Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
M Chetan Kumar | 6998 | 100.00% | 9 | 100.00% |
Total | 6998 | 9 |
// SPDX-License-Identifier: GPL-2.0-only /* * Copyright (C) 2020-21 Intel Corporation. */ #include <linux/nospec.h> #include "iosm_ipc_imem_ops.h" #include "iosm_ipc_mux_codec.h" #include "iosm_ipc_task_queue.h" /* Test the link power state and send a MUX command in blocking mode. */ static int ipc_mux_tq_cmd_send(struct iosm_imem *ipc_imem, int arg, void *msg, size_t size) { struct iosm_mux *ipc_mux = ipc_imem->mux; const struct mux_acb *acb = msg; skb_queue_tail(&ipc_mux->channel->ul_list, acb->skb); ipc_imem_ul_send(ipc_mux->imem); return 0; } static int ipc_mux_acb_send(struct iosm_mux *ipc_mux, bool blocking) { struct completion *completion = &ipc_mux->channel->ul_sem; int ret = ipc_task_queue_send_task(ipc_mux->imem, ipc_mux_tq_cmd_send, 0, &ipc_mux->acb, sizeof(ipc_mux->acb), false); if (ret) { dev_err(ipc_mux->dev, "unable to send mux command"); return ret; } /* if blocking, suspend the app and wait for irq in the flash or * crash phase. return false on timeout to indicate failure. */ if (blocking) { u32 wait_time_milliseconds = IPC_MUX_CMD_RUN_DEFAULT_TIMEOUT; reinit_completion(completion); if (wait_for_completion_interruptible_timeout (completion, msecs_to_jiffies(wait_time_milliseconds)) == 0) { dev_err(ipc_mux->dev, "ch[%d] timeout", ipc_mux->channel_id); ipc_uevent_send(ipc_mux->imem->dev, UEVENT_MDM_TIMEOUT); return -ETIMEDOUT; } } return 0; } /* Initialize the command header. */ static void ipc_mux_acb_init(struct iosm_mux *ipc_mux) { struct mux_acb *acb = &ipc_mux->acb; struct mux_acbh *header; header = (struct mux_acbh *)(acb->skb)->data; header->block_length = cpu_to_le32(sizeof(struct mux_acbh)); header->first_cmd_index = header->block_length; header->signature = cpu_to_le32(IOSM_AGGR_MUX_SIG_ACBH); header->sequence_nr = cpu_to_le16(ipc_mux->acb_tx_sequence_nr++); } /* Add a command to the ACB. */ static struct mux_cmdh *ipc_mux_acb_add_cmd(struct iosm_mux *ipc_mux, u32 cmd, void *param, u32 param_size) { struct mux_acbh *header; struct mux_cmdh *cmdh; struct mux_acb *acb; acb = &ipc_mux->acb; header = (struct mux_acbh *)(acb->skb)->data; cmdh = (struct mux_cmdh *) ((acb->skb)->data + le32_to_cpu(header->block_length)); cmdh->signature = cpu_to_le32(MUX_SIG_CMDH); cmdh->command_type = cpu_to_le32(cmd); cmdh->if_id = acb->if_id; acb->cmd = cmd; cmdh->cmd_len = cpu_to_le16(offsetof(struct mux_cmdh, param) + param_size); cmdh->transaction_id = cpu_to_le32(ipc_mux->tx_transaction_id++); if (param) memcpy(&cmdh->param, param, param_size); skb_put(acb->skb, le32_to_cpu(header->block_length) + le16_to_cpu(cmdh->cmd_len)); return cmdh; } /* Prepare mux Command */ static struct mux_lite_cmdh *ipc_mux_lite_add_cmd(struct iosm_mux *ipc_mux, u32 cmd, struct mux_acb *acb, void *param, u32 param_size) { struct mux_lite_cmdh *cmdh = (struct mux_lite_cmdh *)acb->skb->data; cmdh->signature = cpu_to_le32(MUX_SIG_CMDH); cmdh->command_type = cpu_to_le32(cmd); cmdh->if_id = acb->if_id; acb->cmd = cmd; cmdh->cmd_len = cpu_to_le16(offsetof(struct mux_lite_cmdh, param) + param_size); cmdh->transaction_id = cpu_to_le32(ipc_mux->tx_transaction_id++); if (param) memcpy(&cmdh->param, param, param_size); skb_put(acb->skb, le16_to_cpu(cmdh->cmd_len)); return cmdh; } static int ipc_mux_acb_alloc(struct iosm_mux *ipc_mux) { struct mux_acb *acb = &ipc_mux->acb; struct sk_buff *skb; dma_addr_t mapping; /* Allocate skb memory for the uplink buffer. */ skb = ipc_pcie_alloc_skb(ipc_mux->pcie, MUX_MAX_UL_ACB_BUF_SIZE, GFP_ATOMIC, &mapping, DMA_TO_DEVICE, 0); if (!skb) return -ENOMEM; /* Save the skb address. */ acb->skb = skb; memset(skb->data, 0, MUX_MAX_UL_ACB_BUF_SIZE); return 0; } int ipc_mux_dl_acb_send_cmds(struct iosm_mux *ipc_mux, u32 cmd_type, u8 if_id, u32 transaction_id, union mux_cmd_param *param, size_t res_size, bool blocking, bool respond) { struct mux_acb *acb = &ipc_mux->acb; union mux_type_cmdh cmdh; int ret = 0; acb->if_id = if_id; ret = ipc_mux_acb_alloc(ipc_mux); if (ret) return ret; if (ipc_mux->protocol == MUX_LITE) { cmdh.ack_lite = ipc_mux_lite_add_cmd(ipc_mux, cmd_type, acb, param, res_size); if (respond) cmdh.ack_lite->transaction_id = cpu_to_le32(transaction_id); } else { /* Initialize the ACB header. */ ipc_mux_acb_init(ipc_mux); cmdh.ack_aggr = ipc_mux_acb_add_cmd(ipc_mux, cmd_type, param, res_size); if (respond) cmdh.ack_aggr->transaction_id = cpu_to_le32(transaction_id); } ret = ipc_mux_acb_send(ipc_mux, blocking); return ret; } void ipc_mux_netif_tx_flowctrl(struct mux_session *session, int idx, bool on) { /* Inform the network interface to start/stop flow ctrl */ ipc_wwan_tx_flowctrl(session->wwan, idx, on); } static int ipc_mux_dl_cmdresps_decode_process(struct iosm_mux *ipc_mux, union mux_cmd_param param, __le32 command_type, u8 if_id, __le32 transaction_id) { struct mux_acb *acb = &ipc_mux->acb; switch (le32_to_cpu(command_type)) { case MUX_CMD_OPEN_SESSION_RESP: case MUX_CMD_CLOSE_SESSION_RESP: /* Resume the control application. */ acb->got_param = param; break; case MUX_LITE_CMD_FLOW_CTL_ACK: /* This command type is not expected as response for * Aggregation version of the protocol. So return non-zero. */ if (ipc_mux->protocol != MUX_LITE) return -EINVAL; dev_dbg(ipc_mux->dev, "if_id %u FLOW_CTL_ACK %u received", if_id, le32_to_cpu(transaction_id)); break; case IOSM_AGGR_MUX_CMD_FLOW_CTL_ACK: /* This command type is not expected as response for * Lite version of the protocol. So return non-zero. */ if (ipc_mux->protocol == MUX_LITE) return -EINVAL; break; default: return -EINVAL; } acb->wanted_response = MUX_CMD_INVALID; acb->got_response = le32_to_cpu(command_type); complete(&ipc_mux->channel->ul_sem); return 0; } static int ipc_mux_dl_cmds_decode_process(struct iosm_mux *ipc_mux, union mux_cmd_param *param, __le32 command_type, u8 if_id, __le16 cmd_len, int size) { struct mux_session *session; struct hrtimer *adb_timer; dev_dbg(ipc_mux->dev, "if_id[%d]: dlcmds decode process %d", if_id, le32_to_cpu(command_type)); switch (le32_to_cpu(command_type)) { case MUX_LITE_CMD_FLOW_CTL: case IOSM_AGGR_MUX_CMD_FLOW_CTL_DISABLE: if (if_id >= IPC_MEM_MUX_IP_SESSION_ENTRIES) { dev_err(ipc_mux->dev, "if_id [%d] not valid", if_id); return -EINVAL; /* No session interface id. */ } session = &ipc_mux->session[if_id]; adb_timer = &ipc_mux->imem->adb_timer; if (param->flow_ctl.mask == cpu_to_le32(0xFFFFFFFF)) { /* Backward Compatibility */ if (cmd_len == cpu_to_le16(size)) session->flow_ctl_mask = le32_to_cpu(param->flow_ctl.mask); else session->flow_ctl_mask = ~0; /* if CP asks for FLOW CTRL Enable * then set our internal flow control Tx flag * to limit uplink session queueing */ session->net_tx_stop = true; /* We have to call Finish ADB here. * Otherwise any already queued data * will be sent to CP when ADB is full * for some other sessions. */ if (ipc_mux->protocol == MUX_AGGREGATION) { ipc_mux_ul_adb_finish(ipc_mux); ipc_imem_hrtimer_stop(adb_timer); } /* Update the stats */ session->flow_ctl_en_cnt++; } else if (param->flow_ctl.mask == 0) { /* Just reset the Flow control mask and let * mux_flow_ctrl_low_thre_b take control on * our internal Tx flag and enabling kernel * flow control */ dev_dbg(ipc_mux->dev, "if_id[%u] flow_ctl mask 0x%08X", if_id, le32_to_cpu(param->flow_ctl.mask)); /* Backward Compatibility */ if (cmd_len == cpu_to_le16(size)) session->flow_ctl_mask = le32_to_cpu(param->flow_ctl.mask); else session->flow_ctl_mask = 0; /* Update the stats */ session->flow_ctl_dis_cnt++; } else { break; } ipc_mux->acc_adb_size = 0; ipc_mux->acc_payload_size = 0; dev_dbg(ipc_mux->dev, "if_id[%u] FLOW CTRL 0x%08X", if_id, le32_to_cpu(param->flow_ctl.mask)); break; case MUX_LITE_CMD_LINK_STATUS_REPORT: break; default: return -EINVAL; } return 0; } /* Decode and Send appropriate response to a command block. */ static void ipc_mux_dl_cmd_decode(struct iosm_mux *ipc_mux, struct sk_buff *skb) { struct mux_lite_cmdh *cmdh = (struct mux_lite_cmdh *)skb->data; __le32 trans_id = cmdh->transaction_id; int size; if (ipc_mux_dl_cmdresps_decode_process(ipc_mux, cmdh->param, cmdh->command_type, cmdh->if_id, cmdh->transaction_id)) { /* Unable to decode command response indicates the cmd_type * may be a command instead of response. So try to decoding it. */ size = offsetof(struct mux_lite_cmdh, param) + sizeof(cmdh->param.flow_ctl); if (!ipc_mux_dl_cmds_decode_process(ipc_mux, &cmdh->param, cmdh->command_type, cmdh->if_id, cmdh->cmd_len, size)) { /* Decoded command may need a response. Give the * response according to the command type. */ union mux_cmd_param *mux_cmd = NULL; size_t size = 0; u32 cmd = MUX_LITE_CMD_LINK_STATUS_REPORT_RESP; if (cmdh->command_type == cpu_to_le32(MUX_LITE_CMD_LINK_STATUS_REPORT)) { mux_cmd = &cmdh->param; mux_cmd->link_status_resp.response = cpu_to_le32(MUX_CMD_RESP_SUCCESS); /* response field is u32 */ size = sizeof(u32); } else if (cmdh->command_type == cpu_to_le32(MUX_LITE_CMD_FLOW_CTL)) { cmd = MUX_LITE_CMD_FLOW_CTL_ACK; } else { return; } if (ipc_mux_dl_acb_send_cmds(ipc_mux, cmd, cmdh->if_id, le32_to_cpu(trans_id), mux_cmd, size, false, true)) dev_err(ipc_mux->dev, "if_id %d: cmd send failed", cmdh->if_id); } } } /* Pass the DL packet to the netif layer. */ static int ipc_mux_net_receive(struct iosm_mux *ipc_mux, int if_id, struct iosm_wwan *wwan, u32 offset, u8 service_class, struct sk_buff *skb, u32 pkt_len) { struct sk_buff *dest_skb = skb_clone(skb, GFP_ATOMIC); if (!dest_skb) return -ENOMEM; skb_pull(dest_skb, offset); skb_trim(dest_skb, pkt_len); /* Pass the packet to the netif layer. */ dest_skb->priority = service_class; return ipc_wwan_receive(wwan, dest_skb, false, if_id); } /* Decode Flow Credit Table in the block */ static void ipc_mux_dl_fcth_decode(struct iosm_mux *ipc_mux, unsigned char *block) { struct ipc_mem_lite_gen_tbl *fct = (struct ipc_mem_lite_gen_tbl *)block; struct iosm_wwan *wwan; int ul_credits; int if_id; if (fct->vfl_length != sizeof(fct->vfl.nr_of_bytes)) { dev_err(ipc_mux->dev, "unexpected FCT length: %d", fct->vfl_length); return; } if_id = fct->if_id; if (if_id >= IPC_MEM_MUX_IP_SESSION_ENTRIES) { dev_err(ipc_mux->dev, "not supported if_id: %d", if_id); return; } /* Is the session active ? */ if_id = array_index_nospec(if_id, IPC_MEM_MUX_IP_SESSION_ENTRIES); wwan = ipc_mux->session[if_id].wwan; if (!wwan) { dev_err(ipc_mux->dev, "session Net ID is NULL"); return; } ul_credits = le32_to_cpu(fct->vfl.nr_of_bytes); dev_dbg(ipc_mux->dev, "Flow_Credit:: if_id[%d] Old: %d Grants: %d", if_id, ipc_mux->session[if_id].ul_flow_credits, ul_credits); /* Update the Flow Credit information from ADB */ ipc_mux->session[if_id].ul_flow_credits += ul_credits; /* Check whether the TX can be started */ if (ipc_mux->session[if_id].ul_flow_credits > 0) { ipc_mux->session[if_id].net_tx_stop = false; ipc_mux_netif_tx_flowctrl(&ipc_mux->session[if_id], ipc_mux->session[if_id].if_id, false); } } /* Decode non-aggregated datagram */ static void ipc_mux_dl_adgh_decode(struct iosm_mux *ipc_mux, struct sk_buff *skb) { u32 pad_len, packet_offset, adgh_len; struct iosm_wwan *wwan; struct mux_adgh *adgh; u8 *block = skb->data; int rc = 0; u8 if_id; adgh = (struct mux_adgh *)block; if (adgh->signature != cpu_to_le32(IOSM_AGGR_MUX_SIG_ADGH)) { dev_err(ipc_mux->dev, "invalid ADGH signature received"); return; } if_id = adgh->if_id; if (if_id >= IPC_MEM_MUX_IP_SESSION_ENTRIES) { dev_err(ipc_mux->dev, "invalid if_id while decoding %d", if_id); return; } /* Is the session active ? */ if_id = array_index_nospec(if_id, IPC_MEM_MUX_IP_SESSION_ENTRIES); wwan = ipc_mux->session[if_id].wwan; if (!wwan) { dev_err(ipc_mux->dev, "session Net ID is NULL"); return; } /* Store the pad len for the corresponding session * Pad bytes as negotiated in the open session less the header size * (see session management chapter for details). * If resulting padding is zero or less, the additional head padding is * omitted. For e.g., if HEAD_PAD_LEN = 16 or less, this field is * omitted if HEAD_PAD_LEN = 20, then this field will have 4 bytes * set to zero */ pad_len = ipc_mux->session[if_id].dl_head_pad_len - IPC_MEM_DL_ETH_OFFSET; packet_offset = sizeof(*adgh) + pad_len; if_id += ipc_mux->wwan_q_offset; adgh_len = le16_to_cpu(adgh->length); /* Pass the packet to the netif layer */ rc = ipc_mux_net_receive(ipc_mux, if_id, wwan, packet_offset, adgh->service_class, skb, adgh_len - packet_offset); if (rc) { dev_err(ipc_mux->dev, "mux adgh decoding error"); return; } ipc_mux->session[if_id].flush = 1; } static void ipc_mux_dl_acbcmd_decode(struct iosm_mux *ipc_mux, struct mux_cmdh *cmdh, int size) { u32 link_st = IOSM_AGGR_MUX_CMD_LINK_STATUS_REPORT_RESP; u32 fctl_dis = IOSM_AGGR_MUX_CMD_FLOW_CTL_DISABLE; u32 fctl_ena = IOSM_AGGR_MUX_CMD_FLOW_CTL_ENABLE; u32 fctl_ack = IOSM_AGGR_MUX_CMD_FLOW_CTL_ACK; union mux_cmd_param *cmd_p = NULL; u32 cmd = link_st; u32 trans_id; if (!ipc_mux_dl_cmds_decode_process(ipc_mux, &cmdh->param, cmdh->command_type, cmdh->if_id, cmdh->cmd_len, size)) { size = 0; if (cmdh->command_type == cpu_to_le32(link_st)) { cmd_p = &cmdh->param; cmd_p->link_status_resp.response = MUX_CMD_RESP_SUCCESS; } else if ((cmdh->command_type == cpu_to_le32(fctl_ena)) || (cmdh->command_type == cpu_to_le32(fctl_dis))) { cmd = fctl_ack; } else { return; } trans_id = le32_to_cpu(cmdh->transaction_id); ipc_mux_dl_acb_send_cmds(ipc_mux, cmd, cmdh->if_id, trans_id, cmd_p, size, false, true); } } /* Decode an aggregated command block. */ static void ipc_mux_dl_acb_decode(struct iosm_mux *ipc_mux, struct sk_buff *skb) { struct mux_acbh *acbh; struct mux_cmdh *cmdh; u32 next_cmd_index; u8 *block; int size; acbh = (struct mux_acbh *)(skb->data); block = (u8 *)(skb->data); next_cmd_index = le32_to_cpu(acbh->first_cmd_index); next_cmd_index = array_index_nospec(next_cmd_index, sizeof(struct mux_cmdh)); while (next_cmd_index != 0) { cmdh = (struct mux_cmdh *)&block[next_cmd_index]; next_cmd_index = le32_to_cpu(cmdh->next_cmd_index); if (ipc_mux_dl_cmdresps_decode_process(ipc_mux, cmdh->param, cmdh->command_type, cmdh->if_id, cmdh->transaction_id)) { size = offsetof(struct mux_cmdh, param) + sizeof(cmdh->param.flow_ctl); ipc_mux_dl_acbcmd_decode(ipc_mux, cmdh, size); } } } /* process datagram */ static int mux_dl_process_dg(struct iosm_mux *ipc_mux, struct mux_adbh *adbh, struct mux_adth_dg *dg, struct sk_buff *skb, int if_id, int nr_of_dg) { u32 dl_head_pad_len = ipc_mux->session[if_id].dl_head_pad_len; u32 packet_offset, i, rc, dg_len; for (i = 0; i < nr_of_dg; i++, dg++) { if (le32_to_cpu(dg->datagram_index) < sizeof(struct mux_adbh)) goto dg_error; /* Is the packet inside of the ADB */ if (le32_to_cpu(dg->datagram_index) >= le32_to_cpu(adbh->block_length)) { goto dg_error; } else { packet_offset = le32_to_cpu(dg->datagram_index) + dl_head_pad_len; dg_len = le16_to_cpu(dg->datagram_length); /* Pass the packet to the netif layer. */ rc = ipc_mux_net_receive(ipc_mux, if_id, ipc_mux->wwan, packet_offset, dg->service_class, skb, dg_len - dl_head_pad_len); if (rc) goto dg_error; } } return 0; dg_error: return -1; } /* Decode an aggregated data block. */ static void mux_dl_adb_decode(struct iosm_mux *ipc_mux, struct sk_buff *skb) { struct mux_adth_dg *dg; struct iosm_wwan *wwan; struct mux_adbh *adbh; struct mux_adth *adth; int nr_of_dg, if_id; u32 adth_index; u8 *block; block = skb->data; adbh = (struct mux_adbh *)block; /* Process the aggregated datagram tables. */ adth_index = le32_to_cpu(adbh->first_table_index); /* Has CP sent an empty ADB ? */ if (adth_index < 1) { dev_err(ipc_mux->dev, "unexpected empty ADB"); goto adb_decode_err; } /* Loop through mixed session tables. */ while (adth_index) { /* Get the reference to the table header. */ adth = (struct mux_adth *)(block + adth_index); /* Get the interface id and map it to the netif id. */ if_id = adth->if_id; if (if_id >= IPC_MEM_MUX_IP_SESSION_ENTRIES) goto adb_decode_err; if_id = array_index_nospec(if_id, IPC_MEM_MUX_IP_SESSION_ENTRIES); /* Is the session active ? */ wwan = ipc_mux->session[if_id].wwan; if (!wwan) goto adb_decode_err; /* Consistency checks for aggregated datagram table. */ if (adth->signature != cpu_to_le32(IOSM_AGGR_MUX_SIG_ADTH)) goto adb_decode_err; if (le16_to_cpu(adth->table_length) < sizeof(struct mux_adth)) goto adb_decode_err; /* Calculate the number of datagrams. */ nr_of_dg = (le16_to_cpu(adth->table_length) - sizeof(struct mux_adth)) / sizeof(struct mux_adth_dg); /* Is the datagram table empty ? */ if (nr_of_dg < 1) { dev_err(ipc_mux->dev, "adthidx=%u,nr_of_dg=%d,next_tblidx=%u", adth_index, nr_of_dg, le32_to_cpu(adth->next_table_index)); /* Move to the next aggregated datagram table. */ adth_index = le32_to_cpu(adth->next_table_index); continue; } /* New aggregated datagram table. */ dg = adth->dg; if (mux_dl_process_dg(ipc_mux, adbh, dg, skb, if_id, nr_of_dg) < 0) goto adb_decode_err; /* mark session for final flush */ ipc_mux->session[if_id].flush = 1; /* Move to the next aggregated datagram table. */ adth_index = le32_to_cpu(adth->next_table_index); } adb_decode_err: return; } /** * ipc_mux_dl_decode - Route the DL packet through the IP MUX layer * depending on Header. * @ipc_mux: Pointer to MUX data-struct * @skb: Pointer to ipc_skb. */ void ipc_mux_dl_decode(struct iosm_mux *ipc_mux, struct sk_buff *skb) { u32 signature; if (!skb->data) return; /* Decode the MUX header type. */ signature = le32_to_cpup((__le32 *)skb->data); switch (signature) { case IOSM_AGGR_MUX_SIG_ADBH: /* Aggregated Data Block Header */ mux_dl_adb_decode(ipc_mux, skb); break; case IOSM_AGGR_MUX_SIG_ADGH: ipc_mux_dl_adgh_decode(ipc_mux, skb); break; case MUX_SIG_FCTH: ipc_mux_dl_fcth_decode(ipc_mux, skb->data); break; case IOSM_AGGR_MUX_SIG_ACBH: /* Aggregated Command Block Header */ ipc_mux_dl_acb_decode(ipc_mux, skb); break; case MUX_SIG_CMDH: ipc_mux_dl_cmd_decode(ipc_mux, skb); break; default: dev_err(ipc_mux->dev, "invalid ABH signature"); } ipc_pcie_kfree_skb(ipc_mux->pcie, skb); } static int ipc_mux_ul_skb_alloc(struct iosm_mux *ipc_mux, struct mux_adb *ul_adb, u32 type) { /* Take the first element of the free list. */ struct sk_buff *skb = skb_dequeue(&ul_adb->free_list); u32 no_if = IPC_MEM_MUX_IP_SESSION_ENTRIES; u32 *next_tb_id; int qlt_size; u32 if_id; if (!skb) return -EBUSY; /* Wait for a free ADB skb. */ /* Mark it as UL ADB to select the right free operation. */ IPC_CB(skb)->op_type = (u8)UL_MUX_OP_ADB; switch (type) { case IOSM_AGGR_MUX_SIG_ADBH: /* Save the ADB memory settings. */ ul_adb->dest_skb = skb; ul_adb->buf = skb->data; ul_adb->size = IPC_MEM_MAX_ADB_BUF_SIZE; /* reset statistic counter */ ul_adb->if_cnt = 0; ul_adb->payload_size = 0; ul_adb->dg_cnt_total = 0; /* Initialize the ADBH. */ ul_adb->adbh = (struct mux_adbh *)ul_adb->buf; memset(ul_adb->adbh, 0, sizeof(struct mux_adbh)); ul_adb->adbh->signature = cpu_to_le32(IOSM_AGGR_MUX_SIG_ADBH); ul_adb->adbh->block_length = cpu_to_le32(sizeof(struct mux_adbh)); next_tb_id = (unsigned int *)&ul_adb->adbh->first_table_index; ul_adb->next_table_index = next_tb_id; /* Clear the local copy of DGs for new ADB */ memset(ul_adb->dg, 0, sizeof(ul_adb->dg)); /* Clear the DG count and QLT updated status for new ADB */ for (if_id = 0; if_id < no_if; if_id++) { ul_adb->dg_count[if_id] = 0; ul_adb->qlt_updated[if_id] = 0; } break; case IOSM_AGGR_MUX_SIG_ADGH: /* Save the ADB memory settings. */ ul_adb->dest_skb = skb; ul_adb->buf = skb->data; ul_adb->size = IPC_MEM_MAX_DL_MUX_LITE_BUF_SIZE; /* reset statistic counter */ ul_adb->if_cnt = 0; ul_adb->payload_size = 0; ul_adb->dg_cnt_total = 0; ul_adb->adgh = (struct mux_adgh *)skb->data; memset(ul_adb->adgh, 0, sizeof(struct mux_adgh)); break; case MUX_SIG_QLTH: qlt_size = offsetof(struct ipc_mem_lite_gen_tbl, vfl) + (MUX_QUEUE_LEVEL * sizeof(struct mux_lite_vfl)); if (qlt_size > IPC_MEM_MAX_DL_MUX_LITE_BUF_SIZE) { dev_err(ipc_mux->dev, "can't support. QLT size:%d SKB size: %d", qlt_size, IPC_MEM_MAX_DL_MUX_LITE_BUF_SIZE); return -ERANGE; } ul_adb->qlth_skb = skb; memset((ul_adb->qlth_skb)->data, 0, qlt_size); skb_put(skb, qlt_size); break; } return 0; } static void ipc_mux_ul_adgh_finish(struct iosm_mux *ipc_mux) { struct mux_adb *ul_adb = &ipc_mux->ul_adb; u16 adgh_len; long long bytes; char *str; if (!ul_adb->dest_skb) { dev_err(ipc_mux->dev, "no dest skb"); return; } adgh_len = le16_to_cpu(ul_adb->adgh->length); skb_put(ul_adb->dest_skb, adgh_len); skb_queue_tail(&ipc_mux->channel->ul_list, ul_adb->dest_skb); ul_adb->dest_skb = NULL; if (ipc_mux->ul_flow == MUX_UL_ON_CREDITS) { struct mux_session *session; session = &ipc_mux->session[ul_adb->adgh->if_id]; str = "available_credits"; bytes = (long long)session->ul_flow_credits; } else { str = "pend_bytes"; bytes = ipc_mux->ul_data_pend_bytes; ipc_mux->ul_data_pend_bytes = ipc_mux->ul_data_pend_bytes + adgh_len; } dev_dbg(ipc_mux->dev, "UL ADGH: size=%u, if_id=%d, payload=%d, %s=%lld", adgh_len, ul_adb->adgh->if_id, ul_adb->payload_size, str, bytes); } static void ipc_mux_ul_encode_adth(struct iosm_mux *ipc_mux, struct mux_adb *ul_adb, int *out_offset) { int i, qlt_size, offset = *out_offset; struct mux_qlth *p_adb_qlt; struct mux_adth_dg *dg; struct mux_adth *adth; u16 adth_dg_size; u32 *next_tb_id; qlt_size = offsetof(struct mux_qlth, ql) + MUX_QUEUE_LEVEL * sizeof(struct mux_qlth_ql); for (i = 0; i < ipc_mux->nr_sessions; i++) { if (ul_adb->dg_count[i] > 0) { adth_dg_size = offsetof(struct mux_adth, dg) + ul_adb->dg_count[i] * sizeof(*dg); *ul_adb->next_table_index = offset; adth = (struct mux_adth *)&ul_adb->buf[offset]; next_tb_id = (unsigned int *)&adth->next_table_index; ul_adb->next_table_index = next_tb_id; offset += adth_dg_size; adth->signature = cpu_to_le32(IOSM_AGGR_MUX_SIG_ADTH); adth->if_id = i; adth->table_length = cpu_to_le16(adth_dg_size); adth_dg_size -= offsetof(struct mux_adth, dg); memcpy(adth->dg, ul_adb->dg[i], adth_dg_size); ul_adb->if_cnt++; } if (ul_adb->qlt_updated[i]) { *ul_adb->next_table_index = offset; p_adb_qlt = (struct mux_qlth *)&ul_adb->buf[offset]; ul_adb->next_table_index = (u32 *)&p_adb_qlt->next_table_index; memcpy(p_adb_qlt, ul_adb->pp_qlt[i], qlt_size); offset += qlt_size; } } *out_offset = offset; } /** * ipc_mux_ul_adb_finish - Add the TD of the aggregated session packets to TDR. * @ipc_mux: Pointer to MUX data-struct. */ void ipc_mux_ul_adb_finish(struct iosm_mux *ipc_mux) { bool ul_data_pend = false; struct mux_adb *ul_adb; unsigned long flags; int offset; ul_adb = &ipc_mux->ul_adb; if (!ul_adb->dest_skb) return; offset = *ul_adb->next_table_index; ipc_mux_ul_encode_adth(ipc_mux, ul_adb, &offset); ul_adb->adbh->block_length = cpu_to_le32(offset); if (le32_to_cpu(ul_adb->adbh->block_length) > ul_adb->size) { ul_adb->dest_skb = NULL; return; } *ul_adb->next_table_index = 0; ul_adb->adbh->sequence_nr = cpu_to_le16(ipc_mux->adb_tx_sequence_nr++); skb_put(ul_adb->dest_skb, le32_to_cpu(ul_adb->adbh->block_length)); spin_lock_irqsave(&(&ipc_mux->channel->ul_list)->lock, flags); __skb_queue_tail(&ipc_mux->channel->ul_list, ul_adb->dest_skb); spin_unlock_irqrestore(&(&ipc_mux->channel->ul_list)->lock, flags); ul_adb->dest_skb = NULL; /* Updates the TDs with ul_list */ ul_data_pend = ipc_imem_ul_write_td(ipc_mux->imem); /* Delay the doorbell irq */ if (ul_data_pend) ipc_imem_td_update_timer_start(ipc_mux->imem); ipc_mux->acc_adb_size += le32_to_cpu(ul_adb->adbh->block_length); ipc_mux->acc_payload_size += ul_adb->payload_size; ipc_mux->ul_data_pend_bytes += ul_adb->payload_size; } /* Allocates an ADB from the free list and initializes it with ADBH */ static bool ipc_mux_ul_adb_allocate(struct iosm_mux *ipc_mux, struct mux_adb *adb, int *size_needed, u32 type) { bool ret_val = false; int status; if (!adb->dest_skb) { /* Allocate memory for the ADB including of the * datagram table header. */ status = ipc_mux_ul_skb_alloc(ipc_mux, adb, type); if (status) /* Is a pending ADB available ? */ ret_val = true; /* None. */ /* Update size need to zero only for new ADB memory */ *size_needed = 0; } return ret_val; } /* Informs the network stack to stop sending further packets for all opened * sessions */ static void ipc_mux_stop_tx_for_all_sessions(struct iosm_mux *ipc_mux) { struct mux_session *session; int idx; for (idx = 0; idx < IPC_MEM_MUX_IP_SESSION_ENTRIES; idx++) { session = &ipc_mux->session[idx]; if (!session->wwan) continue; session->net_tx_stop = true; } } /* Sends Queue Level Table of all opened sessions */ static bool ipc_mux_lite_send_qlt(struct iosm_mux *ipc_mux) { struct ipc_mem_lite_gen_tbl *qlt; struct mux_session *session; bool qlt_updated = false; int i; int qlt_size; if (!ipc_mux->initialized || ipc_mux->state != MUX_S_ACTIVE) return qlt_updated; qlt_size = offsetof(struct ipc_mem_lite_gen_tbl, vfl) + MUX_QUEUE_LEVEL * sizeof(struct mux_lite_vfl); for (i = 0; i < IPC_MEM_MUX_IP_SESSION_ENTRIES; i++) { session = &ipc_mux->session[i]; if (!session->wwan || session->flow_ctl_mask) continue; if (ipc_mux_ul_skb_alloc(ipc_mux, &ipc_mux->ul_adb, MUX_SIG_QLTH)) { dev_err(ipc_mux->dev, "no reserved mem to send QLT of if_id: %d", i); break; } /* Prepare QLT */ qlt = (struct ipc_mem_lite_gen_tbl *)(ipc_mux->ul_adb.qlth_skb) ->data; qlt->signature = cpu_to_le32(MUX_SIG_QLTH); qlt->length = cpu_to_le16(qlt_size); qlt->if_id = i; qlt->vfl_length = MUX_QUEUE_LEVEL * sizeof(struct mux_lite_vfl); qlt->reserved[0] = 0; qlt->reserved[1] = 0; qlt->vfl.nr_of_bytes = cpu_to_le32(session->ul_list.qlen); /* Add QLT to the transfer list. */ skb_queue_tail(&ipc_mux->channel->ul_list, ipc_mux->ul_adb.qlth_skb); qlt_updated = true; ipc_mux->ul_adb.qlth_skb = NULL; } if (qlt_updated) /* Updates the TDs with ul_list */ (void)ipc_imem_ul_write_td(ipc_mux->imem); return qlt_updated; } /* Checks the available credits for the specified session and returns * number of packets for which credits are available. */ static int ipc_mux_ul_bytes_credits_check(struct iosm_mux *ipc_mux, struct mux_session *session, struct sk_buff_head *ul_list, int max_nr_of_pkts) { int pkts_to_send = 0; struct sk_buff *skb; int credits = 0; if (ipc_mux->ul_flow == MUX_UL_ON_CREDITS) { credits = session->ul_flow_credits; if (credits <= 0) { dev_dbg(ipc_mux->dev, "FC::if_id[%d] Insuff.Credits/Qlen:%d/%u", session->if_id, session->ul_flow_credits, session->ul_list.qlen); /* nr_of_bytes */ return 0; } } else { credits = IPC_MEM_MUX_UL_FLOWCTRL_HIGH_B - ipc_mux->ul_data_pend_bytes; if (credits <= 0) { ipc_mux_stop_tx_for_all_sessions(ipc_mux); dev_dbg(ipc_mux->dev, "if_id[%d] encod. fail Bytes: %llu, thresh: %d", session->if_id, ipc_mux->ul_data_pend_bytes, IPC_MEM_MUX_UL_FLOWCTRL_HIGH_B); return 0; } } /* Check if there are enough credits/bytes available to send the * requested max_nr_of_pkts. Otherwise restrict the nr_of_pkts * depending on available credits. */ skb_queue_walk(ul_list, skb) { if (!(credits >= skb->len && pkts_to_send < max_nr_of_pkts)) break; credits -= skb->len; pkts_to_send++; } return pkts_to_send; } /* Encode the UL IP packet according to Lite spec. */ static int ipc_mux_ul_adgh_encode(struct iosm_mux *ipc_mux, int session_id, struct mux_session *session, struct sk_buff_head *ul_list, struct mux_adb *adb, int nr_of_pkts) { int offset = sizeof(struct mux_adgh); int adb_updated = -EINVAL; struct sk_buff *src_skb; int aligned_size = 0; int nr_of_skb = 0; u32 pad_len = 0; /* Re-calculate the number of packets depending on number of bytes to be * processed/available credits. */ nr_of_pkts = ipc_mux_ul_bytes_credits_check(ipc_mux, session, ul_list, nr_of_pkts); /* If calculated nr_of_pkts from available credits is <= 0 * then nothing to do. */ if (nr_of_pkts <= 0) return 0; /* Read configured UL head_pad_length for session.*/ if (session->ul_head_pad_len > IPC_MEM_DL_ETH_OFFSET) pad_len = session->ul_head_pad_len - IPC_MEM_DL_ETH_OFFSET; /* Process all pending UL packets for this session * depending on the allocated datagram table size. */ while (nr_of_pkts > 0) { /* get destination skb allocated */ if (ipc_mux_ul_adb_allocate(ipc_mux, adb, &ipc_mux->size_needed, IOSM_AGGR_MUX_SIG_ADGH)) { dev_err(ipc_mux->dev, "no reserved memory for ADGH"); return -ENOMEM; } /* Peek at the head of the list. */ src_skb = skb_peek(ul_list); if (!src_skb) { dev_err(ipc_mux->dev, "skb peek return NULL with count : %d", nr_of_pkts); break; } /* Calculate the memory value. */ aligned_size = ALIGN((pad_len + src_skb->len), 4); ipc_mux->size_needed = sizeof(struct mux_adgh) + aligned_size; if (ipc_mux->size_needed > adb->size) { dev_dbg(ipc_mux->dev, "size needed %d, adgh size %d", ipc_mux->size_needed, adb->size); /* Return 1 if any IP packet is added to the transfer * list. */ return nr_of_skb ? 1 : 0; } /* Add buffer (without head padding to next pending transfer) */ memcpy(adb->buf + offset + pad_len, src_skb->data, src_skb->len); adb->adgh->signature = cpu_to_le32(IOSM_AGGR_MUX_SIG_ADGH); adb->adgh->if_id = session_id; adb->adgh->length = cpu_to_le16(sizeof(struct mux_adgh) + pad_len + src_skb->len); adb->adgh->service_class = src_skb->priority; adb->adgh->next_count = --nr_of_pkts; adb->dg_cnt_total++; adb->payload_size += src_skb->len; if (ipc_mux->ul_flow == MUX_UL_ON_CREDITS) /* Decrement the credit value as we are processing the * datagram from the UL list. */ session->ul_flow_credits -= src_skb->len; /* Remove the processed elements and free it. */ src_skb = skb_dequeue(ul_list); dev_kfree_skb(src_skb); nr_of_skb++; ipc_mux_ul_adgh_finish(ipc_mux); } if (nr_of_skb) { /* Send QLT info to modem if pending bytes > high watermark * in case of mux lite */ if (ipc_mux->ul_flow == MUX_UL_ON_CREDITS || ipc_mux->ul_data_pend_bytes >= IPC_MEM_MUX_UL_FLOWCTRL_LOW_B) adb_updated = ipc_mux_lite_send_qlt(ipc_mux); else adb_updated = 1; /* Updates the TDs with ul_list */ (void)ipc_imem_ul_write_td(ipc_mux->imem); } return adb_updated; } /** * ipc_mux_ul_adb_update_ql - Adds Queue Level Table and Queue Level to ADB * @ipc_mux: pointer to MUX instance data * @p_adb: pointer to UL aggegated data block * @session_id: session id * @qlth_n_ql_size: Length (in bytes) of the datagram table * @ul_list: pointer to skb buffer head */ void ipc_mux_ul_adb_update_ql(struct iosm_mux *ipc_mux, struct mux_adb *p_adb, int session_id, int qlth_n_ql_size, struct sk_buff_head *ul_list) { int qlevel = ul_list->qlen; struct mux_qlth *p_qlt; p_qlt = (struct mux_qlth *)p_adb->pp_qlt[session_id]; /* Initialize QLTH if not been done */ if (p_adb->qlt_updated[session_id] == 0) { p_qlt->signature = cpu_to_le32(MUX_SIG_QLTH); p_qlt->if_id = session_id; p_qlt->table_length = cpu_to_le16(qlth_n_ql_size); p_qlt->reserved = 0; p_qlt->reserved2 = 0; } /* Update Queue Level information always */ p_qlt->ql.nr_of_bytes = cpu_to_le32(qlevel); p_adb->qlt_updated[session_id] = 1; } /* Update the next table index. */ static int mux_ul_dg_update_tbl_index(struct iosm_mux *ipc_mux, int session_id, struct sk_buff_head *ul_list, struct mux_adth_dg *dg, int aligned_size, u32 qlth_n_ql_size, struct mux_adb *adb, struct sk_buff *src_skb) { ipc_mux_ul_adb_update_ql(ipc_mux, adb, session_id, qlth_n_ql_size, ul_list); ipc_mux_ul_adb_finish(ipc_mux); if (ipc_mux_ul_adb_allocate(ipc_mux, adb, &ipc_mux->size_needed, IOSM_AGGR_MUX_SIG_ADBH)) return -ENOMEM; ipc_mux->size_needed = le32_to_cpu(adb->adbh->block_length); ipc_mux->size_needed += offsetof(struct mux_adth, dg); ipc_mux->size_needed += qlth_n_ql_size; ipc_mux->size_needed += sizeof(*dg) + aligned_size; return 0; } /* Process encode session UL data. */ static int mux_ul_dg_encode(struct iosm_mux *ipc_mux, struct mux_adb *adb, struct mux_adth_dg *dg, struct sk_buff_head *ul_list, struct sk_buff *src_skb, int session_id, int pkt_to_send, u32 qlth_n_ql_size, int *out_offset, int head_pad_len) { int aligned_size; int offset = *out_offset; unsigned long flags; int nr_of_skb = 0; while (pkt_to_send > 0) { /* Peek at the head of the list. */ src_skb = skb_peek(ul_list); if (!src_skb) { dev_err(ipc_mux->dev, "skb peek return NULL with count : %d", pkt_to_send); return -1; } aligned_size = ALIGN((head_pad_len + src_skb->len), 4); ipc_mux->size_needed += sizeof(*dg) + aligned_size; if (ipc_mux->size_needed > adb->size || ((ipc_mux->size_needed + ipc_mux->ul_data_pend_bytes) >= IPC_MEM_MUX_UL_FLOWCTRL_HIGH_B)) { *adb->next_table_index = offset; if (mux_ul_dg_update_tbl_index(ipc_mux, session_id, ul_list, dg, aligned_size, qlth_n_ql_size, adb, src_skb) < 0) return -ENOMEM; nr_of_skb = 0; offset = le32_to_cpu(adb->adbh->block_length); /* Load pointer to next available datagram entry */ dg = adb->dg[session_id] + adb->dg_count[session_id]; } /* Add buffer without head padding to next pending transfer. */ memcpy(adb->buf + offset + head_pad_len, src_skb->data, src_skb->len); /* Setup datagram entry. */ dg->datagram_index = cpu_to_le32(offset); dg->datagram_length = cpu_to_le16(src_skb->len + head_pad_len); dg->service_class = (((struct sk_buff *)src_skb)->priority); dg->reserved = 0; adb->dg_cnt_total++; adb->payload_size += le16_to_cpu(dg->datagram_length); dg++; adb->dg_count[session_id]++; offset += aligned_size; /* Remove the processed elements and free it. */ spin_lock_irqsave(&ul_list->lock, flags); src_skb = __skb_dequeue(ul_list); spin_unlock_irqrestore(&ul_list->lock, flags); dev_kfree_skb(src_skb); nr_of_skb++; pkt_to_send--; } *out_offset = offset; return nr_of_skb; } /* Process encode session UL data to ADB. */ static int mux_ul_adb_encode(struct iosm_mux *ipc_mux, int session_id, struct mux_session *session, struct sk_buff_head *ul_list, struct mux_adb *adb, int pkt_to_send) { int adb_updated = -EINVAL; int head_pad_len, offset; struct sk_buff *src_skb = NULL; struct mux_adth_dg *dg; u32 qlth_n_ql_size; /* If any of the opened session has set Flow Control ON then limit the * UL data to mux_flow_ctrl_high_thresh_b bytes */ if (ipc_mux->ul_data_pend_bytes >= IPC_MEM_MUX_UL_FLOWCTRL_HIGH_B) { ipc_mux_stop_tx_for_all_sessions(ipc_mux); return adb_updated; } qlth_n_ql_size = offsetof(struct mux_qlth, ql) + MUX_QUEUE_LEVEL * sizeof(struct mux_qlth_ql); head_pad_len = session->ul_head_pad_len; if (session->ul_head_pad_len > IPC_MEM_DL_ETH_OFFSET) head_pad_len = session->ul_head_pad_len - IPC_MEM_DL_ETH_OFFSET; if (ipc_mux_ul_adb_allocate(ipc_mux, adb, &ipc_mux->size_needed, IOSM_AGGR_MUX_SIG_ADBH)) return -ENOMEM; offset = le32_to_cpu(adb->adbh->block_length); if (ipc_mux->size_needed == 0) ipc_mux->size_needed = offset; /* Calculate the size needed for ADTH, QLTH and QL*/ if (adb->dg_count[session_id] == 0) { ipc_mux->size_needed += offsetof(struct mux_adth, dg); ipc_mux->size_needed += qlth_n_ql_size; } dg = adb->dg[session_id] + adb->dg_count[session_id]; if (mux_ul_dg_encode(ipc_mux, adb, dg, ul_list, src_skb, session_id, pkt_to_send, qlth_n_ql_size, &offset, head_pad_len) > 0) { adb_updated = 1; *adb->next_table_index = offset; ipc_mux_ul_adb_update_ql(ipc_mux, adb, session_id, qlth_n_ql_size, ul_list); adb->adbh->block_length = cpu_to_le32(offset); } return adb_updated; } bool ipc_mux_ul_data_encode(struct iosm_mux *ipc_mux) { struct sk_buff_head *ul_list; struct mux_session *session; int updated = 0; int session_id; int dg_n; int i; if (!ipc_mux || ipc_mux->state != MUX_S_ACTIVE || ipc_mux->adb_prep_ongoing) return false; ipc_mux->adb_prep_ongoing = true; for (i = 0; i < IPC_MEM_MUX_IP_SESSION_ENTRIES; i++) { session_id = ipc_mux->rr_next_session; session = &ipc_mux->session[session_id]; /* Go to next handle rr_next_session overflow */ ipc_mux->rr_next_session++; if (ipc_mux->rr_next_session >= IPC_MEM_MUX_IP_SESSION_ENTRIES) ipc_mux->rr_next_session = 0; if (!session->wwan || session->flow_ctl_mask || session->net_tx_stop) continue; ul_list = &session->ul_list; /* Is something pending in UL and flow ctrl off */ dg_n = skb_queue_len(ul_list); if (dg_n > MUX_MAX_UL_DG_ENTRIES) dg_n = MUX_MAX_UL_DG_ENTRIES; if (dg_n == 0) /* Nothing to do for ipc_mux session * -> try next session id. */ continue; if (ipc_mux->protocol == MUX_LITE) updated = ipc_mux_ul_adgh_encode(ipc_mux, session_id, session, ul_list, &ipc_mux->ul_adb, dg_n); else updated = mux_ul_adb_encode(ipc_mux, session_id, session, ul_list, &ipc_mux->ul_adb, dg_n); } ipc_mux->adb_prep_ongoing = false; return updated == 1; } /* Calculates the Payload from any given ADB. */ static int ipc_mux_get_payload_from_adb(struct iosm_mux *ipc_mux, struct mux_adbh *p_adbh) { struct mux_adth_dg *dg; struct mux_adth *adth; u32 payload_size = 0; u32 next_table_idx; int nr_of_dg, i; /* Process the aggregated datagram tables. */ next_table_idx = le32_to_cpu(p_adbh->first_table_index); if (next_table_idx < sizeof(struct mux_adbh)) { dev_err(ipc_mux->dev, "unexpected empty ADB"); return payload_size; } while (next_table_idx != 0) { /* Get the reference to the table header. */ adth = (struct mux_adth *)((u8 *)p_adbh + next_table_idx); if (adth->signature == cpu_to_le32(IOSM_AGGR_MUX_SIG_ADTH)) { nr_of_dg = (le16_to_cpu(adth->table_length) - sizeof(struct mux_adth)) / sizeof(struct mux_adth_dg); if (nr_of_dg <= 0) return payload_size; dg = adth->dg; for (i = 0; i < nr_of_dg; i++, dg++) { if (le32_to_cpu(dg->datagram_index) < sizeof(struct mux_adbh)) { return payload_size; } payload_size += le16_to_cpu(dg->datagram_length); } } next_table_idx = le32_to_cpu(adth->next_table_index); } return payload_size; } void ipc_mux_ul_encoded_process(struct iosm_mux *ipc_mux, struct sk_buff *skb) { union mux_type_header hr; u16 adgh_len; int payload; if (ipc_mux->protocol == MUX_LITE) { hr.adgh = (struct mux_adgh *)skb->data; adgh_len = le16_to_cpu(hr.adgh->length); if (hr.adgh->signature == cpu_to_le32(IOSM_AGGR_MUX_SIG_ADGH) && ipc_mux->ul_flow == MUX_UL) ipc_mux->ul_data_pend_bytes = ipc_mux->ul_data_pend_bytes - adgh_len; } else { hr.adbh = (struct mux_adbh *)(skb->data); payload = ipc_mux_get_payload_from_adb(ipc_mux, hr.adbh); ipc_mux->ul_data_pend_bytes -= payload; } if (ipc_mux->ul_flow == MUX_UL) dev_dbg(ipc_mux->dev, "ul_data_pend_bytes: %lld", ipc_mux->ul_data_pend_bytes); /* Reset the skb settings. */ skb_trim(skb, 0); /* Add the consumed ADB to the free list. */ skb_queue_tail((&ipc_mux->ul_adb.free_list), skb); } /* Start the NETIF uplink send transfer in MUX mode. */ static int ipc_mux_tq_ul_trigger_encode(struct iosm_imem *ipc_imem, int arg, void *msg, size_t size) { struct iosm_mux *ipc_mux = ipc_imem->mux; bool ul_data_pend = false; /* Add session UL data to a ADB and ADGH */ ul_data_pend = ipc_mux_ul_data_encode(ipc_mux); if (ul_data_pend) { if (ipc_mux->protocol == MUX_AGGREGATION) ipc_imem_adb_timer_start(ipc_mux->imem); /* Delay the doorbell irq */ ipc_imem_td_update_timer_start(ipc_mux->imem); } /* reset the debounce flag */ ipc_mux->ev_mux_net_transmit_pending = false; return 0; } int ipc_mux_ul_trigger_encode(struct iosm_mux *ipc_mux, int if_id, struct sk_buff *skb) { struct mux_session *session = &ipc_mux->session[if_id]; int ret = -EINVAL; if (ipc_mux->channel && ipc_mux->channel->state != IMEM_CHANNEL_ACTIVE) { dev_err(ipc_mux->dev, "channel state is not IMEM_CHANNEL_ACTIVE"); goto out; } if (!session->wwan) { dev_err(ipc_mux->dev, "session net ID is NULL"); ret = -EFAULT; goto out; } /* Session is under flow control. * Check if packet can be queued in session list, if not * suspend net tx */ if (skb_queue_len(&session->ul_list) >= (session->net_tx_stop ? IPC_MEM_MUX_UL_SESS_FCON_THRESHOLD : (IPC_MEM_MUX_UL_SESS_FCON_THRESHOLD * IPC_MEM_MUX_UL_SESS_FCOFF_THRESHOLD_FACTOR))) { ipc_mux_netif_tx_flowctrl(session, session->if_id, true); ret = -EBUSY; goto out; } /* Add skb to the uplink skb accumulator. */ skb_queue_tail(&session->ul_list, skb); /* Inform the IPC kthread to pass uplink IP packets to CP. */ if (!ipc_mux->ev_mux_net_transmit_pending) { ipc_mux->ev_mux_net_transmit_pending = true; ret = ipc_task_queue_send_task(ipc_mux->imem, ipc_mux_tq_ul_trigger_encode, 0, NULL, 0, false); if (ret) goto out; } dev_dbg(ipc_mux->dev, "mux ul if[%d] qlen=%d/%u, len=%d/%d, prio=%d", if_id, skb_queue_len(&session->ul_list), session->ul_list.qlen, skb->len, skb->truesize, skb->priority); ret = 0; out: return ret; }
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