// SPDX-License-Identifier: GPL-2.0 #include #include "wilc_wlan_if.h" #include "wilc_wlan.h" #include "wilc_wfi_netdevice.h" #include "wilc_wlan_cfg.h" static enum chip_ps_states chip_ps_state = CHIP_WAKEDUP; static inline void acquire_bus(struct wilc *wilc, enum bus_acquire acquire) { mutex_lock(&wilc->hif_cs); if (acquire == ACQUIRE_AND_WAKEUP) chip_wakeup(wilc); } static inline void release_bus(struct wilc *wilc, enum bus_release release) { if (release == RELEASE_ALLOW_SLEEP) chip_allow_sleep(wilc); mutex_unlock(&wilc->hif_cs); } static void wilc_wlan_txq_remove(struct wilc *wilc, struct txq_entry_t *tqe) { if (tqe == wilc->txq_head) { wilc->txq_head = tqe->next; if (wilc->txq_head) wilc->txq_head->prev = NULL; } else if (tqe == wilc->txq_tail) { wilc->txq_tail = (tqe->prev); if (wilc->txq_tail) wilc->txq_tail->next = NULL; } else { tqe->prev->next = tqe->next; tqe->next->prev = tqe->prev; } wilc->txq_entries -= 1; } static struct txq_entry_t * wilc_wlan_txq_remove_from_head(struct net_device *dev) { struct txq_entry_t *tqe; unsigned long flags; struct wilc_vif *vif; struct wilc *wilc; vif = netdev_priv(dev); wilc = vif->wilc; spin_lock_irqsave(&wilc->txq_spinlock, flags); if (wilc->txq_head) { tqe = wilc->txq_head; wilc->txq_head = tqe->next; if (wilc->txq_head) wilc->txq_head->prev = NULL; wilc->txq_entries -= 1; } else { tqe = NULL; } spin_unlock_irqrestore(&wilc->txq_spinlock, flags); return tqe; } static void wilc_wlan_txq_add_to_tail(struct net_device *dev, struct txq_entry_t *tqe) { unsigned long flags; struct wilc_vif *vif; struct wilc *wilc; vif = netdev_priv(dev); wilc = vif->wilc; spin_lock_irqsave(&wilc->txq_spinlock, flags); if (!wilc->txq_head) { tqe->next = NULL; tqe->prev = NULL; wilc->txq_head = tqe; wilc->txq_tail = tqe; } else { tqe->next = NULL; tqe->prev = wilc->txq_tail; wilc->txq_tail->next = tqe; wilc->txq_tail = tqe; } wilc->txq_entries += 1; spin_unlock_irqrestore(&wilc->txq_spinlock, flags); complete(&wilc->txq_event); } static int wilc_wlan_txq_add_to_head(struct wilc_vif *vif, struct txq_entry_t *tqe) { unsigned long flags; struct wilc *wilc = vif->wilc; mutex_lock(&wilc->txq_add_to_head_cs); spin_lock_irqsave(&wilc->txq_spinlock, flags); if (!wilc->txq_head) { tqe->next = NULL; tqe->prev = NULL; wilc->txq_head = tqe; wilc->txq_tail = tqe; } else { tqe->next = wilc->txq_head; tqe->prev = NULL; wilc->txq_head->prev = tqe; wilc->txq_head = tqe; } wilc->txq_entries += 1; spin_unlock_irqrestore(&wilc->txq_spinlock, flags); mutex_unlock(&wilc->txq_add_to_head_cs); complete(&wilc->txq_event); return 0; } struct ack_session_info; struct ack_session_info { u32 seq_num; u32 bigger_ack_num; u16 src_port; u16 dst_port; u16 status; }; struct pending_acks_info { u32 ack_num; u32 session_index; struct txq_entry_t *txqe; }; #define NOT_TCP_ACK (-1) #define MAX_TCP_SESSION 25 #define MAX_PENDING_ACKS 256 static struct ack_session_info ack_session_info[2 * MAX_TCP_SESSION]; static struct pending_acks_info pending_acks_info[MAX_PENDING_ACKS]; static u32 pending_base; static u32 tcp_session; static u32 pending_acks; static inline int add_tcp_session(u32 src_prt, u32 dst_prt, u32 seq) { if (tcp_session < 2 * MAX_TCP_SESSION) { ack_session_info[tcp_session].seq_num = seq; ack_session_info[tcp_session].bigger_ack_num = 0; ack_session_info[tcp_session].src_port = src_prt; ack_session_info[tcp_session].dst_port = dst_prt; tcp_session++; } return 0; } static inline int update_tcp_session(u32 index, u32 ack) { if (index < 2 * MAX_TCP_SESSION && ack > ack_session_info[index].bigger_ack_num) ack_session_info[index].bigger_ack_num = ack; return 0; } static inline int add_tcp_pending_ack(u32 ack, u32 session_index, struct txq_entry_t *txqe) { if (pending_base + pending_acks < MAX_PENDING_ACKS) { pending_acks_info[pending_base + pending_acks].ack_num = ack; pending_acks_info[pending_base + pending_acks].txqe = txqe; pending_acks_info[pending_base + pending_acks].session_index = session_index; txqe->tcp_pending_ack_idx = pending_base + pending_acks; pending_acks++; } return 0; } static inline void tcp_process(struct net_device *dev, struct txq_entry_t *tqe) { u8 *eth_hdr_ptr; u8 *buffer = tqe->buffer; unsigned short h_proto; int i; unsigned long flags; struct wilc_vif *vif; struct wilc *wilc; vif = netdev_priv(dev); wilc = vif->wilc; spin_lock_irqsave(&wilc->txq_spinlock, flags); eth_hdr_ptr = &buffer[0]; h_proto = ntohs(*((unsigned short *)ð_hdr_ptr[12])); if (h_proto == ETH_P_IP) { u8 *ip_hdr_ptr; u8 protocol; ip_hdr_ptr = &buffer[ETHERNET_HDR_LEN]; protocol = ip_hdr_ptr[9]; if (protocol == 0x06) { u8 *tcp_hdr_ptr; u32 IHL, total_length, data_offset; tcp_hdr_ptr = &ip_hdr_ptr[IP_HDR_LEN]; IHL = (ip_hdr_ptr[0] & 0xf) << 2; total_length = ((u32)ip_hdr_ptr[2] << 8) + (u32)ip_hdr_ptr[3]; data_offset = ((u32)tcp_hdr_ptr[12] & 0xf0) >> 2; if (total_length == (IHL + data_offset)) { u32 seq_no, ack_no; seq_no = ((u32)tcp_hdr_ptr[4] << 24) + ((u32)tcp_hdr_ptr[5] << 16) + ((u32)tcp_hdr_ptr[6] << 8) + (u32)tcp_hdr_ptr[7]; ack_no = ((u32)tcp_hdr_ptr[8] << 24) + ((u32)tcp_hdr_ptr[9] << 16) + ((u32)tcp_hdr_ptr[10] << 8) + (u32)tcp_hdr_ptr[11]; for (i = 0; i < tcp_session; i++) { if (i < 2 * MAX_TCP_SESSION && ack_session_info[i].seq_num == seq_no) { update_tcp_session(i, ack_no); break; } } if (i == tcp_session) add_tcp_session(0, 0, seq_no); add_tcp_pending_ack(ack_no, i, tqe); } } } spin_unlock_irqrestore(&wilc->txq_spinlock, flags); } static int wilc_wlan_txq_filter_dup_tcp_ack(struct net_device *dev) { struct wilc_vif *vif; struct wilc *wilc; u32 i = 0; u32 dropped = 0; vif = netdev_priv(dev); wilc = vif->wilc; spin_lock_irqsave(&wilc->txq_spinlock, wilc->txq_spinlock_flags); for (i = pending_base; i < (pending_base + pending_acks); i++) { if (i >= MAX_PENDING_ACKS || pending_acks_info[i].session_index >= 2 * MAX_TCP_SESSION) break; if (pending_acks_info[i].ack_num < ack_session_info[pending_acks_info[i].session_index].bigger_ack_num) { struct txq_entry_t *tqe; tqe = pending_acks_info[i].txqe; if (tqe) { wilc_wlan_txq_remove(wilc, tqe); tqe->status = 1; if (tqe->tx_complete_func) tqe->tx_complete_func(tqe->priv, tqe->status); kfree(tqe); dropped++; } } } pending_acks = 0; tcp_session = 0; if (pending_base == 0) pending_base = MAX_TCP_SESSION; else pending_base = 0; spin_unlock_irqrestore(&wilc->txq_spinlock, wilc->txq_spinlock_flags); while (dropped > 0) { wait_for_completion_timeout(&wilc->txq_event, msecs_to_jiffies(1)); dropped--; } return 1; } static bool enabled; void wilc_enable_tcp_ack_filter(bool value) { enabled = value; } static int wilc_wlan_txq_add_cfg_pkt(struct wilc_vif *vif, u8 *buffer, u32 buffer_size) { struct txq_entry_t *tqe; struct wilc *wilc = vif->wilc; netdev_dbg(vif->ndev, "Adding config packet ...\n"); if (wilc->quit) { netdev_dbg(vif->ndev, "Return due to clear function\n"); complete(&wilc->cfg_event); return 0; } tqe = kmalloc(sizeof(*tqe), GFP_ATOMIC); if (!tqe) return 0; tqe->type = WILC_CFG_PKT; tqe->buffer = buffer; tqe->buffer_size = buffer_size; tqe->tx_complete_func = NULL; tqe->priv = NULL; tqe->tcp_pending_ack_idx = NOT_TCP_ACK; if (wilc_wlan_txq_add_to_head(vif, tqe)) { kfree(tqe); return 0; } return 1; } int wilc_wlan_txq_add_net_pkt(struct net_device *dev, void *priv, u8 *buffer, u32 buffer_size, wilc_tx_complete_func_t func) { struct txq_entry_t *tqe; struct wilc_vif *vif = netdev_priv(dev); struct wilc *wilc; wilc = vif->wilc; if (wilc->quit) return 0; tqe = kmalloc(sizeof(*tqe), GFP_ATOMIC); if (!tqe) return 0; tqe->type = WILC_NET_PKT; tqe->buffer = buffer; tqe->buffer_size = buffer_size; tqe->tx_complete_func = func; tqe->priv = priv; tqe->tcp_pending_ack_idx = NOT_TCP_ACK; if (enabled) tcp_process(dev, tqe); wilc_wlan_txq_add_to_tail(dev, tqe); return wilc->txq_entries; } int wilc_wlan_txq_add_mgmt_pkt(struct net_device *dev, void *priv, u8 *buffer, u32 buffer_size, wilc_tx_complete_func_t func) { struct txq_entry_t *tqe; struct wilc_vif *vif = netdev_priv(dev); struct wilc *wilc; wilc = vif->wilc; if (wilc->quit) return 0; tqe = kmalloc(sizeof(*tqe), GFP_KERNEL); if (!tqe) return 0; tqe->type = WILC_MGMT_PKT; tqe->buffer = buffer; tqe->buffer_size = buffer_size; tqe->tx_complete_func = func; tqe->priv = priv; tqe->tcp_pending_ack_idx = NOT_TCP_ACK; wilc_wlan_txq_add_to_tail(dev, tqe); return 1; } static struct txq_entry_t *wilc_wlan_txq_get_first(struct wilc *wilc) { struct txq_entry_t *tqe; unsigned long flags; spin_lock_irqsave(&wilc->txq_spinlock, flags); tqe = wilc->txq_head; spin_unlock_irqrestore(&wilc->txq_spinlock, flags); return tqe; } static struct txq_entry_t *wilc_wlan_txq_get_next(struct wilc *wilc, struct txq_entry_t *tqe) { unsigned long flags; spin_lock_irqsave(&wilc->txq_spinlock, flags); tqe = tqe->next; spin_unlock_irqrestore(&wilc->txq_spinlock, flags); return tqe; } static int wilc_wlan_rxq_add(struct wilc *wilc, struct rxq_entry_t *rqe) { if (wilc->quit) return 0; mutex_lock(&wilc->rxq_cs); if (!wilc->rxq_head) { rqe->next = NULL; wilc->rxq_head = rqe; wilc->rxq_tail = rqe; } else { wilc->rxq_tail->next = rqe; rqe->next = NULL; wilc->rxq_tail = rqe; } wilc->rxq_entries += 1; mutex_unlock(&wilc->rxq_cs); return wilc->rxq_entries; } static struct rxq_entry_t *wilc_wlan_rxq_remove(struct wilc *wilc) { if (wilc->rxq_head) { struct rxq_entry_t *rqe; mutex_lock(&wilc->rxq_cs); rqe = wilc->rxq_head; wilc->rxq_head = wilc->rxq_head->next; wilc->rxq_entries -= 1; mutex_unlock(&wilc->rxq_cs); return rqe; } return NULL; } void chip_allow_sleep(struct wilc *wilc) { u32 reg = 0; wilc->hif_func->hif_read_reg(wilc, 0xf0, ®); wilc->hif_func->hif_write_reg(wilc, 0xf0, reg & ~BIT(0)); wilc->hif_func->hif_write_reg(wilc, 0xfa, 0); } EXPORT_SYMBOL_GPL(chip_allow_sleep); void chip_wakeup(struct wilc *wilc) { u32 reg, clk_status_reg; if ((wilc->io_type & 0x1) == HIF_SPI) { do { wilc->hif_func->hif_read_reg(wilc, 1, ®); wilc->hif_func->hif_write_reg(wilc, 1, reg | BIT(1)); wilc->hif_func->hif_write_reg(wilc, 1, reg & ~BIT(1)); do { usleep_range(2 * 1000, 2 * 1000); wilc_get_chipid(wilc, true); } while (wilc_get_chipid(wilc, true) == 0); } while (wilc_get_chipid(wilc, true) == 0); } else if ((wilc->io_type & 0x1) == HIF_SDIO) { wilc->hif_func->hif_write_reg(wilc, 0xfa, 1); udelay(200); wilc->hif_func->hif_read_reg(wilc, 0xf0, ®); do { wilc->hif_func->hif_write_reg(wilc, 0xf0, reg | BIT(0)); wilc->hif_func->hif_read_reg(wilc, 0xf1, &clk_status_reg); while ((clk_status_reg & 0x1) == 0) { usleep_range(2 * 1000, 2 * 1000); wilc->hif_func->hif_read_reg(wilc, 0xf1, &clk_status_reg); } if ((clk_status_reg & 0x1) == 0) { wilc->hif_func->hif_write_reg(wilc, 0xf0, reg & (~BIT(0))); } } while ((clk_status_reg & 0x1) == 0); } if (chip_ps_state == CHIP_SLEEPING_MANUAL) { if (wilc_get_chipid(wilc, false) < 0x1002b0) { u32 val32; wilc->hif_func->hif_read_reg(wilc, 0x1e1c, &val32); val32 |= BIT(6); wilc->hif_func->hif_write_reg(wilc, 0x1e1c, val32); wilc->hif_func->hif_read_reg(wilc, 0x1e9c, &val32); val32 |= BIT(6); wilc->hif_func->hif_write_reg(wilc, 0x1e9c, val32); } } chip_ps_state = CHIP_WAKEDUP; } EXPORT_SYMBOL_GPL(chip_wakeup); void wilc_chip_sleep_manually(struct wilc *wilc) { if (chip_ps_state != CHIP_WAKEDUP) return; acquire_bus(wilc, ACQUIRE_ONLY); chip_allow_sleep(wilc); wilc->hif_func->hif_write_reg(wilc, 0x10a8, 1); chip_ps_state = CHIP_SLEEPING_MANUAL; release_bus(wilc, RELEASE_ONLY); } EXPORT_SYMBOL_GPL(wilc_chip_sleep_manually); void host_wakeup_notify(struct wilc *wilc) { acquire_bus(wilc, ACQUIRE_ONLY); wilc->hif_func->hif_write_reg(wilc, 0x10b0, 1); release_bus(wilc, RELEASE_ONLY); } EXPORT_SYMBOL_GPL(host_wakeup_notify); void host_sleep_notify(struct wilc *wilc) { acquire_bus(wilc, ACQUIRE_ONLY); wilc->hif_func->hif_write_reg(wilc, 0x10ac, 1); release_bus(wilc, RELEASE_ONLY); } EXPORT_SYMBOL_GPL(host_sleep_notify); int wilc_wlan_handle_txq(struct net_device *dev, u32 *txq_count) { int i, entries = 0; u32 sum; u32 reg; u8 *txb; u32 offset = 0; int vmm_sz = 0; struct txq_entry_t *tqe; int ret = 0; int counter; int timeout; u32 vmm_table[WILC_VMM_TBL_SIZE]; struct wilc_vif *vif; struct wilc *wilc; vif = netdev_priv(dev); wilc = vif->wilc; txb = wilc->tx_buffer; wilc->txq_exit = 0; do { if (wilc->quit) break; mutex_lock(&wilc->txq_add_to_head_cs); wilc_wlan_txq_filter_dup_tcp_ack(dev); tqe = wilc_wlan_txq_get_first(wilc); i = 0; sum = 0; do { if (tqe && (i < (WILC_VMM_TBL_SIZE - 1))) { if (tqe->type == WILC_CFG_PKT) vmm_sz = ETH_CONFIG_PKT_HDR_OFFSET; else if (tqe->type == WILC_NET_PKT) vmm_sz = ETH_ETHERNET_HDR_OFFSET; else vmm_sz = HOST_HDR_OFFSET; vmm_sz += tqe->buffer_size; if (vmm_sz & 0x3) vmm_sz = (vmm_sz + 4) & ~0x3; if ((sum + vmm_sz) > LINUX_TX_SIZE) break; vmm_table[i] = vmm_sz / 4; if (tqe->type == WILC_CFG_PKT) vmm_table[i] |= BIT(10); vmm_table[i] = cpu_to_le32(vmm_table[i]); i++; sum += vmm_sz; tqe = wilc_wlan_txq_get_next(wilc, tqe); } else { break; } } while (1); if (i == 0) break; vmm_table[i] = 0x0; acquire_bus(wilc, ACQUIRE_AND_WAKEUP); counter = 0; do { ret = wilc->hif_func->hif_read_reg(wilc, WILC_HOST_TX_CTRL, ®); if (!ret) break; if ((reg & 0x1) == 0) break; counter++; if (counter > 200) { counter = 0; ret = wilc->hif_func->hif_write_reg(wilc, WILC_HOST_TX_CTRL, 0); break; } } while (!wilc->quit); if (!ret) goto _end_; timeout = 200; do { ret = wilc->hif_func->hif_block_tx(wilc, WILC_VMM_TBL_RX_SHADOW_BASE, (u8 *)vmm_table, ((i + 1) * 4)); if (!ret) break; ret = wilc->hif_func->hif_write_reg(wilc, WILC_HOST_VMM_CTL, 0x2); if (!ret) break; do { ret = wilc->hif_func->hif_read_reg(wilc, WILC_HOST_VMM_CTL, ®); if (!ret) break; if ((reg >> 2) & 0x1) { entries = ((reg >> 3) & 0x3f); break; } release_bus(wilc, RELEASE_ALLOW_SLEEP); } while (--timeout); if (timeout <= 0) { ret = wilc->hif_func->hif_write_reg(wilc, WILC_HOST_VMM_CTL, 0x0); break; } if (!ret) break; if (entries == 0) { ret = wilc->hif_func->hif_read_reg(wilc, WILC_HOST_TX_CTRL, ®); if (!ret) break; reg &= ~BIT(0); ret = wilc->hif_func->hif_write_reg(wilc, WILC_HOST_TX_CTRL, reg); if (!ret) break; break; } break; } while (1); if (!ret) goto _end_; if (entries == 0) { ret = WILC_TX_ERR_NO_BUF; goto _end_; } release_bus(wilc, RELEASE_ALLOW_SLEEP); offset = 0; i = 0; do { tqe = wilc_wlan_txq_remove_from_head(dev); if (tqe && vmm_table[i] != 0) { u32 header, buffer_offset; vmm_table[i] = cpu_to_le32(vmm_table[i]); vmm_sz = (vmm_table[i] & 0x3ff); vmm_sz *= 4; header = (tqe->type << 31) | (tqe->buffer_size << 15) | vmm_sz; if (tqe->type == WILC_MGMT_PKT) header |= BIT(30); else header &= ~BIT(30); header = cpu_to_le32(header); memcpy(&txb[offset], &header, 4); if (tqe->type == WILC_CFG_PKT) { buffer_offset = ETH_CONFIG_PKT_HDR_OFFSET; } else if (tqe->type == WILC_NET_PKT) { char *bssid = ((struct tx_complete_data *)(tqe->priv))->bssid; buffer_offset = ETH_ETHERNET_HDR_OFFSET; memcpy(&txb[offset + 8], bssid, 6); } else { buffer_offset = HOST_HDR_OFFSET; } memcpy(&txb[offset + buffer_offset], tqe->buffer, tqe->buffer_size); offset += vmm_sz; i++; tqe->status = 1; if (tqe->tx_complete_func) tqe->tx_complete_func(tqe->priv, tqe->status); if (tqe->tcp_pending_ack_idx != NOT_TCP_ACK && tqe->tcp_pending_ack_idx < MAX_PENDING_ACKS) pending_acks_info[tqe->tcp_pending_ack_idx].txqe = NULL; kfree(tqe); } else { break; } } while (--entries); acquire_bus(wilc, ACQUIRE_AND_WAKEUP); ret = wilc->hif_func->hif_clear_int_ext(wilc, ENABLE_TX_VMM); if (!ret) goto _end_; ret = wilc->hif_func->hif_block_tx_ext(wilc, 0, txb, offset); if (!ret) goto _end_; _end_: release_bus(wilc, RELEASE_ALLOW_SLEEP); if (ret != 1) break; } while (0); mutex_unlock(&wilc->txq_add_to_head_cs); wilc->txq_exit = 1; *txq_count = wilc->txq_entries; return ret; } static void wilc_wlan_handle_rxq(struct wilc *wilc) { int offset = 0, size; u8 *buffer; struct rxq_entry_t *rqe; wilc->rxq_exit = 0; do { if (wilc->quit) { complete(&wilc->cfg_event); break; } rqe = wilc_wlan_rxq_remove(wilc); if (!rqe) break; buffer = rqe->buffer; size = rqe->buffer_size; offset = 0; do { u32 header; u32 pkt_len, pkt_offset, tp_len; int is_cfg_packet; memcpy(&header, &buffer[offset], 4); header = cpu_to_le32(header); is_cfg_packet = (header >> 31) & 0x1; pkt_offset = (header >> 22) & 0x1ff; tp_len = (header >> 11) & 0x7ff; pkt_len = header & 0x7ff; if (pkt_len == 0 || tp_len == 0) break; #define IS_MANAGMEMENT 0x100 #define IS_MANAGMEMENT_CALLBACK 0x080 #define IS_MGMT_STATUS_SUCCES 0x040 if (pkt_offset & IS_MANAGMEMENT) { pkt_offset &= ~(IS_MANAGMEMENT | IS_MANAGMEMENT_CALLBACK | IS_MGMT_STATUS_SUCCES); WILC_WFI_mgmt_rx(wilc, &buffer[offset + HOST_HDR_OFFSET], pkt_len); } else { if (!is_cfg_packet) { if (pkt_len > 0) { wilc_frmw_to_linux(wilc, &buffer[offset], pkt_len, pkt_offset); } } else { struct wilc_cfg_rsp rsp; wilc_wlan_cfg_indicate_rx(wilc, &buffer[pkt_offset + offset], pkt_len, &rsp); if (rsp.type == WILC_CFG_RSP) { if (wilc->cfg_seq_no == rsp.seq_no) complete(&wilc->cfg_event); } else if (rsp.type == WILC_CFG_RSP_STATUS) { wilc_mac_indicate(wilc, WILC_MAC_INDICATE_STATUS); } else if (rsp.type == WILC_CFG_RSP_SCAN) { wilc_mac_indicate(wilc, WILC_MAC_INDICATE_SCAN); } } } offset += tp_len; if (offset >= size) break; } while (1); kfree(rqe); } while (1); wilc->rxq_exit = 1; } static void wilc_unknown_isr_ext(struct wilc *wilc) { wilc->hif_func->hif_clear_int_ext(wilc, 0); } static void wilc_pllupdate_isr_ext(struct wilc *wilc, u32 int_stats) { int trials = 10; wilc->hif_func->hif_clear_int_ext(wilc, PLL_INT_CLR); if (wilc->io_type == HIF_SDIO) mdelay(WILC_PLL_TO_SDIO); else mdelay(WILC_PLL_TO_SPI); while (!(ISWILC1000(wilc_get_chipid(wilc, true)) && --trials)) mdelay(1); } static void wilc_sleeptimer_isr_ext(struct wilc *wilc, u32 int_stats1) { wilc->hif_func->hif_clear_int_ext(wilc, SLEEP_INT_CLR); } static void wilc_wlan_handle_isr_ext(struct wilc *wilc, u32 int_status) { u32 offset = wilc->rx_buffer_offset; u8 *buffer = NULL; u32 size; u32 retries = 0; int ret = 0; struct rxq_entry_t *rqe; size = (int_status & 0x7fff) << 2; while (!size && retries < 10) { wilc->hif_func->hif_read_size(wilc, &size); size = (size & 0x7fff) << 2; retries++; } if (size > 0) { if (LINUX_RX_SIZE - offset < size) offset = 0; if (wilc->rx_buffer) buffer = &wilc->rx_buffer[offset]; else goto _end_; wilc->hif_func->hif_clear_int_ext(wilc, DATA_INT_CLR | ENABLE_RX_VMM); ret = wilc->hif_func->hif_block_rx_ext(wilc, 0, buffer, size); _end_: if (ret) { offset += size; wilc->rx_buffer_offset = offset; rqe = kmalloc(sizeof(*rqe), GFP_KERNEL); if (rqe) { rqe->buffer = buffer; rqe->buffer_size = size; wilc_wlan_rxq_add(wilc, rqe); } } } wilc_wlan_handle_rxq(wilc); } void wilc_handle_isr(struct wilc *wilc) { u32 int_status; acquire_bus(wilc, ACQUIRE_AND_WAKEUP); wilc->hif_func->hif_read_int(wilc, &int_status); if (int_status & PLL_INT_EXT) wilc_pllupdate_isr_ext(wilc, int_status); if (int_status & DATA_INT_EXT) wilc_wlan_handle_isr_ext(wilc, int_status); if (int_status & SLEEP_INT_EXT) wilc_sleeptimer_isr_ext(wilc, int_status); if (!(int_status & (ALL_INT_EXT))) wilc_unknown_isr_ext(wilc); release_bus(wilc, RELEASE_ALLOW_SLEEP); } EXPORT_SYMBOL_GPL(wilc_handle_isr); int wilc_wlan_firmware_download(struct wilc *wilc, const u8 *buffer, u32 buffer_size) { u32 offset; u32 addr, size, size2, blksz; u8 *dma_buffer; int ret = 0; blksz = BIT(12); dma_buffer = kmalloc(blksz, GFP_KERNEL); if (!dma_buffer) return -EIO; offset = 0; do { memcpy(&addr, &buffer[offset], 4); memcpy(&size, &buffer[offset + 4], 4); addr = cpu_to_le32(addr); size = cpu_to_le32(size); acquire_bus(wilc, ACQUIRE_ONLY); offset += 8; while (((int)size) && (offset < buffer_size)) { if (size <= blksz) size2 = size; else size2 = blksz; memcpy(dma_buffer, &buffer[offset], size2); ret = wilc->hif_func->hif_block_tx(wilc, addr, dma_buffer, size2); if (!ret) break; addr += size2; offset += size2; size -= size2; } release_bus(wilc, RELEASE_ONLY); if (!ret) { ret = -EIO; goto _fail_; } } while (offset < buffer_size); _fail_: kfree(dma_buffer); return (ret < 0) ? ret : 0; } int wilc_wlan_start(struct wilc *wilc) { u32 reg = 0; int ret; u32 chipid; if (wilc->io_type == HIF_SDIO) { reg = 0; reg |= BIT(3); } else if (wilc->io_type == HIF_SPI) { reg = 1; } acquire_bus(wilc, ACQUIRE_ONLY); ret = wilc->hif_func->hif_write_reg(wilc, WILC_VMM_CORE_CFG, reg); if (!ret) { release_bus(wilc, RELEASE_ONLY); return -EIO; } reg = 0; if (wilc->io_type == HIF_SDIO && wilc->dev_irq_num) reg |= WILC_HAVE_SDIO_IRQ_GPIO; #ifdef WILC_DISABLE_PMU #else reg |= WILC_HAVE_USE_PMU; #endif #ifdef WILC_SLEEP_CLK_SRC_XO reg |= WILC_HAVE_SLEEP_CLK_SRC_XO; #elif defined WILC_SLEEP_CLK_SRC_RTC reg |= WILC_HAVE_SLEEP_CLK_SRC_RTC; #endif #ifdef WILC_EXT_PA_INV_TX_RX reg |= WILC_HAVE_EXT_PA_INV_TX_RX; #endif reg |= WILC_HAVE_USE_IRQ_AS_HOST_WAKE; reg |= WILC_HAVE_LEGACY_RF_SETTINGS; #ifdef XTAL_24 reg |= WILC_HAVE_XTAL_24; #endif #ifdef DISABLE_WILC_UART reg |= WILC_HAVE_DISABLE_WILC_UART; #endif ret = wilc->hif_func->hif_write_reg(wilc, WILC_GP_REG_1, reg); if (!ret) { release_bus(wilc, RELEASE_ONLY); return -EIO; } wilc->hif_func->hif_sync_ext(wilc, NUM_INT_EXT); ret = wilc->hif_func->hif_read_reg(wilc, 0x1000, &chipid); if (!ret) { release_bus(wilc, RELEASE_ONLY); return -EIO; } wilc->hif_func->hif_read_reg(wilc, WILC_GLB_RESET_0, ®); if ((reg & BIT(10)) == BIT(10)) { reg &= ~BIT(10); wilc->hif_func->hif_write_reg(wilc, WILC_GLB_RESET_0, reg); wilc->hif_func->hif_read_reg(wilc, WILC_GLB_RESET_0, ®); } reg |= BIT(10); ret = wilc->hif_func->hif_write_reg(wilc, WILC_GLB_RESET_0, reg); wilc->hif_func->hif_read_reg(wilc, WILC_GLB_RESET_0, ®); release_bus(wilc, RELEASE_ONLY); return (ret < 0) ? ret : 0; } int wilc_wlan_stop(struct wilc *wilc) { u32 reg = 0; int ret; u8 timeout = 10; acquire_bus(wilc, ACQUIRE_AND_WAKEUP); ret = wilc->hif_func->hif_read_reg(wilc, WILC_GLB_RESET_0, ®); if (!ret) { release_bus(wilc, RELEASE_ALLOW_SLEEP); return ret; } reg &= ~BIT(10); ret = wilc->hif_func->hif_write_reg(wilc, WILC_GLB_RESET_0, reg); if (!ret) { release_bus(wilc, RELEASE_ALLOW_SLEEP); return ret; } do { ret = wilc->hif_func->hif_read_reg(wilc, WILC_GLB_RESET_0, ®); if (!ret) { release_bus(wilc, RELEASE_ALLOW_SLEEP); return ret; } if ((reg & BIT(10))) { reg &= ~BIT(10); ret = wilc->hif_func->hif_write_reg(wilc, WILC_GLB_RESET_0, reg); timeout--; } else { ret = wilc->hif_func->hif_read_reg(wilc, WILC_GLB_RESET_0, ®); if (!ret) { release_bus(wilc, RELEASE_ALLOW_SLEEP); return ret; } break; } } while (timeout); reg = (BIT(0) | BIT(1) | BIT(2) | BIT(3) | BIT(8) | BIT(9) | BIT(26) | BIT(29) | BIT(30) | BIT(31)); wilc->hif_func->hif_write_reg(wilc, WILC_GLB_RESET_0, reg); reg = (u32)~BIT(10); ret = wilc->hif_func->hif_write_reg(wilc, WILC_GLB_RESET_0, reg); release_bus(wilc, RELEASE_ALLOW_SLEEP); return ret; } void wilc_wlan_cleanup(struct net_device *dev) { struct txq_entry_t *tqe; struct rxq_entry_t *rqe; u32 reg = 0; int ret; struct wilc_vif *vif; struct wilc *wilc; vif = netdev_priv(dev); wilc = vif->wilc; wilc->quit = 1; do { tqe = wilc_wlan_txq_remove_from_head(dev); if (!tqe) break; if (tqe->tx_complete_func) tqe->tx_complete_func(tqe->priv, 0); kfree(tqe); } while (1); do { rqe = wilc_wlan_rxq_remove(wilc); if (!rqe) break; kfree(rqe); } while (1); kfree(wilc->rx_buffer); wilc->rx_buffer = NULL; kfree(wilc->tx_buffer); wilc->tx_buffer = NULL; acquire_bus(wilc, ACQUIRE_AND_WAKEUP); ret = wilc->hif_func->hif_read_reg(wilc, WILC_GP_REG_0, ®); if (!ret) release_bus(wilc, RELEASE_ALLOW_SLEEP); ret = wilc->hif_func->hif_write_reg(wilc, WILC_GP_REG_0, (reg | ABORT_INT)); if (!ret) release_bus(wilc, RELEASE_ALLOW_SLEEP); release_bus(wilc, RELEASE_ALLOW_SLEEP); wilc->hif_func->hif_deinit(NULL); } static int wilc_wlan_cfg_commit(struct wilc_vif *vif, int type, u32 drv_handler) { struct wilc *wilc = vif->wilc; struct wilc_cfg_frame *cfg = &wilc->cfg_frame; int total_len = wilc->cfg_frame_offset + 4 + DRIVER_HANDLER_SIZE; int seq_no = wilc->cfg_seq_no % 256; int driver_handler = (u32)drv_handler; if (type == WILC_CFG_SET) cfg->wid_header[0] = 'W'; else cfg->wid_header[0] = 'Q'; cfg->wid_header[1] = seq_no; cfg->wid_header[2] = (u8)total_len; cfg->wid_header[3] = (u8)(total_len >> 8); cfg->wid_header[4] = (u8)driver_handler; cfg->wid_header[5] = (u8)(driver_handler >> 8); cfg->wid_header[6] = (u8)(driver_handler >> 16); cfg->wid_header[7] = (u8)(driver_handler >> 24); wilc->cfg_seq_no = seq_no; if (!wilc_wlan_txq_add_cfg_pkt(vif, &cfg->wid_header[0], total_len)) return -1; return 0; } int wilc_wlan_cfg_set(struct wilc_vif *vif, int start, u16 wid, u8 *buffer, u32 buffer_size, int commit, u32 drv_handler) { u32 offset; int ret_size; struct wilc *wilc = vif->wilc; if (wilc->cfg_frame_in_use) return 0; if (start) wilc->cfg_frame_offset = 0; offset = wilc->cfg_frame_offset; ret_size = wilc_wlan_cfg_set_wid(wilc->cfg_frame.frame, offset, wid, buffer, buffer_size); offset += ret_size; wilc->cfg_frame_offset = offset; if (commit) { netdev_dbg(vif->ndev, "[WILC]PACKET Commit with sequence number %d\n", wilc->cfg_seq_no); netdev_dbg(vif->ndev, "Processing cfg_set()\n"); wilc->cfg_frame_in_use = 1; if (wilc_wlan_cfg_commit(vif, WILC_CFG_SET, drv_handler)) ret_size = 0; if (!wait_for_completion_timeout(&wilc->cfg_event, msecs_to_jiffies(CFG_PKTS_TIMEOUT))) { netdev_dbg(vif->ndev, "Set Timed Out\n"); ret_size = 0; } wilc->cfg_frame_in_use = 0; wilc->cfg_frame_offset = 0; wilc->cfg_seq_no += 1; } return ret_size; } int wilc_wlan_cfg_get(struct wilc_vif *vif, int start, u16 wid, int commit, u32 drv_handler) { u32 offset; int ret_size; struct wilc *wilc = vif->wilc; if (wilc->cfg_frame_in_use) return 0; if (start) wilc->cfg_frame_offset = 0; offset = wilc->cfg_frame_offset; ret_size = wilc_wlan_cfg_get_wid(wilc->cfg_frame.frame, offset, wid); offset += ret_size; wilc->cfg_frame_offset = offset; if (commit) { wilc->cfg_frame_in_use = 1; if (wilc_wlan_cfg_commit(vif, WILC_CFG_QUERY, drv_handler)) ret_size = 0; if (!wait_for_completion_timeout(&wilc->cfg_event, msecs_to_jiffies(CFG_PKTS_TIMEOUT))) { netdev_dbg(vif->ndev, "Get Timed Out\n"); ret_size = 0; } wilc->cfg_frame_in_use = 0; wilc->cfg_frame_offset = 0; wilc->cfg_seq_no += 1; } return ret_size; } int wilc_wlan_cfg_get_val(u16 wid, u8 *buffer, u32 buffer_size) { return wilc_wlan_cfg_get_wid_value(wid, buffer, buffer_size); } int wilc_send_config_pkt(struct wilc_vif *vif, u8 mode, struct wid *wids, u32 count, u32 drv) { int i; int ret = 0; if (mode == GET_CFG) { for (i = 0; i < count; i++) { if (!wilc_wlan_cfg_get(vif, !i, wids[i].id, (i == count - 1), drv)) { ret = -ETIMEDOUT; break; } } for (i = 0; i < count; i++) { wids[i].size = wilc_wlan_cfg_get_val(wids[i].id, wids[i].val, wids[i].size); } } else if (mode == SET_CFG) { for (i = 0; i < count; i++) { if (!wilc_wlan_cfg_set(vif, !i, wids[i].id, wids[i].val, wids[i].size, (i == count - 1), drv)) { ret = -ETIMEDOUT; break; } } } return ret; } static u32 init_chip(struct net_device *dev) { u32 chipid; u32 reg, ret = 0; struct wilc_vif *vif; struct wilc *wilc; vif = netdev_priv(dev); wilc = vif->wilc; acquire_bus(wilc, ACQUIRE_ONLY); chipid = wilc_get_chipid(wilc, true); if ((chipid & 0xfff) != 0xa0) { ret = wilc->hif_func->hif_read_reg(wilc, 0x1118, ®); if (!ret) { netdev_err(dev, "fail read reg 0x1118\n"); return ret; } reg |= BIT(0); ret = wilc->hif_func->hif_write_reg(wilc, 0x1118, reg); if (!ret) { netdev_err(dev, "fail write reg 0x1118\n"); return ret; } ret = wilc->hif_func->hif_write_reg(wilc, 0xc0000, 0x71); if (!ret) { netdev_err(dev, "fail write reg 0xc0000\n"); return ret; } } release_bus(wilc, RELEASE_ONLY); return ret; } u32 wilc_get_chipid(struct wilc *wilc, bool update) { static u32 chipid; u32 tempchipid = 0; u32 rfrevid = 0; if (chipid == 0 || update) { wilc->hif_func->hif_read_reg(wilc, 0x1000, &tempchipid); wilc->hif_func->hif_read_reg(wilc, 0x13f4, &rfrevid); if (!ISWILC1000(tempchipid)) { chipid = 0; return chipid; } if (tempchipid == 0x1002a0) { if (rfrevid != 0x1) tempchipid = 0x1002a1; } else if (tempchipid == 0x1002b0) { if (rfrevid == 0x4) tempchipid = 0x1002b1; else if (rfrevid != 0x3) tempchipid = 0x1002b2; } chipid = tempchipid; } return chipid; } int wilc_wlan_init(struct net_device *dev) { int ret = 0; struct wilc_vif *vif = netdev_priv(dev); struct wilc *wilc; wilc = vif->wilc; wilc->quit = 0; if (!wilc->hif_func->hif_init(wilc, false)) { ret = -EIO; goto _fail_; } if (!wilc_wlan_cfg_init()) { ret = -ENOBUFS; goto _fail_; } if (!wilc->tx_buffer) wilc->tx_buffer = kmalloc(LINUX_TX_SIZE, GFP_KERNEL); if (!wilc->tx_buffer) { ret = -ENOBUFS; goto _fail_; } if (!wilc->rx_buffer) wilc->rx_buffer = kmalloc(LINUX_RX_SIZE, GFP_KERNEL); if (!wilc->rx_buffer) { ret = -ENOBUFS; goto _fail_; } if (!init_chip(dev)) { ret = -EIO; goto _fail_; } return 1; _fail_: kfree(wilc->rx_buffer); wilc->rx_buffer = NULL; kfree(wilc->tx_buffer); wilc->tx_buffer = NULL; return ret; }