/* Copyright (c) 2013-2017, 2019 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. * * RMNET Data ingress/egress handler * */ #include #include #include #include #include #include #include #include #include #include "rmnet_data_private.h" #include "rmnet_data_config.h" #include "rmnet_data_vnd.h" #include "rmnet_map.h" #include "rmnet_data_stats.h" #include "rmnet_data_trace.h" #include "rmnet_data_handlers.h" #include RMNET_LOG_MODULE(RMNET_DATA_LOGMASK_HANDLER); #ifdef CONFIG_RMNET_DATA_DEBUG_PKT unsigned int dump_pkt_rx; module_param(dump_pkt_rx, uint, S_IRUGO | S_IWUSR); MODULE_PARM_DESC(dump_pkt_rx, "Dump packets entering ingress handler"); unsigned int dump_pkt_tx; module_param(dump_pkt_tx, uint, S_IRUGO | S_IWUSR); MODULE_PARM_DESC(dump_pkt_tx, "Dump packets exiting egress handler"); #endif /* CONFIG_RMNET_DATA_DEBUG_PKT */ /* Time in nano seconds. This number must be less that a second. */ long gro_flush_time __read_mostly = 10000L; module_param(gro_flush_time, long, S_IRUGO | S_IWUSR); MODULE_PARM_DESC(gro_flush_time, "Flush GRO when spaced more than this"); unsigned int gro_min_byte_thresh __read_mostly = 7500; module_param(gro_min_byte_thresh, uint, S_IRUGO | S_IWUSR); MODULE_PARM_DESC(gro_min_byte_thresh, "Min byte thresh to change flush time"); unsigned int dynamic_gro_on __read_mostly = 1; module_param(dynamic_gro_on, uint, S_IRUGO | S_IWUSR); MODULE_PARM_DESC(dynamic_gro_on, "Toggle to turn on dynamic gro logic"); unsigned int upper_flush_time __read_mostly = 15000; module_param(upper_flush_time, uint, S_IRUGO | S_IWUSR); MODULE_PARM_DESC(upper_flush_time, "Upper limit on flush time"); unsigned int upper_byte_limit __read_mostly = 10500; module_param(upper_byte_limit, uint, S_IRUGO | S_IWUSR); MODULE_PARM_DESC(upper_byte_limit, "Upper byte limit"); #define RMNET_DATA_IP_VERSION_4 0x40 #define RMNET_DATA_IP_VERSION_6 0x60 #define RMNET_DATA_GRO_RCV_FAIL 0 #define RMNET_DATA_GRO_RCV_PASS 1 /* ***************** Helper Functions *************************************** */ /** * __rmnet_data_set_skb_proto() - Set skb->protocol field * @skb: packet being modified * * Peek at the first byte of the packet and set the protocol. There is not * good way to determine if a packet has a MAP header. As of writing this, * the reserved bit in the MAP frame will prevent it from overlapping with * IPv4/IPv6 frames. This could change in the future! */ static inline void __rmnet_data_set_skb_proto(struct sk_buff *skb) { switch (skb->data[0] & 0xF0) { case RMNET_DATA_IP_VERSION_4: skb->protocol = htons(ETH_P_IP); break; case RMNET_DATA_IP_VERSION_6: skb->protocol = htons(ETH_P_IPV6); break; default: skb->protocol = htons(ETH_P_MAP); break; } } #ifdef CONFIG_RMNET_DATA_DEBUG_PKT /** * rmnet_print_packet() - Print packet / diagnostics * @skb: Packet to print * @printlen: Number of bytes to print * @dev: Name of interface * @dir: Character representing direction (e.g.. 'r' for receive) * * This function prints out raw bytes in an SKB. Use of this will have major * performance impacts and may even trigger watchdog resets if too much is being * printed. Hence, this should always be compiled out unless absolutely needed. */ void rmnet_print_packet(const struct sk_buff *skb, const char *dev, char dir) { char buffer[200]; unsigned int len, printlen; int i, buffloc = 0; switch (dir) { case 'r': printlen = dump_pkt_rx; break; case 't': printlen = dump_pkt_tx; break; default: printlen = 0; break; } if (!printlen) return; pr_err("[%s][%c] - PKT skb->len=%d skb->head=%pK skb->data=%pK\n", dev, dir, skb->len, (void *)skb->head, (void *)skb->data); pr_err("[%s][%c] - PKT skb->tail=%pK skb->end=%pK\n", dev, dir, skb_tail_pointer(skb), skb_end_pointer(skb)); if (skb->len > 0) len = skb->len; else len = ((unsigned int)(uintptr_t)skb->end) - ((unsigned int)(uintptr_t)skb->data); pr_err("[%s][%c] - PKT len: %d, printing first %d bytes\n", dev, dir, len, printlen); memset(buffer, 0, sizeof(buffer)); for (i = 0; (i < printlen) && (i < len); i++) { if ((i%16) == 0) { pr_err("[%s][%c] - PKT%s\n", dev, dir, buffer); memset(buffer, 0, sizeof(buffer)); buffloc = 0; buffloc += snprintf(&buffer[buffloc], sizeof(buffer)-buffloc, "%04X:", i); } buffloc += snprintf(&buffer[buffloc], sizeof(buffer)-buffloc, " %02x", skb->data[i]); } pr_err("[%s][%c] - PKT%s\n", dev, dir, buffer); } #else void rmnet_print_packet(const struct sk_buff *skb, const char *dev, char dir) { return; } #endif /* CONFIG_RMNET_DATA_DEBUG_PKT */ /* ***************** Generic handler **************************************** */ /** * rmnet_bridge_handler() - Bridge related functionality * * Return: * - RX_HANDLER_CONSUMED in all cases */ static rx_handler_result_t rmnet_bridge_handler(struct sk_buff *skb, struct rmnet_logical_ep_conf_s *ep) { if (!ep->egress_dev) { LOGD("Missing egress device for packet arriving on %s", skb->dev->name); rmnet_kfree_skb(skb, RMNET_STATS_SKBFREE_BRDG_NO_EGRESS); } else { rmnet_data_egress_handler(skb, ep); } return RX_HANDLER_CONSUMED; } #ifdef NET_SKBUFF_DATA_USES_OFFSET static void rmnet_reset_mac_header(struct sk_buff *skb) { skb->mac_header = 0; skb->mac_len = 0; } #else static void rmnet_reset_mac_header(struct sk_buff *skb) { skb->mac_header = skb->network_header; skb->mac_len = 0; } #endif /*NET_SKBUFF_DATA_USES_OFFSET*/ /** * rmnet_check_skb_can_gro() - Check is skb can be passed through GRO handler * * Determines whether to pass the skb to the GRO handler napi_gro_receive() or * handle normally by passing to netif_receive_skb(). * * Warning: * This assumes that only TCP packets can be coalesced by the GRO handler which * is not true in general. We lose the ability to use GRO for cases like UDP * encapsulation protocols. * * Return: * - RMNET_DATA_GRO_RCV_FAIL if packet is sent to netif_receive_skb() * - RMNET_DATA_GRO_RCV_PASS if packet is sent to napi_gro_receive() */ static int rmnet_check_skb_can_gro(struct sk_buff *skb) { switch (skb->data[0] & 0xF0) { case RMNET_DATA_IP_VERSION_4: if (ip_hdr(skb)->protocol == IPPROTO_TCP) return RMNET_DATA_GRO_RCV_PASS; break; case RMNET_DATA_IP_VERSION_6: if (ipv6_hdr(skb)->nexthdr == IPPROTO_TCP) return RMNET_DATA_GRO_RCV_PASS; /* Fall through */ } return RMNET_DATA_GRO_RCV_FAIL; } /** * rmnet_optional_gro_flush() - Check if GRO handler needs to flush now * * Determines whether GRO handler needs to flush packets which it has * coalesced so far. * * Tuning this parameter will trade TCP slow start performance for GRO coalesce * ratio. */ static void rmnet_optional_gro_flush(struct napi_struct *napi, struct rmnet_logical_ep_conf_s *ep, unsigned int skb_size) { struct timespec curr_time, diff; if (!gro_flush_time) return; if (unlikely(ep->flush_time.tv_sec == 0)) { getnstimeofday(&ep->flush_time); ep->flush_byte_count = 0; } else { getnstimeofday(&(curr_time)); diff = timespec_sub(curr_time, ep->flush_time); ep->flush_byte_count += skb_size; if (dynamic_gro_on) { if ((!(diff.tv_sec > 0) || diff.tv_nsec <= gro_flush_time) && ep->flush_byte_count >= gro_min_byte_thresh) { /* Processed many bytes in a small time window. * No longer need to flush so often and we can * increase our byte limit */ gro_flush_time = upper_flush_time; gro_min_byte_thresh = upper_byte_limit; } else if ((diff.tv_sec > 0 || diff.tv_nsec > gro_flush_time) && ep->flush_byte_count < gro_min_byte_thresh) { /* We have not hit our time limit and we are not * receive many bytes. Demote ourselves to the * lowest limits and flush */ napi_gro_flush(napi, false); getnstimeofday(&ep->flush_time); ep->flush_byte_count = 0; gro_flush_time = 10000L; gro_min_byte_thresh = 7500L; } else if ((diff.tv_sec > 0 || diff.tv_nsec > gro_flush_time) && ep->flush_byte_count >= gro_min_byte_thresh) { /* Above byte and time limt, therefore we can * move/maintain our limits to be the max * and flush */ napi_gro_flush(napi, false); getnstimeofday(&ep->flush_time); ep->flush_byte_count = 0; gro_flush_time = upper_flush_time; gro_min_byte_thresh = upper_byte_limit; } /* else, below time limit and below * byte thresh, so change nothing */ } else if (diff.tv_sec > 0 || diff.tv_nsec >= gro_flush_time) { napi_gro_flush(napi, false); getnstimeofday(&ep->flush_time); ep->flush_byte_count = 0; } } } /** * __rmnet_deliver_skb() - Deliver skb * * Determines where to deliver skb. Options are: consume by network stack, * pass to bridge handler, or pass to virtual network device * * Return: * - RX_HANDLER_CONSUMED if packet forwarded or dropped * - RX_HANDLER_PASS if packet is to be consumed by network stack as-is */ static rx_handler_result_t __rmnet_deliver_skb(struct sk_buff *skb, struct rmnet_logical_ep_conf_s *ep) { struct napi_struct *napi = NULL; struct rmnet_nss_cb *nss_cb; gro_result_t gro_res; unsigned int skb_size; trace___rmnet_deliver_skb(skb); /* Pass off the packet to NSS driver if we can */ nss_cb = rcu_dereference(rmnet_nss_callbacks); if (nss_cb) { int rc = nss_cb->nss_tx(skb); if (rc >= 0) return RX_HANDLER_CONSUMED; } switch (ep->rmnet_mode) { case RMNET_EPMODE_NONE: return RX_HANDLER_PASS; case RMNET_EPMODE_BRIDGE: return rmnet_bridge_handler(skb, ep); case RMNET_EPMODE_VND: skb_reset_transport_header(skb); skb_reset_network_header(skb); switch (rmnet_data_vnd_rx_fixup(skb, skb->dev)) { case RX_HANDLER_CONSUMED: return RX_HANDLER_CONSUMED; case RX_HANDLER_PASS: skb->pkt_type = PACKET_HOST; rmnet_reset_mac_header(skb); if (rmnet_check_skb_can_gro(skb) && (skb->dev->features & NETIF_F_GRO)) { napi = get_current_napi_context(); if (napi != NULL) { skb_size = skb->len; gro_res = napi_gro_receive(napi, skb); trace_rmnet_gro_downlink(gro_res); rmnet_optional_gro_flush( napi, ep, skb_size); } else { WARN_ONCE(1, "current napi is NULL\n"); netif_receive_skb(skb); } } else { netif_receive_skb(skb); } return RX_HANDLER_CONSUMED; } return RX_HANDLER_PASS; default: LOGD("Unkown ep mode %d", ep->rmnet_mode); rmnet_kfree_skb(skb, RMNET_STATS_SKBFREE_DELIVER_NO_EP); return RX_HANDLER_CONSUMED; } } /** * rmnet_ingress_deliver_packet() - Ingress handler for raw IP and bridged * MAP packets. * @skb: Packet needing a destination. * @config: Physical end point configuration that the packet arrived on. * * Return: * - RX_HANDLER_CONSUMED if packet forwarded/dropped * - RX_HANDLER_PASS if packet should be passed up the stack by caller */ static rx_handler_result_t rmnet_ingress_deliver_packet(struct sk_buff *skb, struct rmnet_phys_ep_config *config) { if (!config) { LOGD("%s", "NULL physical EP provided"); kfree_skb(skb); return RX_HANDLER_CONSUMED; } if (!(config->local_ep.refcount)) { LOGD("Packet on %s has no local endpoint configuration", skb->dev->name); rmnet_kfree_skb(skb, RMNET_STATS_SKBFREE_IPINGRESS_NO_EP); return RX_HANDLER_CONSUMED; } skb->dev = config->local_ep.egress_dev; return __rmnet_deliver_skb(skb, &(config->local_ep)); } /* ***************** MAP handler ******************************************** */ /** * _rmnet_map_ingress_handler() - Actual MAP ingress handler * @skb: Packet being received * @config: Physical endpoint configuration for the ingress device * * Most MAP ingress functions are processed here. Packets are processed * individually; aggregated packets should use rmnet_map_ingress_handler() * * Return: * - RX_HANDLER_CONSUMED if packet is dropped * - result of __rmnet_deliver_skb() for all other cases */ static rx_handler_result_t _rmnet_map_ingress_handler(struct sk_buff *skb, struct rmnet_phys_ep_config *config) { struct rmnet_logical_ep_conf_s *ep; uint8_t mux_id; uint16_t len; int ckresult; if (RMNET_MAP_GET_CD_BIT(skb)) { if (config->ingress_data_format & RMNET_INGRESS_FORMAT_MAP_COMMANDS) return rmnet_data_map_command(skb, config); LOGM("MAP command packet on %s; %s", skb->dev->name, "Not configured for MAP commands"); rmnet_kfree_skb(skb, RMNET_STATS_SKBFREE_INGRESS_NOT_EXPECT_MAPC); return RX_HANDLER_CONSUMED; } mux_id = RMNET_MAP_GET_MUX_ID(skb); len = RMNET_MAP_GET_LENGTH(skb) - RMNET_MAP_GET_PAD(skb) - config->tail_spacing; if (mux_id >= RMNET_DATA_MAX_LOGICAL_EP) { LOGD("Got packet on %s with bad mux id %d", skb->dev->name, mux_id); rmnet_kfree_skb(skb, RMNET_STATS_SKBFREE_MAPINGRESS_BAD_MUX); return RX_HANDLER_CONSUMED; } ep = &(config->muxed_ep[mux_id]); if (!ep->refcount) { LOGD("Packet on %s:%d; has no logical endpoint config", skb->dev->name, mux_id); rmnet_kfree_skb(skb, RMNET_STATS_SKBFREE_MAPINGRESS_MUX_NO_EP); return RX_HANDLER_CONSUMED; } if (config->ingress_data_format & RMNET_INGRESS_FORMAT_DEMUXING) skb->dev = ep->egress_dev; if ((config->ingress_data_format & RMNET_INGRESS_FORMAT_MAP_CKSUMV3) || (config->ingress_data_format & RMNET_INGRESS_FORMAT_MAP_CKSUMV4)) { ckresult = rmnet_map_data_checksum_downlink_packet(skb); trace_rmnet_map_checksum_downlink_packet(skb, ckresult); rmnet_stats_dl_checksum(ckresult); if (likely((ckresult == RMNET_MAP_CHECKSUM_OK) || (ckresult == RMNET_MAP_CHECKSUM_SKIPPED))) skb->ip_summed |= CHECKSUM_UNNECESSARY; else if (ckresult != RMNET_MAP_CHECKSUM_ERR_UNKNOWN_IP_VERSION && ckresult != RMNET_MAP_CHECKSUM_VALIDATION_FAILED && ckresult != RMNET_MAP_CHECKSUM_ERR_UNKNOWN_TRANSPORT && ckresult != RMNET_MAP_CHECKSUM_VALID_FLAG_NOT_SET && ckresult != RMNET_MAP_CHECKSUM_FRAGMENTED_PACKET) { rmnet_kfree_skb(skb, RMNET_STATS_SKBFREE_INGRESS_BAD_MAP_CKSUM); return RX_HANDLER_CONSUMED; } } /* Subtract MAP header */ skb_pull(skb, sizeof(struct rmnet_map_header_s)); skb_trim(skb, len); __rmnet_data_set_skb_proto(skb); return __rmnet_deliver_skb(skb, ep); } /** * rmnet_map_ingress_handler() - MAP ingress handler * @skb: Packet being received * @config: Physical endpoint configuration for the ingress device * * Called if and only if MAP is configured in the ingress device's ingress data * format. Deaggregation is done here, actual MAP processing is done in * _rmnet_map_ingress_handler(). * * Return: * - RX_HANDLER_CONSUMED for aggregated packets * - RX_HANDLER_CONSUMED for dropped packets * - result of _rmnet_map_ingress_handler() for all other cases */ static rx_handler_result_t rmnet_map_ingress_handler(struct sk_buff *skb, struct rmnet_phys_ep_config *config) { struct sk_buff *skbn; int rc, co = 0; if (config->ingress_data_format & RMNET_INGRESS_FORMAT_DEAGGREGATION) { trace_rmnet_start_deaggregation(skb); while ((skbn = rmnet_data_map_deaggregate(skb, config)) != 0) { _rmnet_map_ingress_handler(skbn, config); co++; } trace_rmnet_end_deaggregation(skb, co); LOGD("De-aggregated %d packets", co); rmnet_stats_deagg_pkts(co); rmnet_kfree_skb(skb, RMNET_STATS_SKBFREE_MAPINGRESS_AGGBUF); rc = RX_HANDLER_CONSUMED; } else { rc = _rmnet_map_ingress_handler(skb, config); } return rc; } /** * rmnet_map_egress_handler() - MAP egress handler * @skb: Packet being sent * @config: Physical endpoint configuration for the egress device * @ep: logical endpoint configuration of the packet originator * (e.g.. RmNet virtual network device) * @orig_dev: The originator vnd device * * Called if and only if MAP is configured in the egress device's egress data * format. Will expand skb if there is insufficient headroom for MAP protocol. * Note: headroomexpansion will incur a performance penalty. * * Return: * - 0 on success * - 1 on failure */ static int rmnet_map_egress_handler(struct sk_buff *skb, struct rmnet_phys_ep_config *config, struct rmnet_logical_ep_conf_s *ep, struct net_device *orig_dev) { int required_headroom, additional_header_length, ckresult; struct rmnet_map_header_s *map_header; additional_header_length = 0; required_headroom = sizeof(struct rmnet_map_header_s); if ((config->egress_data_format & RMNET_EGRESS_FORMAT_MAP_CKSUMV3) || (config->egress_data_format & RMNET_EGRESS_FORMAT_MAP_CKSUMV4)) { required_headroom += sizeof(struct rmnet_map_ul_checksum_header_s); additional_header_length += sizeof(struct rmnet_map_ul_checksum_header_s); } LOGD("headroom of %d bytes", required_headroom); if (skb_headroom(skb) < required_headroom) { LOGE("Not enough headroom for %d bytes", required_headroom); kfree_skb(skb); return 1; } if ((config->egress_data_format & RMNET_EGRESS_FORMAT_MAP_CKSUMV3) || (config->egress_data_format & RMNET_EGRESS_FORMAT_MAP_CKSUMV4)) { ckresult = rmnet_map_data_checksum_uplink_packet (skb, orig_dev, config->egress_data_format); trace_rmnet_map_checksum_uplink_packet(orig_dev, ckresult); rmnet_stats_ul_checksum(ckresult); } if ((!(config->egress_data_format & RMNET_EGRESS_FORMAT_AGGREGATION)) || ((orig_dev->features & NETIF_F_GSO) && skb_is_nonlinear(skb))) map_header = rmnet_data_map_add_map_header (skb, additional_header_length, RMNET_MAP_NO_PAD_BYTES); else map_header = rmnet_data_map_add_map_header (skb, additional_header_length, RMNET_MAP_ADD_PAD_BYTES); if (!map_header) { LOGD("%s", "Failed to add MAP header to egress packet"); kfree_skb(skb); return 1; } if (config->egress_data_format & RMNET_EGRESS_FORMAT_MUXING) { if (ep->mux_id == 0xff) map_header->mux_id = 0; else map_header->mux_id = ep->mux_id; } skb->protocol = htons(ETH_P_MAP); if (config->egress_data_format & RMNET_EGRESS_FORMAT_AGGREGATION) { rmnet_map_aggregate(skb, config); return RMNET_MAP_CONSUMED; } return RMNET_MAP_SUCCESS; } /* ***************** Ingress / Egress Entry Points ************************** */ /** * rmnet_ingress_handler() - Ingress handler entry point * @skb: Packet being received * * Processes packet as per ingress data format for receiving device. Logical * endpoint is determined from packet inspection. Packet is then sent to the * egress device listed in the logical endpoint configuration. * * Return: * - RX_HANDLER_PASS if packet is not processed by handler (caller must * deal with the packet) * - RX_HANDLER_CONSUMED if packet is forwarded or processed by MAP */ rx_handler_result_t rmnet_ingress_handler(struct sk_buff *skb) { struct rmnet_phys_ep_config *config; struct net_device *dev; int rc; if (!skb) BUG(); dev = skb->dev; trace_rmnet_ingress_handler(skb); rmnet_print_packet(skb, dev->name, 'r'); config = _rmnet_get_phys_ep_config(skb->dev); if (!config) { LOGD("%s is not associated with rmnet_data", skb->dev->name); kfree_skb(skb); return RX_HANDLER_CONSUMED; } /* Sometimes devices operate in ethernet mode even thouth there is no * ethernet header. This causes the skb->protocol to contain a bogus * value and the skb->data pointer to be off by 14 bytes. Fix it if * configured to do so */ if (config->ingress_data_format & RMNET_INGRESS_FIX_ETHERNET) { skb_push(skb, RMNET_ETHERNET_HEADER_LENGTH); __rmnet_data_set_skb_proto(skb); } if (config->ingress_data_format & RMNET_INGRESS_FORMAT_MAP) { rc = rmnet_map_ingress_handler(skb, config); } else { switch (ntohs(skb->protocol)) { case ETH_P_MAP: if (config->local_ep.rmnet_mode == RMNET_EPMODE_BRIDGE) { rc = rmnet_ingress_deliver_packet(skb, config); } else { LOGD("MAP packet on %s; MAP not set", dev->name); rmnet_kfree_skb(skb, RMNET_STATS_SKBFREE_INGRESS_NOT_EXPECT_MAPD); rc = RX_HANDLER_CONSUMED; } break; case ETH_P_ARP: case ETH_P_IP: case ETH_P_IPV6: rc = rmnet_ingress_deliver_packet(skb, config); break; default: LOGD("Unknown skb->proto 0x%04X\n", ntohs(skb->protocol) & 0xFFFF); rc = RX_HANDLER_PASS; } } return rc; } /** * rmnet_data_rx_handler() - Rx handler callback registered with kernel * @pskb: Packet to be processed by rx handler * * Standard kernel-expected footprint for rx handlers. Calls * rmnet_ingress_handler with correctly formatted arguments * * Return: * - Whatever rmnet_ingress_handler() returns */ rx_handler_result_t rmnet_data_rx_handler(struct sk_buff **pskb) { return rmnet_ingress_handler(*pskb); } /** * rmnet_data_egress_handler() - Egress handler entry point * @skb: packet to transmit * @ep: logical endpoint configuration of the packet originator * (e.g.. RmNet virtual network device) * * Modifies packet as per logical endpoint configuration and egress data format * for egress device configured in logical endpoint. Packet is then transmitted * on the egress device. */ void rmnet_data_egress_handler(struct sk_buff *skb, struct rmnet_logical_ep_conf_s *ep) { struct rmnet_phys_ep_config *config; struct net_device *orig_dev; int rc; orig_dev = skb->dev; skb->dev = ep->egress_dev; config = _rmnet_get_phys_ep_config(skb->dev); if (!config) { LOGD("%s is not associated with rmnet_data", skb->dev->name); kfree_skb(skb); return; } LOGD("Packet going out on %s with egress format 0x%08X", skb->dev->name, config->egress_data_format); if (config->egress_data_format & RMNET_EGRESS_FORMAT_MAP) { switch (rmnet_map_egress_handler(skb, config, ep, orig_dev)) { case RMNET_MAP_CONSUMED: LOGD("%s", "MAP process consumed packet"); return; case RMNET_MAP_SUCCESS: break; default: LOGD("MAP egress failed on packet on %s", skb->dev->name); rmnet_kfree_skb(skb, RMNET_STATS_SKBFREE_EGR_MAPFAIL); return; } } if (ep->rmnet_mode == RMNET_EPMODE_VND) rmnet_data_vnd_tx_fixup(skb, orig_dev); rmnet_print_packet(skb, skb->dev->name, 't'); trace_rmnet_egress_handler(skb); rc = dev_queue_xmit(skb); if (rc != 0) { LOGD("Failed to queue packet for transmission on [%s]", skb->dev->name); } rmnet_stats_queue_xmit(rc, RMNET_STATS_QUEUE_XMIT_EGRESS); }