func__); return NULL; } do { buf_size = 0; if (rx_work->vbuf_provider) { buf = rx_work->vbuf_provider(rx_work->iovec, pkt->length, &buf_size); } else { pbuf = rx_work->pbuf_provider(rx_work->iovec, pkt->length, &buf_size); buf = phys_to_virt((unsigned long)pbuf); } if (!buf_size || !buf) break; skb = alloc_skb(buf_size, GFP_KERNEL); if (!skb) { IPC_RTR_ERR("%s: Couldn't alloc skb of size %zu\n", __func__, buf_size); release_pkt(pkt); return NULL; } dest_buf = skb_put(skb, buf_size); memcpy(dest_buf, buf, buf_size); skb_queue_tail(pkt->pkt_fragment_q, skb); pkt->length += buf_size; } while (buf && buf_size); return pkt; } static void glink_xprt_read_data(struct work_struct *work) { struct rr_packet *pkt; struct read_work *rx_work = container_of(work, struct read_work, work); struct ipc_router_glink_xprt *glink_xprtp = rx_work->glink_xprtp; bool reuse_intent = false; down_read(&glink_xprtp->ss_reset_rwlock); if (glink_xprtp->ss_reset) { IPC_RTR_ERR("%s: %s channel reset\n", __func__, glink_xprtp->xprt.name); goto out_read_data; } D("%s %zu bytes @ %p\n", __func__, rx_work->iovec_size, rx_work->iovec); if (rx_work->iovec_size <= DEFAULT_RX_INTENT_SIZE) reuse_intent = true; pkt = glink_xprt_copy_data(rx_work); if (!pkt) { IPC_RTR_ERR("%s: Error copying data\n", __func__); goto out_read_data; } msm_ipc_router_xprt_notify(&glink_xprtp->xprt, IPC_ROUTER_XPRT_EVENT_DATA, pkt); release_pkt(pkt); out_read_data: glink_rx_done(glink_xprtp->ch_hndl, rx_work->iovec, reuse_intent); kfree(rx_work); up_read(&glink_xprtp->ss_reset_rwlock); } static void glink_xprt_open_event(struct work_struct *work) { struct ipc_router_glink_xprt_work *xprt_work = container_of(work, struct ipc_router_glink_xprt_work, work); struct ipc_router_glink_xprt *glink_xprtp = xprt_work->glink_xprtp; int i; msm_ipc_router_xprt_notify(&glink_xprtp->xprt, IPC_ROUTER_XPRT_EVENT_OPEN, NULL); D("%s: Notified IPC Router of %s OPEN\n", __func__, glink_xprtp->xprt.name); for (i = 0; i < DEFAULT_NUM_INTENTS; i++) glink_queue_rx_intent(glink_xprtp->ch_hndl, (void *)glink_xprtp, DEFAULT_RX_INTENT_SIZE); pr_emerg("%s\n", __func__); kfree(xprt_work); } static void glink_xprt_close_event(struct work_struct *work) { struct ipc_router_glink_xprt_work *xprt_work = container_of(work, struct ipc_router_glink_xprt_work, work); struct ipc_router_glink_xprt *glink_xprtp = xprt_work->glink_xprtp; init_completion(&glink_xprtp->sft_close_complete); msm_ipc_router_xprt_notify(&glink_xprtp->xprt, IPC_ROUTER_XPRT_EVENT_CLOSE, NULL); D("%s: Notified IPC Router of %s CLOSE\n", __func__, glink_xprtp->xprt.name); wait_for_completion(&glink_xprtp->sft_close_complete); pr_emerg("%s\n", __func__); kfree(xprt_work); } static void glink_xprt_qrx_intent_worker(struct work_struct *work) { struct queue_rx_intent_work *qrx_intent_work = container_of(work, struct queue_rx_intent_work, work); struct ipc_router_glink_xprt *glink_xprtp = qrx_intent_work->glink_xprtp; glink_queue_rx_intent(glink_xprtp->ch_hndl, (void *)glink_xprtp, qrx_intent_work->intent_size); kfree(qrx_intent_work); } static void msm_ipc_unload_subsystem(struct ipc_router_glink_xprt *glink_xprtp) { if (glink_xprtp->pil) { //subsystem_put(glink_xprtp->pil); glink_xprtp->pil = NULL; } } static void *msm_ipc_load_subsystem(struct ipc_router_glink_xprt *glink_xprtp) { void *pil = NULL; if (!glink_xprtp->disable_pil_loading) { //pil = subsystem_get(glink_xprtp->pil_edge); if (IS_ERR(pil)) { pr_err("%s: Failed to load %s err = [0x%ld]\n", __func__, glink_xprtp->pil_edge, PTR_ERR(pil)); pil = NULL; } } return pil; } static void glink_xprt_notify_rxv(void *handle, const void *priv, const void *pkt_priv, void *ptr, size_t size, void * (*vbuf_provider)(void *iovec, size_t offset, size_t *size), void * (*pbuf_provider)(void *iovec, size_t offset, size_t *size)) { struct ipc_router_glink_xprt *glink_xprtp = (struct ipc_router_glink_xprt *)priv; struct read_work *rx_work; rx_work = kmalloc(sizeof(*rx_work), GFP_ATOMIC); if (!rx_work) { IPC_RTR_ERR("%s: couldn't allocate read_work\n", __func__); glink_rx_done(glink_xprtp->ch_hndl, ptr, true); return; } rx_work->glink_xprtp = glink_xprtp; rx_work->iovec = ptr; rx_work->iovec_size = size; rx_work->vbuf_provider = vbuf_provider; rx_work->pbuf_provider = pbuf_provider; INIT_WORK(&rx_work->work, glink_xprt_read_data); queue_work(glink_xprtp->xprt_wq, &rx_work->work); } static void glink_xprt_notify_tx_done(void *handle, const void *priv, const void *pkt_priv, const void *ptr) { struct ipc_router_glink_xprt *glink_xprtp = (struct ipc_router_glink_xprt *)priv; struct rr_packet *temp_pkt = (struct rr_packet *)ptr; D("%s:%s: @ %p\n", __func__, glink_xprtp->ipc_rtr_xprt_name, ptr); release_pkt(temp_pkt); } static bool glink_xprt_notify_rx_intent_req(void *handle, const void *priv, size_t sz) { struct queue_rx_intent_work *qrx_intent_work; struct ipc_router_glink_xprt *glink_xprtp = (struct ipc_router_glink_xprt *)priv; if (sz <= DEFAULT_RX_INTENT_SIZE) return true; qrx_intent_work = kmalloc(sizeof(struct queue_rx_intent_work), GFP_ATOMIC); if (!qrx_intent_work) { IPC_RTR_ERR("%s: Couldn't queue rx_intent of %zu bytes\n", __func__, sz); return false; } qrx_intent_work->glink_xprtp = glink_xprtp; qrx_intent_work->intent_size = sz; INIT_WORK(&qrx_intent_work->work, glink_xprt_qrx_intent_worker); queue_work(glink_xprtp->xprt_wq, &qrx_intent_work->work); return true; } static void glink_xprt_notify_state(void *handle, const void *priv, unsigned event) { struct ipc_router_glink_xprt_work *xprt_work; struct ipc_router_glink_xprt *glink_xprtp = (struct ipc_router_glink_xprt *)priv; D("%s: %s:%s - State %d\n", __func__, glink_xprtp->edge, glink_xprtp->transport, event); switch (event) { case GLINK_CONNECTED: if (IS_ERR_OR_NULL(glink_xprtp->ch_hndl)) glink_xprtp->ch_hndl = handle; down_write(&glink_xprtp->ss_reset_rwlock); glink_xprtp->ss_reset = 0; up_write(&glink_xprtp->ss_reset_rwlock); xprt_work = kmalloc(sizeof(struct ipc_router_glink_xprt_work), GFP_ATOMIC); if (!xprt_work) { IPC_RTR_ERR( "%s: Couldn't notify %d event to IPC Router\n", __func__, event); return; } xprt_work->glink_xprtp = glink_xprtp; INIT_WORK(&xprt_work->work, glink_xprt_open_event); queue_work(glink_xprtp->xprt_wq, &xprt_work->work); break; case GLINK_LOCAL_DISCONNECTED: case GLINK_REMOTE_DISCONNECTED: down_write(&glink_xprtp->ss_reset_rwlock); if (glink_xprtp->ss_reset) { up_write(&glink_xprtp->ss_reset_rwlock); break; } glink_xprtp->ss_reset = 1; up_write(&glink_xprtp->ss_reset_rwlock); xprt_work = kmalloc(sizeof(struct ipc_router_glink_xprt_work), GFP_ATOMIC); if (!xprt_work) { IPC_RTR_ERR( "%s: Couldn't notify %d event to IPC Router\n", __func__, event); return; } xprt_work->glink_xprtp = glink_xprtp; INIT_WORK(&xprt_work->work, glink_xprt_close_event); queue_work(glink_xprtp->xprt_wq, &xprt_work->work); break; } } static void glink_xprt_ch_open(struct ipc_router_glink_xprt *glink_xprtp) { struct glink_open_config open_cfg = {0}; if (!IS_ERR_OR_NULL(glink_xprtp->ch_hndl)) return; open_cfg.transport = glink_xprtp->transport; open_cfg.options |= GLINK_OPT_INITIAL_XPORT; open_cfg.edge = glink_xprtp->edge; open_cfg.name = glink_xprtp->ch_name; open_cfg.notify_rx = NULL; open_cfg.notify_rxv = glink_xprt_notify_rxv; open_cfg.notify_tx_done = glink_xprt_notify_tx_done; open_cfg.notify_state = glink_xprt_notify_state; open_cfg.notify_rx_intent_req = glink_xprt_notify_rx_intent_req; open_cfg.priv = glink_xprtp; glink_xprtp->pil = msm_ipc_load_subsystem(glink_xprtp); glink_xprtp->ch_hndl = glink_open(&open_cfg); if (IS_ERR_OR_NULL(glink_xprtp->ch_hndl)) { IPC_RTR_ERR("%s:%s:%s %s: unable to open channel\n", open_cfg.transport, open_cfg.edge, open_cfg.name, __func__); msm_ipc_unload_subsystem(glink_xprtp); } } /** * glink_xprt_link_state_worker() - Function to handle link state updates * @work: Pointer to the work item in the link_state_work_info. * * This worker function is scheduled when there is a link state update. Since * the loopback server registers for all transports, it receives all link state * updates about all transports that get registered in the system. */ static void glink_xprt_link_state_worker(struct work_struct *work) { struct xprt_state_work_info *xs_info = container_of(work, struct xprt_state_work_info, work); struct ipc_router_glink_xprt *glink_xprtp; if (xs_info->link_state == GLINK_LINK_STATE_UP) { D("%s: LINK_STATE_UP %s:%s\n", __func__, xs_info->edge, xs_info->transport); mutex_lock(&glink_xprt_list_lock_lha1); list_for_each_entry(glink_xprtp, &glink_xprt_list, list) { if (strcmp(glink_xprtp->edge, xs_info->edge) || strcmp(glink_xprtp->transport, xs_info->transport)) continue; glink_xprt_ch_open(glink_xprtp); } mutex_unlock(&glink_xprt_list_lock_lha1); } else if (xs_info->link_state == GLINK_LINK_STATE_DOWN) { D("%s: LINK_STATE_DOWN %s:%s\n", __func__, xs_info->edge, xs_info->transport); mutex_lock(&glink_xprt_list_lock_lha1); list_for_each_entry(glink_xprtp, &glink_xprt_list, list) { if (strcmp(glink_xprtp->edge, xs_info->edge) || strcmp(glink_xprtp->transport, xs_info->transport) || IS_ERR_OR_NULL(glink_xprtp->ch_hndl)) continue; glink_close(glink_xprtp->ch_hndl); glink_xprtp->ch_hndl = NULL; msm_ipc_unload_subsystem(glink_xprtp); } mutex_unlock(&glink_xprt_list_lock_lha1); } kfree(xs_info); return; } /** * glink_xprt_link_state_cb() - Callback to receive link state updates * @cb_info: Information containing link & its state. * @priv: Private data passed during the link state registration. * * This function is called by the GLINK core to notify the IPC Router * regarding the link state updates. This function is registered with the * GLINK core by IPC Router during glink_register_link_state_cb(). */ static void glink_xprt_link_state_cb(struct glink_link_state_cb_info *cb_info, void *priv) { struct xprt_state_work_info *xs_info; if (!cb_info) return; D("%s: %s:%s\n", __func__, cb_info->edge, cb_info->transport); xs_info = kmalloc(sizeof(*xs_info), GFP_KERNEL); if (!xs_info) { IPC_RTR_ERR("%s: Error allocating xprt state info\n", __func__); return; } strlcpy(xs_info->edge, cb_info->edge, GLINK_NAME_SIZE); strlcpy(xs_info->transport, cb_info->transport, GLINK_NAME_SIZE); xs_info->link_state = cb_info->link_state; INIT_WORK(&xs_info->work, glink_xprt_link_state_worker); queue_work(glink_xprt_wq, &xs_info->work); } /** * ipc_router_glink_config_init() - init GLINK xprt configs * * @glink_xprt_config: pointer to GLINK Channel configurations. * * @return: 0 on success, standard Linux error codes on error. * * This function is called to initialize the GLINK XPRT pointer with * the GLINK XPRT configurations either from device tree or static arrays. */ static int ipc_router_glink_config_init( struct ipc_router_glink_xprt_config *glink_xprt_config) { struct ipc_router_glink_xprt *glink_xprtp; char xprt_wq_name[GLINK_NAME_SIZE]; glink_xprtp = kzalloc(sizeof(struct ipc_router_glink_xprt), GFP_KERNEL); if (IS_ERR_OR_NULL(glink_xprtp)) { IPC_RTR_ERR("%s:%s:%s:%s glink_xprtp alloc failed\n", __func__, glink_xprt_config->ch_name, glink_xprt_config->edge, glink_xprt_config->transport); return -ENOMEM; } glink_xprtp->xprt.link_id = glink_xprt_config->link_id; glink_xprtp->xprt_version = glink_xprt_config->xprt_version; glink_xprtp->xprt_option = glink_xprt_config->xprt_option; glink_xprtp->disable_pil_loading = glink_xprt_config->disable_pil_loading; if (!glink_xprtp->disable_pil_loading) strlcpy(glink_xprtp->pil_edge, glink_xprt_config->pil_edge, PIL_SUBSYSTEM_NAME_LEN); strlcpy(glink_xprtp->ch_name, glink_xprt_config->ch_name, GLINK_NAME_SIZE); strlcpy(glink_xprtp->edge, glink_xprt_config->edge, GLINK_NAME_SIZE); strlcpy(glink_xprtp->transport, glink_xprt_config->transport, GLINK_NAME_SIZE); strlcpy(glink_xprtp->ipc_rtr_xprt_name, glink_xprt_config->ipc_rtr_xprt_name, IPC_RTR_XPRT_NAME_LEN); glink_xprtp->xprt.name = glink_xprtp->ipc_rtr_xprt_name; glink_xprtp->xprt.get_version = ipc_router_glink_xprt_get_version; glink_xprtp->xprt.set_version = ipc_router_glink_xprt_set_version; glink_xprtp->xprt.get_option = ipc_router_glink_xprt_get_option; glink_xprtp->xprt.read_avail = NULL; glink_xprtp->xprt.read = NULL; glink_xprtp->xprt.write_avail = NULL; glink_xprtp->xprt.write = ipc_router_glink_xprt_write; glink_xprtp->xprt.close = ipc_router_glink_xprt_close; glink_xprtp->xprt.sft_close_done = glink_xprt_sft_close_done; glink_xprtp->xprt.priv = NULL; init_rwsem(&glink_xprtp->ss_reset_rwlock); glink_xprtp->ss_reset = 0; scnprintf(xprt_wq_name, GLINK_NAME_SIZE, "%s_%s_%s", glink_xprtp->ch_name, glink_xprtp->edge, glink_xprtp->transport); glink_xprtp->xprt_wq = create_singlethread_workqueue(xprt_wq_name); if (IS_ERR_OR_NULL(glink_xprtp->xprt_wq)) { IPC_RTR_ERR("%s:%s:%s:%s wq alloc failed\n", __func__, glink_xprt_config->ch_name, glink_xprt_config->edge, glink_xprt_config->transport); kfree(glink_xprtp); return -EFAULT; } mutex_lock(&glink_xprt_list_lock_lha1); list_add(&glink_xprtp->list, &glink_xprt_list); mutex_unlock(&glink_xprt_list_lock_lha1); glink_xprt_link_info.edge = glink_xprt_config->edge; glink_xprt_link_state_notif_handle = glink_register_link_state_cb( &glink_xprt_link_info, NULL); return 0; } /** * parse_devicetree() - parse device tree binding * * @node: pointer to device tree node * @glink_xprt_config: pointer to GLINK XPRT configurations * * @return: 0 on success, -ENODEV on failure. */ static int parse_devicetree(struct device_node *node, struct ipc_router_glink_xprt_config *glink_xprt_config) { int ret; int link_id; int version; char *key; const char *ch_name; const char *edge; const char *transport; const char *pil_edge; key = "qcom,ch-name"; ch_name = of_get_property(node, key, NULL); if (!ch_name) goto error; strlcpy(glink_xprt_config->ch_name, ch_name, GLINK_NAME_SIZE); key = "qcom,xprt-remote"; edge = of_get_property(node, key, NULL); if (!edge) goto error; strlcpy(glink_xprt_config->edge, edge, GLINK_NAME_SIZE); key = "qcom,glink-xprt"; transport = of_get_property(node, key, NULL); if (!transport) goto error; strlcpy(glink_xprt_config->transport, transport, GLINK_NAME_SIZE); key = "qcom,xprt-linkid"; ret = of_property_read_u32(node, key, &link_id); if (ret) goto error; glink_xprt_config->link_id = link_id; key = "qcom,xprt-version"; ret = of_property_read_u32(node, key, &version); if (ret) goto error; glink_xprt_config->xprt_version = version; key = "qcom,fragmented-data"; glink_xprt_config->xprt_option = of_property_read_bool(node, key); key = "qcom,pil-label"; pil_edge = of_get_property(node, key, NULL); if (pil_edge) { strlcpy(glink_xprt_config->pil_edge, pil_edge, PIL_SUBSYSTEM_NAME_LEN); glink_xprt_config->disable_pil_loading = false; } else { glink_xprt_config->disable_pil_loading = true; } scnprintf(glink_xprt_config->ipc_rtr_xprt_name, IPC_RTR_XPRT_NAME_LEN, "%s_%s", edge, ch_name); return 0; error: IPC_RTR_ERR("%s: missing key: %s\n", __func__, key); return -ENODEV; } /** * ipc_router_glink_xprt_probe() - Probe a GLINK xprt * * @pdev: Platform device corresponding to GLINK xprt. * * @return: 0 on success, standard Linux error codes on error. * * This function is called when the underlying device tree driver registers * a platform device, mapped to a GLINK transport. */ static int ipc_router_glink_xprt_probe(struct platform_device *pdev) { int ret; struct ipc_router_glink_xprt_config glink_xprt_config; if (pdev) { if (pdev->dev.of_node) { ret = parse_devicetree(pdev->dev.of_node, &glink_xprt_config); if (ret) { IPC_RTR_ERR("%s: Failed to parse device tree\n", __func__); return ret; } ret = ipc_router_glink_config_init(&glink_xprt_config); if (ret) { IPC_RTR_ERR("%s init failed\n", __func__); return ret; } } } return 0; } static struct of_device_id ipc_router_glink_xprt_match_table[] = { { .compatible = "qcom,ipc_router_glink_xprt" }, {}, }; static struct platform_driver ipc_router_glink_xprt_driver = { .probe = ipc_router_glink_xprt_probe, .driver = { .name = MODULE_NAME, .owner = THIS_MODULE, .of_match_table = ipc_router_glink_xprt_match_table, }, }; static int __init ipc_router_glink_xprt_init(void) { int rc; glink_xprt_wq = create_singlethread_workqueue("glink_xprt_wq"); if (IS_ERR_OR_NULL(glink_xprt_wq)) { pr_err("%s: create_singlethread_workqueue failed\n", __func__); return -EFAULT; } rc = platform_driver_register(&ipc_router_glink_xprt_driver); if (rc) { IPC_RTR_ERR( "%s: ipc_router_glink_xprt_driver register failed %d\n", __func__, rc); return rc; } return 0; } module_init(ipc_router_glink_xprt_init); MODULE_DESCRIPTION("IPC Router GLINK XPRT"); MODULE_LICENSE("GPL v2");