/* * DirectConnect provides a common interface for the network devices to achieve the full or partial acceleration services from the underlying packet acceleration engine * Copyright (c) 2017, Intel Corporation. * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope 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. */ /* Includes */ #include #include #include //#include #include #include #include #include "directconnect_dp_proc.h" #include "directconnect_dp_device.h" #include "directconnect_dp_dcmode_wrapper.h" #include "directconnect_dp_litepath.h" #include "directconnect_dp_macdb.h" /* Defines */ #define DC_DP_DRV_MODULE_NAME "directconnect_datapath" #define DC_DP_DRV_MODULE_VERSION "2.0.2" #define DC_DP_MAX_DESC_DW 4 /* Local variables */ static int32_t g_dc_dp_init_ok = 0; /* Function prototypes */ /* Local */ static inline uint8_t _dc_dp_get_class2devqos(struct dc_dp_priv_dev_info *p_devinfo, uint8_t class, bool is_class); #if defined(CONFIG_DIRECTCONNECT_DP_DBG) && CONFIG_DIRECTCONNECT_DP_DBG static void _dc_dp_dump_raw_data(char *buf, int len, char *prefix_str); #endif /* #if defined(CONFIG_DIRECTCONNECT_DP_DBG) && CONFIG_DIRECTCONNECT_DP_DBG */ /* Extern */ #if defined(CONFIG_MCAST_HELPER_MODULE) || defined(CONFIG_MCAST_HELPER) #define LTQ_MC_F_DISCONN_MAC 0x40 extern void mcast_helper_register_module(struct net_device *dev, struct module *modName, char *addl_name, dc_dp_mcast_callback_fn_t cb, void *data, unsigned int flags); #endif /* #if defined(CONFIG_MCAST_HELPER_MODULE) || defined(CONFIG_MCAST_HELPER) */ /* * ======================================================================== * Local Interface API * ======================================================================== */ static inline uint8_t _dc_dp_get_class2devqos(struct dc_dp_priv_dev_info *p_devinfo, uint8_t class, bool is_class) { uint8_t devqos; uint8_t prio; if (is_class) { class = (class & 0x0F); prio = p_devinfo->class2prio[class]; } else { prio = class; } prio = (prio & DC_DP_DEV_CLASS_MASK); devqos = p_devinfo->prio2qos[prio]; return devqos; } #if defined(CONFIG_DIRECTCONNECT_DP_DBG) && CONFIG_DIRECTCONNECT_DP_DBG static void _dc_dp_dump_raw_data(char *buf, int len, char *prefix_str) { int i; int r; int line_num = 32; unsigned char *p = (unsigned char *)buf; if (!p) { pr_err("[%s:%d] p NULL ?\n", __func__, __LINE__); return ; } printk("%s in hex (len = %d) at 0x%p\n", prefix_str ? (char *)prefix_str : "Data", len, p); for (i = 0; i < len; i++) { r = i % line_num; if (r== 0) printk(" %04d: ", i); else if (r == (line_num/2)) printk(" "); /*inser seperator*/ printk("%02x ", p[i]); if (r == (line_num - 1)) printk("\n"); /*insert new line */ } printk("\n"); } #endif /* #if defined(CONFIG_DIRECTCONNECT_DP_DBG) && CONFIG_DIRECTCONNECT_DP_DBG */ /* * ======================================================================== * Direct Connect Driver Common Interface APIs * ======================================================================== */ int32_t dc_dp_get_peripheral_config(enum dc_dp_dev_type dev_id, struct dc_dp_dev_config *dev_config) { int32_t ret = -1; if (NULL == dev_config) goto out; memset(dev_config, 0, sizeof(struct dc_dp_dev_config)); ret = dc_dp_dcmode_wrapper_get_peripheral_config(dev_id, dev_config); out: return ret; } EXPORT_SYMBOL(dc_dp_get_peripheral_config); int32_t dc_dp_get_host_capability(struct dc_dp_host_cap *cap, uint32_t flags) { int32_t ret = -1; if (NULL == cap) goto out; memset(cap, 0, sizeof(struct dc_dp_host_cap)); ret = dc_dp_dcmode_wrapper_get_host_capability(cap, flags); out: return ret; } EXPORT_SYMBOL(dc_dp_get_host_capability); int32_t dc_dp_alloc_port(struct module *owner, uint32_t dev_port, struct net_device *dev, int32_t port_id, uint32_t flags) { int32_t ret = DC_DP_FAILURE; int32_t ep_id; struct dc_dp_priv_dev_info *p_devinfo = NULL; DC_DP_DEBUG(DC_DP_DBG_FLAG_DBG, "owner=%p, dev_port=%u, dev=%p, port_id=%d, flags=0x%08X\n", owner, dev_port, dev, port_id, flags); /* Validate input arguments */ if (!owner) { DC_DP_ERROR("failed to allocate/de-allocate port as owner=%p!!!\n", owner); goto err_out; } /* De-register */ if (flags & DC_DP_F_DEREGISTER) { /* Find the registered device */ ret = dc_dp_get_device_by_module_port(owner, port_id, &p_devinfo); if (ret || !p_devinfo) { DC_DP_ERROR("failed to de-allocate port_id=%d as port is not allocated yet!!!\n", port_id); goto err_out; } if (p_devinfo->flags != DC_DP_DEV_PORT_ALLOCATED) { DC_DP_ERROR("failed to de-allocate port_id=%d as it is in unknown state!!!\n", port_id); ret = DC_DP_FAILURE; goto err_out; } /* De-allocate port */ ret = dc_dp_dcmode_wrapper_dealloc_port(p_devinfo, owner, dev_port, dev, port_id, flags); if (ret != DC_DP_SUCCESS) { DC_DP_ERROR("failed to de-allocate port_id=%d from datapath library/core!!!\n", port_id); goto err_out; } /* Clear device specific private data structure */ dc_dp_free_device(port_id, dev); DC_DP_DEBUG(DC_DP_DBG_FLAG_DBG, "Success, returned status=%d\n", DC_DP_SUCCESS); return DC_DP_SUCCESS; } /* Allocate a port */ ret = dc_dp_dcmode_wrapper_alloc_port(NULL, owner, dev_port, dev, port_id, flags); if (ret < 0) { DC_DP_ERROR("failed to allocate port!!!\n"); goto err_out; } ep_id = ret; /* Allocate a new device context */ ret = dc_dp_alloc_device(ep_id, dev, &p_devinfo); if (ret) { DC_DP_ERROR("failed to allocate a device for port_id=%d!!!\n", ep_id); goto err_dealloc_port; } /* Initialize device specific private data structure */ p_devinfo->owner = owner; p_devinfo->dev = dev; p_devinfo->dev_port = dev_port; p_devinfo->port_id = ep_id; if ( (flags & DC_DP_F_MULTI_PORT) && (flags & DC_DP_F_SHARED_RES) ) p_devinfo->ref_port_id = port_id; else p_devinfo->ref_port_id = ep_id; p_devinfo->alloc_flags = flags; p_devinfo->flags = DC_DP_DEV_PORT_ALLOCATED; DC_DP_DEBUG(DC_DP_DBG_FLAG_DBG, "Success, returned port_id=%d.\n", ep_id); return ep_id; err_dealloc_port: dc_dp_dcmode_wrapper_dealloc_port(NULL, owner, dev_port, dev, ep_id, DC_DP_F_DEREGISTER); err_out: DC_DP_DEBUG(DC_DP_DBG_FLAG_DBG, "Failure, returned status=%d.\n", ret); return ret; } EXPORT_SYMBOL(dc_dp_alloc_port); int32_t dc_dp_register_dev(struct module *owner, uint32_t port_id, struct net_device *dev, struct dc_dp_cb *datapathcb, struct dc_dp_res *resources, struct dc_dp_dev *devspec, uint32_t flags) { int32_t ret = DC_DP_FAILURE; int32_t class_id; int32_t subif_idx; struct dc_dp_priv_dev_info *p_devinfo = NULL; DC_DP_DEBUG(DC_DP_DBG_FLAG_DBG, "owner=%p, port_id=%u, dev=%p, datapathcb=%p, " "resources=%p, devspec=%p, flags=0x%08X\n", owner, port_id, dev, datapathcb, resources, devspec, flags); /* Validate input parameter */ if (!owner || !devspec) { DC_DP_ERROR("failed to register/de-register device as owner=%p, dev=%p and devspec=%p!!!\n", owner, dev, devspec); goto err_out; } /* Find the device index */ ret = dc_dp_get_device_by_module_port(owner, port_id, &p_devinfo); if (ret || !p_devinfo) { DC_DP_ERROR("failed to register/de-register dev, as port_id=%d is not allocated yet!!!\n", port_id); goto err_out; } /* De-register */ if (flags & DC_DP_F_DEREGISTER) { if (p_devinfo->flags < DC_DP_DEV_REGISTERED) { DC_DP_ERROR("failed to de-register dev as port_id=%d is in unknown state!!!\n", port_id); ret = DC_DP_FAILURE; goto err_out; } if (p_devinfo->num_subif > 0) { /* De-register subif from Datapath Library/Core, if any */ struct dp_subif *subif_id = kmalloc(sizeof(struct dp_subif), GFP_ATOMIC); if (!subif_id) DC_DP_ERROR("failed to allocate subif_id!!!\n"); for (subif_idx = 0; (subif_idx < DC_DP_MAX_SUBIF_PER_DEV) && subif_id; subif_idx++) { if (p_devinfo->subif_info[subif_idx].flags == DC_DP_SUBIF_REGISTERED) { subif_id->port_id = port_id; subif_id->subif = p_devinfo->subif_info[subif_idx].subif; /* Delete all the accelerated session (if any) */ dc_dp_disconn_if(p_devinfo->subif_info[subif_idx].netif, subif_id, NULL, 0); /* De-register subif from Litepath */ if (is_litepath_subif_registered(p_devinfo, subif_id)) { ret = dc_dp_dcmode_wrapper_deregister_subif(p_devinfo, owner, p_devinfo->subif_info[subif_idx].netif, (const uint8_t *)p_devinfo->subif_info[subif_idx].device_name, subif_id, DC_DP_F_DEREGISTER_LITEPATH); if (ret) DC_DP_ERROR("failed to de-register subif=0x%x from litepath!!!\n", subif_id->subif); } /* De-register subif for Fastpath/Swpath */ if (p_devinfo->dcmode) { ret = dc_dp_dcmode_wrapper_deregister_subif(p_devinfo, owner, p_devinfo->subif_info[subif_idx].netif, (const uint8_t *)p_devinfo->subif_info[subif_idx].device_name, subif_id, DC_DP_F_DEREGISTER); if (ret) DC_DP_ERROR("failed to de-register subif=0x%x from swpath/fastpath!!!\n", subif_id->subif); } memset(&p_devinfo->subif_info[subif_idx], 0, sizeof(struct dc_dp_priv_subif_info)); p_devinfo->num_subif--; } } if (subif_id) kfree(subif_id); } /* For the last subif, change the device state */ if (p_devinfo->num_subif == 0) p_devinfo->flags = DC_DP_DEV_REGISTERED; if ((flags & DC_DP_F_QOS)) { ret = dc_dp_dcmode_wrapper_register_qos_class2prio_cb(p_devinfo, port_id, dev, NULL, DC_DP_F_QOS_DEV_DREG); if (ret) DC_DP_ERROR("failed to de-register class2prio callback from PPA!!!\n"); } /* De-register device */ ret = dc_dp_dcmode_wrapper_deregister_dev(p_devinfo, owner, port_id, dev, datapathcb, resources, devspec, flags); if (ret != DC_DP_SUCCESS) { DC_DP_ERROR("failed to de-register dev from SoC!!!\n"); goto err_out; } p_devinfo->flags = DC_DP_DEV_PORT_ALLOCATED; DC_DP_DEBUG(DC_DP_DBG_FLAG_DBG, "Success, returned status=%d.\n", DC_DP_SUCCESS); return DC_DP_SUCCESS; } /* Validate input arguments */ if (!datapathcb || !resources) { DC_DP_ERROR("failed to register dev as datapathcb=%p, resources=%p!!!\n", datapathcb, resources); ret = DC_DP_FAILURE; goto err_out; } if (p_devinfo->flags != DC_DP_DEV_PORT_ALLOCATED) { DC_DP_ERROR("failed to register dev as port_id=%d is in unknown state!!!\n", port_id); ret = DC_DP_FAILURE; goto err_out; } /* Register device */ ret = dc_dp_dcmode_wrapper_register_dev(p_devinfo, owner, port_id, dev, datapathcb, resources, devspec, flags); if (ret != DC_DP_SUCCESS) { DC_DP_ERROR("failed to register dev!!!\n"); goto err_out; } if ((flags & DC_DP_F_QOS)) { ret = dc_dp_dcmode_wrapper_register_qos_class2prio_cb(p_devinfo, port_id, dev, dc_dp_qos_class2prio, DC_DP_F_QOS_DEV_REG); if (ret) { DC_DP_ERROR("failed to register class2prio callback!!!\n"); /* FIXME : in this case, should we use skb->priority? */ ret = 0; } } else { /* FIXME : I think, it has no means? */ for (class_id = 0; class_id < DC_DP_MAX_SOC_CLASS; class_id++) p_devinfo->class2prio[class_id] = (class_id >> 1); } /* Keep the callback registered by peripheral driver */ p_devinfo->cb = *datapathcb; p_devinfo->dc_accel_used = devspec->dc_accel_used; p_devinfo->dc_tx_ring_used = devspec->dc_tx_ring_used; p_devinfo->dc_rx_ring_used = devspec->dc_rx_ring_used; p_devinfo->flags = DC_DP_DEV_REGISTERED; err_out: DC_DP_DEBUG(DC_DP_DBG_FLAG_DBG, "Returned %d.\n", ret); return ret; } EXPORT_SYMBOL(dc_dp_register_dev); int32_t dc_dp_register_subif(struct module *owner, struct net_device *dev, const uint8_t *subif_name, struct dp_subif *subif_id, uint32_t flags) { int32_t ret = DC_DP_FAILURE; int32_t subif_idx; struct dc_dp_priv_dev_info *p_devinfo = NULL; DC_DP_DEBUG(DC_DP_DBG_FLAG_DBG, "owner=%p, dev=%p, subif_id=%p, flags=0x%08X\n", owner, dev, subif_id, flags); /* Validate input arguments */ if (!owner) { DC_DP_ERROR("failed to register/de-register subif as owner=%p!!!\n", owner); goto err_out; } if ((!dev && !subif_name) || !subif_id) { DC_DP_ERROR("failed to register/de-register subif as (dev=%p, subif_name=%p) or subif_id=%p!!!\n", dev, subif_name, subif_id); goto err_out; } /* Find the registered device index */ ret = dc_dp_get_device_by_module_port(owner, subif_id->port_id, &p_devinfo); if (ret != 0 || !p_devinfo) { DC_DP_ERROR("failed to register/de-register subif as port_id=%d is not allocated yet!!!\n", subif_id->port_id); goto err_out; } /* De-register */ if ( ( flags & (DC_DP_F_DEREGISTER | DC_DP_F_DEREGISTER_LITEPATH)) ) { if (p_devinfo->flags != DC_DP_DEV_SUBIF_REGISTERED) { DC_DP_ERROR("failed to de-register subif as port_id=%d is in unknown state!!!\n", subif_id->port_id); ret = DC_DP_FAILURE; goto err_out; } /* Find the registered subif index (for multiple vap) */ subif_idx = ((subif_id->subif >> DC_DP_SUBIFID_OFFSET) & DC_DP_SUBIFID_MASK); if (p_devinfo->subif_info[subif_idx].flags != DC_DP_SUBIF_REGISTERED) { DC_DP_ERROR("failed to de-register subif as subif_id=%d is in unknown state!!!\n", subif_idx); ret = DC_DP_FAILURE; goto err_out; } /* Delete all the accelerated session (if any) */ dc_dp_disconn_if(dev, subif_id, NULL, 0); /* De-register subif */ ret = dc_dp_dcmode_wrapper_deregister_subif(p_devinfo, owner, dev, (dev ? (const uint8_t *)dev->name : subif_name), subif_id, flags); if (ret != DC_DP_SUCCESS) { DC_DP_ERROR("failed to de-register subif from SoC - (port_id=%d, subif=0x%4x)!!!\n", subif_id->port_id, subif_id->subif); goto err_out; } /* Reset private structure corresponding to the subif */ if (((flags & DC_DP_F_DEREGISTER_LITEPATH) && !p_devinfo->dcmode) || (!(flags & DC_DP_F_DEREGISTER_LITEPATH) && p_devinfo->dcmode)) dc_dp_free_subif(&p_devinfo->subif_info[subif_idx]); p_devinfo->num_subif--; /* For the last subif, change the device state */ if (p_devinfo->num_subif == 0) p_devinfo->flags = DC_DP_DEV_REGISTERED; DC_DP_DEBUG(DC_DP_DBG_FLAG_DBG, "Success, returned %d.\n", DC_DP_SUCCESS); return DC_DP_SUCCESS; } if (p_devinfo->flags < DC_DP_DEV_REGISTERED) { DC_DP_ERROR("failed to register subif as port_id=%d is in unknown state!!!\n", subif_id->port_id); ret = DC_DP_FAILURE; goto err_out; } #if 0 if ((p_devinfo->num_subif + 1) > DC_DP_MAX_SUBIF_PER_DEV) { DC_DP_ERROR("failed to register subif as it reaches maximum subif limit (%d)!!!\n", DC_DP_MAX_SUBIF_PER_DEV); ret = DC_DP_FAILURE; goto err_out; } #endif /* Register subif */ ret = dc_dp_dcmode_wrapper_register_subif(p_devinfo, owner, dev, (dev ? (const uint8_t *)dev->name : subif_name), subif_id, flags); if (ret != DC_DP_SUCCESS) { DC_DP_ERROR("failed to register subif to Datapath Library/Core!!!\n"); goto err_out; } /* Initialize private structure with device and subif information */ subif_idx = ((subif_id->subif >> DC_DP_SUBIFID_OFFSET) & DC_DP_SUBIFID_MASK); p_devinfo->subif_info[subif_idx].flags = DC_DP_SUBIF_REGISTERED; p_devinfo->subif_info[subif_idx].netif = dev; p_devinfo->subif_info[subif_idx].subif = subif_id->subif; strcpy(p_devinfo->subif_info[subif_idx].device_name, (dev ? dev->name : (char *)subif_name)); p_devinfo->flags = DC_DP_DEV_SUBIF_REGISTERED; p_devinfo->num_subif++; DC_DP_DEBUG(DC_DP_DBG_FLAG_DBG, "Success, returned %d.\n", ret); return ret; err_out: DC_DP_DEBUG(DC_DP_DBG_FLAG_DBG, "Failure, returned %d.\n", ret); return ret; } EXPORT_SYMBOL(dc_dp_register_subif); void dc_dp_set_subif_param(struct dc_dp_subif *dc_subif) { int32_t ret; struct dc_dp_priv_dev_info *p_devinfo = NULL; if (!dc_subif) { DC_DP_ERROR("dc_subif is NULL!!!\n"); return; } ret = dc_dp_get_device_by_port(dc_subif->port_id, &p_devinfo); if (ret != 0) { DC_DP_ERROR("port=%d does not exist!!!\n", dc_subif->port_id); return; } /* Encode subif */ dc_dp_dcmode_wrapper_set_subif_param(p_devinfo, dc_subif); } EXPORT_SYMBOL(dc_dp_set_subif_param); void dc_dp_get_subif_param(struct dc_dp_subif *dc_subif) { int32_t ret; struct dc_dp_priv_dev_info *p_devinfo = NULL; if (!dc_subif) { DC_DP_ERROR("dc_subif is NULL!!!\n"); return; } ret = dc_dp_get_device_by_port(dc_subif->port_id, &p_devinfo); if (ret != 0) { DC_DP_ERROR("port=%d does not exist!!!\n", dc_subif->port_id); return; } /* Decode subif */ dc_dp_dcmode_wrapper_get_subif_param(p_devinfo, dc_subif); } EXPORT_SYMBOL(dc_dp_get_subif_param); int32_t dc_dp_xmit(struct net_device *rx_if, struct dp_subif *rx_subif, struct dp_subif *tx_subif, struct sk_buff *skb, int32_t len, uint32_t flags) { int32_t ret = DC_DP_FAILURE; struct dc_dp_priv_dev_info *p_devinfo = NULL; if (!skb) { DC_DP_ERROR("failed to xmit skb=%p!!!", skb); goto out; } if (!tx_subif) { DC_DP_ERROR("failed to xmit skb to dev=%s as tx_subif=%p!!!", (skb->dev ? skb->dev->name : "NULL"), tx_subif); goto drop; } ret = dc_dp_get_device_by_port(tx_subif->port_id, &p_devinfo); if (ret != 0) { DC_DP_ERROR("dev=%s does not exist!!!\n", (skb->dev ? skb->dev->name : "NULL")); goto drop; } #if defined(CONFIG_DIRECTCONNECT_DP_DBG) && CONFIG_DIRECTCONNECT_DP_DBG if (dc_dp_get_dbg_flag() & DC_DP_DBG_FLAG_DUMP_TX_DATA) _dc_dp_dump_raw_data(skb->data, skb->len, "Xmit Data"); #endif /* #if defined(CONFIG_DIRECTCONNECT_DP_DBG) && CONFIG_DIRECTCONNECT_DP_DBG */ /* Transmit */ ret = dc_dp_dcmode_wrapper_xmit(p_devinfo, rx_if, rx_subif, tx_subif, skb, skb->len, flags); return ret; drop: dev_kfree_skb_any(skb); /* FIXME : update Tx MIB */ out: return ret; } EXPORT_SYMBOL(dc_dp_xmit); int32_t dc_dp_handle_ring_sw(struct module *owner, uint32_t port_id, struct net_device *dev, struct dc_dp_ring *ring, uint32_t flags) { int32_t ret = DC_DP_FAILURE; struct dc_dp_priv_dev_info *p_devinfo = NULL; /* Validate input parameter */ if (!owner || !ring) { DC_DP_ERROR("failed to handle ring_sw as owner=%p, dev=%p and ring=%p!!!\n", owner, dev, ring); goto out; } ret = dc_dp_get_device_by_port(port_id, &p_devinfo); if (ret != 0) { DC_DP_ERROR("failed to register/de-register subif as port_id=%d is not allocated yet!!!\n", port_id); goto out; } ret = dc_dp_dcmode_wrapper_handle_ring_sw(p_devinfo, owner, port_id, dev, ring, flags); out: return ret; } EXPORT_SYMBOL(dc_dp_handle_ring_sw); int32_t dc_dp_return_bufs(uint32_t port_id, void **buflist, uint32_t buflist_len, uint32_t flags) { int32_t ret = DC_DP_FAILURE; struct dc_dp_priv_dev_info *p_devinfo = NULL; ret = dc_dp_get_device_by_port(port_id, &p_devinfo); if (ret != 0) { DC_DP_ERROR("failed to register/de-register subif as port_id=%d is not allocated yet!!!\n", port_id); goto out; } ret = dc_dp_dcmode_wrapper_return_bufs(p_devinfo, port_id, buflist, buflist_len, flags); out: return ret; } EXPORT_SYMBOL(dc_dp_return_bufs); struct sk_buff * dc_dp_alloc_skb(uint32_t len, struct dp_subif *subif, uint32_t flags) { int32_t ret; struct sk_buff *skb = NULL; struct dc_dp_priv_dev_info *p_devinfo = NULL; if (!subif || len == 0) goto out; ret = dc_dp_get_device_by_port(subif->port_id, &p_devinfo); if (ret != 0) { DC_DP_ERROR("failed to allocate skb for port_id=%d, subif_id=%04x!!!\n", subif->port_id, subif->subif); goto out; } skb = dc_dp_dcmode_wrapper_alloc_skb(p_devinfo, len, subif, flags); out: return skb; } EXPORT_SYMBOL(dc_dp_alloc_skb); int32_t dc_dp_free_skb(struct dp_subif *subif, struct sk_buff *skb) { int32_t ret = DC_DP_FAILURE; struct dc_dp_priv_dev_info *p_devinfo = NULL; if (!subif || !skb) goto out; ret = dc_dp_get_device_by_port(subif->port_id, &p_devinfo); if (ret != 0) { DC_DP_ERROR("failed to free skb for port_id=%d, subif_id=%04x!!!\n", subif->port_id, subif->subif); goto out; } ret = dc_dp_dcmode_wrapper_free_skb(p_devinfo, subif, skb); out: return ret; } EXPORT_SYMBOL(dc_dp_free_skb); int32_t dc_dp_add_session_shortcut_forward(struct dp_subif *subif, struct sk_buff *skb, uint32_t flags) { int32_t ret = DC_DP_FAILURE; struct dc_dp_priv_dev_info *p_devinfo = NULL; if (!subif || !skb) goto out; ret = dc_dp_get_device_by_port(subif->port_id, &p_devinfo); if (ret != 0) { DC_DP_ERROR("failed to add session shortcut forward for device='%s'!!!\n", (skb->dev ? skb->dev->name : "")); goto out; } ret = dc_dp_dcmode_wrapper_add_session_shortcut_forward(p_devinfo, subif, skb, flags); #if defined(CONFIG_NETWORK_EXTMARK) && !defined(CONFIG_X86_INTEL_LGM) if ( (flags & DC_DP_F_PREFORWARDING) ) { /* Set skb->extmark, to be derived from skb->priority */ SET_DATA_FROM_MARK_OPT(skb->extmark, QUEPRIO_MASK, QUEPRIO_START_BIT_POS, (skb->priority + 1)); } #endif /* #ifdef CONFIG_NETWORK_EXTMARK */ out: return ret; } EXPORT_SYMBOL(dc_dp_add_session_shortcut_forward); int32_t dc_dp_disconn_if(struct net_device *netif, struct dp_subif *subif_id, uint8_t mac_addr[MAX_ETH_ALEN], uint32_t flags) { int32_t ret = DC_DP_FAILURE; struct dc_dp_priv_dev_info *p_devinfo = NULL; struct dp_subif *subifid = NULL; int32_t subif_idx; uint8_t hw_addr[MAX_ADDR_LEN] = {0}; DC_DP_DEBUG((DC_DP_DBG_FLAG_DUMP_TX | DC_DP_DBG_FLAG_DUMP_RX), "netif=%p, subif_id=%p, mac_addr=%pM, flags=0x%08x\n", netif, subif_id, mac_addr, flags); if (!netif && !subif_id) { DC_DP_ERROR("Wrong combination - netif=%p, subif_id=%p, mac_addr=%pM\n", netif, subif_id, mac_addr); goto out; } if (subif_id) { ret = dc_dp_get_device_by_port(subif_id->port_id, &p_devinfo); if (ret) { DC_DP_ERROR("port_id=%d does not exist!!!\n", subif_id->port_id); goto out; } //FIXME : if (!netif) } else if (netif) { /* FIXME : not efficient, better to include port_id and optionally subifid??? */ subif_idx = dc_dp_get_device_by_subif_netif(netif, &p_devinfo); if (subif_idx < 0) { DC_DP_ERROR("netif=%s does not exist!!!\n", (netif ? netif->name : "NULL")); goto out; } subifid = kmalloc(sizeof(struct dp_subif), GFP_ATOMIC); if (!subifid) { DC_DP_ERROR("failed to allocate subifid!!!\n"); goto out; } subifid->port_id = p_devinfo->port_id; subifid->subif = p_devinfo->subif_info[subif_idx].subif; subif_id = subifid; } /* Remove the Subif/MAC from acceleration table */ ret = dc_dp_dcmode_wrapper_disconn_if(p_devinfo, netif, subif_id, mac_addr, flags); out: /* Remove the MAC from Linux bridge forwarding table */ if (netif) { #if IS_ENABLED(CONFIG_BRIDGE) if ((netif->priv_flags & IFF_BRIDGE_PORT)) dc_dp_br_fdb_delete(netif, mac_addr); #endif /* #if IS_ENABLED(CONFIG_BRIDGE) */ #if defined(CONFIG_MCAST_HELPER_MODULE) || defined(CONFIG_MCAST_HELPER) if (mac_addr) { memcpy(hw_addr, mac_addr, MAX_ETH_ALEN); mcast_helper_register_module(netif, (p_devinfo? p_devinfo->owner : NULL), NULL, NULL, (void *)&hw_addr[0], LTQ_MC_F_DISCONN_MAC); } #endif /* #if defined(CONFIG_MCAST_HELPER_MODULE) || defined(CONFIG_MCAST_HELPER) */ } if (subifid) kfree(subifid); DC_DP_DEBUG((DC_DP_DBG_FLAG_DUMP_TX|DC_DP_DBG_FLAG_DUMP_RX), "Exit, returned=%d.\n", ret); return ret; } EXPORT_SYMBOL(dc_dp_disconn_if); /* * ======================================================================== * API/Callbacks used by SoC specific * ======================================================================== */ int32_t dc_dp_rx(struct net_device *rxif, struct net_device *txif, struct dp_subif *subif_id, struct sk_buff *skb, int32_t len, uint32_t flags) { int32_t ret; struct dc_dp_priv_dev_info *p_devinfo = NULL; dc_dp_rx_fn_t rx_cb; dc_dp_get_netif_subinterface_fn_t get_subif_cb; struct sk_buff **pskb = NULL; struct sk_buff *tx_skb = NULL; struct dp_subif *rx_subif = NULL; //struct dp_subif tx_subif = {0}; //uint32_t pkt_subif_id; int32_t subif_idx; if (!skb || (!rxif && !txif)) { DC_DP_ERROR("failed to receive as skb=%p!!!\n", skb); ret = -1; goto err_out; } pskb = &skb; #if defined(CONFIG_DIRECTCONNECT_DP_DBG) && CONFIG_DIRECTCONNECT_DP_DBG if (dc_dp_get_dbg_flag() & DC_DP_DBG_FLAG_DUMP_RX_DATA) _dc_dp_dump_raw_data(skb->data, skb->len, "Recv Data"); #endif /* #if defined(CONFIG_DIRECTCONNECT_DP_DBG) && CONFIG_DIRECTCONNECT_DP_DBG */ if (!subif_id) { /* FIXME : not efficient (Litepath rx), may be get the subif from client driver through cb??? */ subif_idx = dc_dp_get_device_by_subif_netif((rxif ? rxif : txif), &p_devinfo); if (subif_idx < 0) { DC_DP_ERROR("device (%s) does not exist!!!\n", (txif ? txif->name: rxif->name)); ret = -1; goto drop; } rx_subif = kmalloc(sizeof(struct dp_subif), GFP_ATOMIC); if (!rx_subif) { DC_DP_ERROR("failed to allocate rx_subif!!!\n"); ret = -1; goto drop; } rx_subif->port_id = p_devinfo->port_id; rx_subif->subif = p_devinfo->subif_info[subif_idx].subif; subif_id = rx_subif; } else { ret = dc_dp_get_device_by_port(subif_id->port_id, &p_devinfo); if (ret != 0) { DC_DP_ERROR("port_id=%d does not exist for the device=%s!!!\n", subif_id->port_id, (txif ? txif->name : rxif->name)); ret = -1; goto drop; } } //tx_subif = subif; rx_cb = p_devinfo->cb.rx_fn; get_subif_cb = p_devinfo->cb.get_subif_fn; /* * rx_if!= NULL : DC or SW or LP * tx_if!=NULL : LP */ if (rx_cb) ret = rx_cb(rxif, txif, subif_id, pskb, skb->len, flags); else { DC_DP_ERROR("rx_fn callback is not registered on rxif->name=%s!!!\n", rxif->name); ret = -1; goto drop; } if (ret > 0 && *pskb != NULL) { tx_skb = *pskb; #if 0 if (txif) { /* Received from LITEPATH, so transmit to SWPATH; In any case, Lower layer should free the skb */ if (dc_dp_get_mark_pkt(tx_subif.port_id, tx_skb, 0)) { dc_dp_get_subifid_pkt(tx_subif.port_id, tx_skb, &pkt_subif_id, 0); tx_subif.subif = pkt_subif_id; } ret = dc_dp_dcmode_wrapper_xmit(p_devinfo, rxif, &subif, &tx_subif, tx_skb, tx_skb->len, 0); } else if (rxif) { /* NOTE : Client Driver has to handle intra-subif traffic in FASTPATH or SWPATH */ if (flags & DC_DP_F_RX_LITEPATH) { /* Received from LITEPATH, so transmit to SWPATH; In any case, Lower layer should free the skb */ if (dc_dp_get_mark_pkt(tx_subif.port_id, tx_skb, 0)) { dc_dp_get_subifid_pkt(tx_subif.port_id, tx_skb, &pkt_subif_id, 0); tx_subif.subif = pkt_subif_id; } ret = dc_dp_dcmode_wrapper_xmit(p_devinfo, rxif, &subif, &tx_subif, tx_skb, tx_skb->len, 0); } else { /* Received from SWPATH, so transmit to LITEPATH; In any case, Lower layer should free the skb */ ret = dc_dp_dcmode_wrapper_xmit(p_devinfo, rxif, &subif, &tx_subif, tx_skb, tx_skb->len, DC_DP_F_XMIT_LITEPATH); } } else #endif { DC_DP_ERROR("Dropping packet (dev=%s), no shortcut transmit handling!!!\n", ((*pskb)->dev ? (*pskb)->dev->name : NULL)); ret = 0; dev_kfree_skb_any(tx_skb); } } else if (*pskb != NULL) DC_DP_ERROR("Client driver (dev=%s) should consume the skb. skb is freed???\n", ((*pskb)->dev ? (*pskb)->dev->name : NULL)); if (rx_subif) kfree(rx_subif); return ret; drop: dev_kfree_skb_any(skb); if (rx_subif) kfree(rx_subif); err_out: return ret; } EXPORT_SYMBOL(dc_dp_rx); int32_t dc_dp_check_if_netif_fastpath(struct net_device *netif, char *ifname, uint32_t flags) { struct dc_dp_priv_dev_info *p_devinfo = NULL; int32_t fastpath = 0; int32_t subif_idx = -1; if (!netif && !ifname) { DC_DP_ERROR("failed as netif=%p and ifname=%p!!!", netif, ifname); goto out; } /* FIXME : not efficient??? */ if (netif) subif_idx = dc_dp_get_device_by_subif_netif(netif, &p_devinfo); else if (ifname) subif_idx = dc_dp_get_device_by_subif_ifname(ifname, &p_devinfo); if ((subif_idx >= 0) && (p_devinfo->alloc_flags & DC_DP_F_FASTPATH)) { // FIXME : should check hw tx ring fastpath = 1; } DC_DP_DEBUG((DC_DP_DBG_FLAG_DUMP_TX|DC_DP_DBG_FLAG_DUMP_RX), "ifname=%s, fastpath(directconnect)=%d.\n", (netif? netif->name : ifname), fastpath); out: return fastpath; } EXPORT_SYMBOL(dc_dp_check_if_netif_fastpath); int32_t dc_dp_get_netif_subifid(struct net_device *netif, struct sk_buff *skb, void *subif_data, uint8_t dst_mac[MAX_ETH_ALEN], struct dp_subif *subif, uint32_t flags) { int32_t ret = -1; dc_dp_get_netif_subinterface_fn_t get_subif_fn; /*!< Get Subinterface metaid callback - Optional (for non-WLAN) (NULL) */ #if 0 uint8_t macaddr[ETH_ALEN] = {0}; uint8_t *mac_addr = NULL; #endif struct dc_dp_priv_dev_info *p_devinfo = NULL; int32_t subifid_ret = 1; if (!netif) { DC_DP_ERROR("failed to get subifid as netif=%p!!!\n", netif); goto out; } if (!subif) { DC_DP_ERROR("failed to get subifid as subif=%p!!!\n", subif); goto out; } ret = dc_dp_get_device_by_port(subif->port_id, &p_devinfo); if (ret) goto out; get_subif_fn = p_devinfo->cb.get_subif_fn; /* Optionally, find meta-subif information for the MAC (e.g., WAVE500 Station ID) */ #if 0 if (dst_mac) { memcpy(macaddr, dst_mac, ETH_ALEN); mac_addr = macaddr; } else if (skb) { memcpy(macaddr, eth_hdr(skb)->h_dest, ETH_ALEN); mac_addr = macaddr; } #endif if (get_subif_fn) { ret = get_subif_fn(netif, skb, subif_data, dst_mac, subif, 0); if (ret) { //DC_DP_ERROR("failed to get subifid for netif->name=%s!!!\n", netif->name); goto out; } } else { DC_DP_ERROR("less efficient...currently skipping linear lookup for subif->subif (where, subif->port_id=%d)!!!\n", subif->port_id); goto out; } subifid_ret = 0; /* according to SWAS, return 1 means subifid found */ DC_DP_DEBUG((DC_DP_DBG_FLAG_DUMP_TX|DC_DP_DBG_FLAG_DUMP_RX), "subifid=0x%04x for netif->name=%s.\n", subif->subif, netif->name); out: return subifid_ret; } EXPORT_SYMBOL(dc_dp_get_netif_subifid); int32_t dc_dp_qos_class2prio(int32_t port_id, struct net_device *netif, uint8_t *class2prio) { int32_t ret; struct dc_dp_priv_dev_info *p_devinfo = NULL; if (!class2prio) { DC_DP_ERROR("failed to update class2prio map, as port_id=%d, netif=%p, class2prio=%p!!!\n", port_id, netif, class2prio); return DC_DP_FAILURE; } /* Find the registered device index */ ret = dc_dp_get_device_by_port(port_id, &p_devinfo); if (ret != 0) { DC_DP_ERROR("failed to find port=%d in device table!!!\n", port_id); return DC_DP_FAILURE; } /* FIXME : Drop the request except for the device reg_flags=DC_DP_F_QOS */ /* Update local QoS Class2Priority map table */ memcpy(p_devinfo->class2prio, class2prio, sizeof(p_devinfo->class2prio)); ret = dc_dp_dcmode_wrapper_map_class2devqos(p_devinfo, port_id, netif, p_devinfo->class2prio, p_devinfo->prio2qos); return ret; } EXPORT_SYMBOL(dc_dp_qos_class2prio); int32_t dc_dp_get_dev_specific_desc_info(int32_t port_id, struct sk_buff *skb, struct dc_dp_fields_value_dw *desc_fields, uint32_t flags) { int32_t ret = -1; dc_dp_get_dev_specific_desc_info_t get_desc_info_fn; struct dc_dp_priv_dev_info *p_devinfo = NULL; /* Validate input parameter */ if ((port_id < 0) || !skb || !desc_fields) { DC_DP_ERROR("failed to get dev desc info as: port_id=%d, skb=%p, desc_fields=%p!!!\n", port_id, skb, desc_fields); goto out; } ret = dc_dp_get_device_by_port(port_id, &p_devinfo); if (ret) goto out; get_desc_info_fn = p_devinfo->cb.get_desc_info_fn; if (get_desc_info_fn) ret = get_desc_info_fn(port_id, skb, desc_fields, flags); out: return ret; } EXPORT_SYMBOL(dc_dp_get_dev_specific_desc_info); /* * ======================================================================== * Misclleneous API * ======================================================================== */ int32_t dc_dp_register_mcast_module(struct net_device *dev, struct module *owner, dc_dp_mcast_callback_fn_t cb, unsigned int flags) { /* Validate input parameter */ if (!owner || !dev) { DC_DP_ERROR("failed to register mcast module as owner=%p and dev=%p!!!\n", owner, dev); return DC_DP_FAILURE; } #if defined(CONFIG_MCAST_HELPER_MODULE) || defined(CONFIG_MCAST_HELPER) mcast_helper_register_module(dev, owner, NULL, cb, NULL, flags); return DC_DP_SUCCESS; #else /* #if defined(CONFIG_MCAST_HELPER_MODULE) || defined(CONFIG_MCAST_HELPER) */ return DC_DP_FAILURE; #endif /* #else */ } EXPORT_SYMBOL(dc_dp_register_mcast_module); int32_t dc_dp_map_prio_devqos_class(int32_t port_id, struct net_device *netif, uint8_t prio2qos[DC_DP_MAX_DEV_CLASS]) { int32_t ret = DC_DP_FAILURE; struct dc_dp_priv_dev_info *p_devinfo = NULL; if (!netif) { DC_DP_ERROR("failed to set prio2qos map: port_id=%d, netif=%p, prio2qos=%p!!!\n", port_id, netif, prio2qos); goto out; } /* Find the registered device index */ ret = dc_dp_get_device_by_port(port_id, &p_devinfo); if (ret != 0) { DC_DP_ERROR("failed to find port=%d in device table!!!\n", port_id); goto out; } /* Update local prio2qos map table */ if (prio2qos) memcpy(p_devinfo->prio2qos, prio2qos, sizeof(p_devinfo->prio2qos)); else memset(p_devinfo->prio2qos, 0, sizeof(p_devinfo->prio2qos)); ret = dc_dp_dcmode_wrapper_map_class2devqos(p_devinfo, port_id, netif, p_devinfo->class2prio, p_devinfo->prio2qos); out: return ret; } EXPORT_SYMBOL(dc_dp_map_prio_devqos_class); int32_t dc_dp_mark_pkt_devqos(int32_t port_id, struct net_device *dst_netif, struct sk_buff *skb) { int32_t ret; struct dc_dp_priv_dev_info *p_devinfo = NULL; #if !defined(CONFIG_X86_INTEL_LGM) && !defined(CONFIG_PRX300_CQM) struct dma_tx_desc_1 *desc_1 = NULL; #endif /* #if !defined(CONFIG_X86_INTEL_LGM) */ int32_t class_prio; uint32_t devqos; bool is_class = 1; /* Validate input parameter */ /* dst_netif unused parameter */ if ((port_id < 0) || !skb) { DC_DP_ERROR("failed to mark packet qos as port_id=%d and skb=%p!!!\n", port_id, skb); return DC_DP_FAILURE; } #if !defined(CONFIG_X86_INTEL_LGM) && !defined(CONFIG_PRX300_CQM) desc_1 = (struct dma_tx_desc_1 *) &skb->DW1; #endif /* #if !defined(CONFIG_X86_INTEL_LGM) */ /* Find the registered device index */ ret = dc_dp_get_device_by_port(port_id, &p_devinfo); if (ret != 0) { DC_DP_ERROR("failed to find port=%d in device table!!!\n", port_id); return DC_DP_FAILURE; } #if defined(CONFIG_NETWORK_EXTMARK) && !defined(CONFIG_X86_INTEL_LGM) /* Extract classid (aka, TC value) from skb->extmark */ GET_DATA_FROM_MARK_OPT(skb->extmark, QUEPRIO_MASK, QUEPRIO_START_BIT_POS, class_prio); class_prio = class_prio ? (class_prio - 1) : 0; #else /* #ifdef CONFIG_NETWORK_EXTMARK */ class_prio = skb->priority; is_class = 1; #endif /* #else */ devqos = _dc_dp_get_class2devqos(p_devinfo, class_prio, is_class); #if !defined(CONFIG_X86_INTEL_LGM) && !defined(CONFIG_PRX300_CQM) desc_1->field.resv1 = devqos; #endif /* #if !defined(CONFIG_X86_INTEL_LGM) */ if (devqos) dc_dp_dcmode_wrapper_mark_pkt_devqos(p_devinfo, devqos, skb); return devqos; } EXPORT_SYMBOL(dc_dp_mark_pkt_devqos); int32_t dc_dp_get_class2devqos(struct net_device *netif, struct dp_subif *subif_id, uint32_t class, uint8_t *devQoS) { int32_t ret = DC_DP_SUCCESS; uint8_t devqos; bool is_class = 1; struct dc_dp_priv_dev_info *p_devinfo = NULL; if (subif_id->port_id < 0) { DC_DP_ERROR("failed to get_class2devqos as port_id=[%d]\n", subif_id->port_id); return DC_DP_FAILURE; } /* Find the registered device index */ ret = dc_dp_get_device_by_port(subif_id->port_id, &p_devinfo); if (ret != 0) { DC_DP_ERROR("failed to find port=%d in device table!!!\n", subif_id->port_id); return DC_DP_FAILURE; } devqos = _dc_dp_get_class2devqos(p_devinfo, class, is_class); *devQoS = devqos; return ret; } EXPORT_SYMBOL(dc_dp_get_class2devqos); int32_t dc_dp_get_netif_stats(struct net_device *netif, struct dp_subif *subif_id, struct rtnl_link_stats64 *if_stats, uint32_t flags) { int32_t ret = DC_DP_FAILURE; struct dc_dp_priv_dev_info *p_devinfo = NULL; if (!if_stats) { DC_DP_ERROR("failed to get stats for netif(%s), as if_stats=NULL!!!\n", (netif ? netif->name : "NULL")); goto out; } if (!subif_id) { DC_DP_ERROR("failed to get stats for netif(%s)!!!\n", (netif ? netif->name : "NULL")); goto out; } /* Find the registered device index */ ret = dc_dp_get_device_by_port(subif_id->port_id, &p_devinfo); if (ret != 0) { DC_DP_ERROR("failed to find port=%d in device table!!!\n", subif_id->port_id); goto out; } memset(if_stats, 0, sizeof(struct rtnl_link_stats64)); ret = dc_dp_dcmode_wrapper_get_netif_stats(p_devinfo, netif, subif_id, if_stats, flags); out: return ret; } EXPORT_SYMBOL(dc_dp_get_netif_stats); int32_t dc_dp_clear_netif_stats(struct net_device *netif, struct dp_subif *subif_id, uint32_t flags) { int32_t ret = DC_DP_FAILURE; struct dc_dp_priv_dev_info *p_devinfo = NULL; if (!subif_id) { DC_DP_ERROR("failed to clear stats for netif (%s)!!!\n", (netif ? netif->name : "NULL")); goto out; } /* Find the registered device index */ ret = dc_dp_get_device_by_port(subif_id->port_id, &p_devinfo); if (ret != 0) { DC_DP_ERROR("failed to find port=%d in device table!!!\n", subif_id->port_id); goto out; } ret = dc_dp_dcmode_wrapper_clear_netif_stats(p_devinfo, netif, subif_id, flags); out: return ret; } EXPORT_SYMBOL(dc_dp_clear_netif_stats); int32_t dc_dp_get_property(struct net_device *netif, struct dp_subif *subif_id, struct dc_dp_prop *property) { int32_t ret = DC_DP_FAILURE; struct dc_dp_priv_dev_info *p_devinfo = NULL; if (!subif_id) { DC_DP_ERROR("failed to set property for netif (%s)!!!\n", (netif ? netif->name : "NULL")); goto out; } /* Find the registered device index */ ret = dc_dp_get_device_by_port(subif_id->port_id, &p_devinfo); if (ret != 0) { DC_DP_ERROR("failed to find port=%d in device table!!!\n", subif_id->port_id); goto out; } ret = dc_dp_dcmode_wrapper_get_property(p_devinfo, netif, subif_id, property); out: return ret; } EXPORT_SYMBOL(dc_dp_get_property); int32_t dc_dp_set_property(struct net_device *netif, struct dp_subif *subif_id, struct dc_dp_prop *property) { int32_t ret = DC_DP_FAILURE; struct dc_dp_priv_dev_info *p_devinfo = NULL; if (!subif_id) { DC_DP_ERROR("failed to set property for netif (%s)!!!\n", (netif ? netif->name : "NULL")); goto out; } /* Find the registered device index */ ret = dc_dp_get_device_by_port(subif_id->port_id, &p_devinfo); if (ret != 0) { DC_DP_ERROR("failed to find port=%d in device table!!!\n", subif_id->port_id); goto out; } ret = dc_dp_dcmode_wrapper_set_property(p_devinfo, netif, subif_id, property); out: return ret; } EXPORT_SYMBOL(dc_dp_set_property); int32_t dc_dp_change_dev_status_in_soc(int32_t port_id, uint32_t flags) { int32_t ret = DC_DP_FAILURE; struct dc_dp_priv_dev_info *p_devinfo = NULL; /* Find the registered device index */ ret = dc_dp_get_device_by_port(port_id, &p_devinfo); if (ret != 0) { DC_DP_ERROR("failed to find port=%d in device table!!!\n", port_id); goto out; } ret = dc_dp_dcmode_wrapper_change_dev_status(p_devinfo, port_id, flags); out: return ret; } EXPORT_SYMBOL(dc_dp_change_dev_status_in_soc); int32_t dc_dp_get_wol_cfg(int32_t port_id, struct dc_dp_wol_cfg *cfg, uint32_t flags) { int32_t ret = DC_DP_FAILURE; struct dc_dp_priv_dev_info *p_devinfo = NULL; /* Find the registered device index */ ret = dc_dp_get_device_by_port(port_id, &p_devinfo); if (ret) { DC_DP_ERROR("failed to find port=%d in device table!!!\n", port_id); goto out; } ret = dc_dp_dcmode_wrapper_get_wol_cfg(p_devinfo, cfg, flags); out: return ret; } EXPORT_SYMBOL(dc_dp_get_wol_cfg); int32_t dc_dp_set_wol_cfg(int32_t port_id, struct dc_dp_wol_cfg *cfg, uint32_t flags) { int32_t ret = DC_DP_FAILURE; struct dc_dp_priv_dev_info *p_devinfo = NULL; /* Find the registered device index */ ret = dc_dp_get_device_by_port(port_id, &p_devinfo); if (ret) { DC_DP_ERROR("failed to find port=%d in device table!!!\n", port_id); goto out; } ret = dc_dp_dcmode_wrapper_set_wol_cfg(p_devinfo, cfg, flags); out: return ret; } EXPORT_SYMBOL(dc_dp_set_wol_cfg); int32_t dc_dp_set_wol_ctrl(int32_t port_id, uint32_t enable) { int32_t ret = DC_DP_FAILURE; struct dc_dp_priv_dev_info *p_devinfo = NULL; /* Find the registered device index */ ret = dc_dp_get_device_by_port(port_id, &p_devinfo); if (ret) { DC_DP_ERROR("failed to find port=%d in device table!!!\n", port_id); goto out; } ret = dc_dp_dcmode_wrapper_set_wol_ctrl(p_devinfo, port_id, enable); out: return ret; } EXPORT_SYMBOL(dc_dp_set_wol_ctrl); int32_t dc_dp_get_wol_ctrl_status(int32_t port_id) { int32_t ret; struct dc_dp_priv_dev_info *p_devinfo = NULL; /* Find the registered device index */ ret = dc_dp_get_device_by_port(port_id, &p_devinfo); if (ret) { DC_DP_ERROR("failed to find port=%d in device table!!!\n", port_id); goto out; } ret = dc_dp_dcmode_wrapper_get_wol_ctrl_status(p_devinfo, port_id); out: return ret; } EXPORT_SYMBOL(dc_dp_get_wol_ctrl_status); /* * ======================================================================== * Module Init/Exit API * ======================================================================== */ static __init int dc_dp_init_module(void) { int32_t ret = 0; if (!g_dc_dp_init_ok) { dc_dp_device_init(); dc_dp_dcmode_init(); dc_dp_notify_init(); #ifdef CONFIG_PROC_FS dc_dp_proc_init(); #endif /* #ifdef CONFIG_PROC_FS */ g_dc_dp_init_ok = 1; } return ret; } static __exit void dc_dp_exit_module(void) { if (g_dc_dp_init_ok) { #ifdef CONFIG_PROC_FS dc_dp_proc_exit(); #endif /* #ifdef CONFIG_PROC_FS */ dc_dp_notify_exit(); dc_dp_dcmode_exit(); dc_dp_device_exit(); g_dc_dp_init_ok = 0; } } module_init(dc_dp_init_module); module_exit(dc_dp_exit_module); MODULE_AUTHOR("Anath Bandhu Garai"); MODULE_DESCRIPTION("DirectConnect common datapath driver"); MODULE_LICENSE("GPL"); MODULE_VERSION(DC_DP_DRV_MODULE_VERSION);