/* * Driver for KeyStream, KS7010 based SDIO cards. * * Copyright (C) 2006-2008 KeyStream Corp. * Copyright (C) 2009 Renesas Technology Corp. * Copyright (C) 2016 Sang Engineering, Wolfram Sang * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as * published by the Free Software Foundation. */ #include #include #include #include #include #include "ks_wlan.h" #include "ks_wlan_ioctl.h" #include "ks_hostif.h" #include "ks7010_sdio.h" #define KS7010_FUNC_NUM 1 #define KS7010_IO_BLOCK_SIZE 512 #define KS7010_MAX_CLOCK 25000000 static const struct sdio_device_id ks7010_sdio_ids[] = { {SDIO_DEVICE(SDIO_VENDOR_ID_KS_CODE_A, SDIO_DEVICE_ID_KS_7010)}, {SDIO_DEVICE(SDIO_VENDOR_ID_KS_CODE_B, SDIO_DEVICE_ID_KS_7010)}, { /* all zero */ } }; MODULE_DEVICE_TABLE(sdio, ks7010_sdio_ids); /* macro */ #define inc_txqhead(priv) \ (priv->tx_dev.qhead = (priv->tx_dev.qhead + 1) % TX_DEVICE_BUFF_SIZE) #define inc_txqtail(priv) \ (priv->tx_dev.qtail = (priv->tx_dev.qtail + 1) % TX_DEVICE_BUFF_SIZE) #define cnt_txqbody(priv) \ (((priv->tx_dev.qtail + TX_DEVICE_BUFF_SIZE) - (priv->tx_dev.qhead)) % TX_DEVICE_BUFF_SIZE) #define inc_rxqhead(priv) \ (priv->rx_dev.qhead = (priv->rx_dev.qhead + 1) % RX_DEVICE_BUFF_SIZE) #define inc_rxqtail(priv) \ (priv->rx_dev.qtail = (priv->rx_dev.qtail + 1) % RX_DEVICE_BUFF_SIZE) #define cnt_rxqbody(priv) \ (((priv->rx_dev.qtail + RX_DEVICE_BUFF_SIZE) - (priv->rx_dev.qhead)) % RX_DEVICE_BUFF_SIZE) static int ks7010_sdio_read(struct ks_wlan_private *priv, unsigned int address, unsigned char *buffer, int length) { struct ks_sdio_card *card; int rc; card = priv->ks_wlan_hw.sdio_card; if (length == 1) /* CMD52 */ *buffer = sdio_readb(card->func, address, &rc); else /* CMD53 multi-block transfer */ rc = sdio_memcpy_fromio(card->func, buffer, address, length); if (rc != 0) DPRINTK(1, "sdio error=%d size=%d\n", rc, length); return rc; } static int ks7010_sdio_write(struct ks_wlan_private *priv, unsigned int address, unsigned char *buffer, int length) { struct ks_sdio_card *card; int rc; card = priv->ks_wlan_hw.sdio_card; if (length == 1) /* CMD52 */ sdio_writeb(card->func, *buffer, (unsigned int)address, &rc); else /* CMD53 */ rc = sdio_memcpy_toio(card->func, (unsigned int)address, buffer, length); if (rc != 0) DPRINTK(1, "sdio error=%d size=%d\n", rc, length); return rc; } static void ks_wlan_hw_sleep_doze_request(struct ks_wlan_private *priv) { unsigned char rw_data; int retval; DPRINTK(4, "\n"); /* clear request */ atomic_set(&priv->sleepstatus.doze_request, 0); if (atomic_read(&priv->sleepstatus.status) == 0) { rw_data = GCR_B_DOZE; retval = ks7010_sdio_write(priv, GCR_B, &rw_data, sizeof(rw_data)); if (retval) { DPRINTK(1, " error : GCR_B=%02X\n", rw_data); goto out; } DPRINTK(4, "PMG SET!! : GCR_B=%02X\n", rw_data); DPRINTK(3, "sleep_mode=SLP_SLEEP\n"); atomic_set(&priv->sleepstatus.status, 1); priv->last_doze = jiffies; } else { DPRINTK(1, "sleep_mode=%d\n", priv->sleep_mode); } out: priv->sleep_mode = atomic_read(&priv->sleepstatus.status); } static void ks_wlan_hw_sleep_wakeup_request(struct ks_wlan_private *priv) { unsigned char rw_data; int retval; DPRINTK(4, "\n"); /* clear request */ atomic_set(&priv->sleepstatus.wakeup_request, 0); if (atomic_read(&priv->sleepstatus.status) == 1) { rw_data = WAKEUP_REQ; retval = ks7010_sdio_write(priv, WAKEUP, &rw_data, sizeof(rw_data)); if (retval) { DPRINTK(1, " error : WAKEUP=%02X\n", rw_data); goto out; } DPRINTK(4, "wake up : WAKEUP=%02X\n", rw_data); atomic_set(&priv->sleepstatus.status, 0); priv->last_wakeup = jiffies; ++priv->wakeup_count; } else { DPRINTK(1, "sleep_mode=%d\n", priv->sleep_mode); } out: priv->sleep_mode = atomic_read(&priv->sleepstatus.status); } void ks_wlan_hw_wakeup_request(struct ks_wlan_private *priv) { unsigned char rw_data; int retval; DPRINTK(4, "\n"); if (atomic_read(&priv->psstatus.status) == PS_SNOOZE) { rw_data = WAKEUP_REQ; retval = ks7010_sdio_write(priv, WAKEUP, &rw_data, sizeof(rw_data)); if (retval) DPRINTK(1, " error : WAKEUP=%02X\n", rw_data); DPRINTK(4, "wake up : WAKEUP=%02X\n", rw_data); priv->last_wakeup = jiffies; ++priv->wakeup_count; } else { DPRINTK(1, "psstatus=%d\n", atomic_read(&priv->psstatus.status)); } } static int _ks_wlan_hw_power_save(struct ks_wlan_private *priv) { unsigned char rw_data; int retval; if (priv->reg.powermgt == POWMGT_ACTIVE_MODE) return 0; if (priv->reg.operation_mode == MODE_INFRASTRUCTURE && (priv->connect_status & CONNECT_STATUS_MASK) == CONNECT_STATUS) { if (priv->dev_state == DEVICE_STATE_SLEEP) { switch (atomic_read(&priv->psstatus.status)) { case PS_SNOOZE: /* 4 */ break; default: DPRINTK(5, "\npsstatus.status=%d\npsstatus.confirm_wait=%d\npsstatus.snooze_guard=%d\ncnt_txqbody=%d\n", atomic_read(&priv->psstatus.status), atomic_read(&priv->psstatus.confirm_wait), atomic_read(&priv->psstatus.snooze_guard), cnt_txqbody(priv)); if (!atomic_read(&priv->psstatus.confirm_wait) && !atomic_read(&priv->psstatus.snooze_guard) && !cnt_txqbody(priv)) { retval = ks7010_sdio_read(priv, INT_PENDING, &rw_data, sizeof(rw_data)); if (retval) { DPRINTK(1, " error : INT_PENDING=%02X\n", rw_data); queue_delayed_work(priv->ks_wlan_hw.ks7010sdio_wq, &priv->ks_wlan_hw.rw_wq, 1); break; } if (!rw_data) { rw_data = GCR_B_DOZE; retval = ks7010_sdio_write(priv, GCR_B, &rw_data, sizeof(rw_data)); if (retval) { DPRINTK(1, " error : GCR_B=%02X\n", rw_data); queue_delayed_work (priv->ks_wlan_hw.ks7010sdio_wq, &priv->ks_wlan_hw.rw_wq, 1); break; } DPRINTK(4, "PMG SET!! : GCR_B=%02X\n", rw_data); atomic_set(&priv->psstatus. status, PS_SNOOZE); DPRINTK(3, "psstatus.status=PS_SNOOZE\n"); } else { queue_delayed_work(priv->ks_wlan_hw.ks7010sdio_wq, &priv->ks_wlan_hw.rw_wq, 1); } } else { queue_delayed_work(priv->ks_wlan_hw. ks7010sdio_wq, &priv->ks_wlan_hw.rw_wq, 0); } break; } } } return 0; } int ks_wlan_hw_power_save(struct ks_wlan_private *priv) { queue_delayed_work(priv->ks_wlan_hw.ks7010sdio_wq, &priv->ks_wlan_hw.rw_wq, 1); return 0; } static int enqueue_txdev(struct ks_wlan_private *priv, unsigned char *p, unsigned long size, void (*complete_handler) (void *arg1, void *arg2), void *arg1, void *arg2) { struct tx_device_buffer *sp; if (priv->dev_state < DEVICE_STATE_BOOT) { kfree(p); if (complete_handler) (*complete_handler) (arg1, arg2); return 1; } if ((TX_DEVICE_BUFF_SIZE - 1) <= cnt_txqbody(priv)) { /* in case of buffer overflow */ DPRINTK(1, "tx buffer overflow\n"); kfree(p); if (complete_handler) (*complete_handler) (arg1, arg2); return 1; } sp = &priv->tx_dev.tx_dev_buff[priv->tx_dev.qtail]; sp->sendp = p; sp->size = size; sp->complete_handler = complete_handler; sp->arg1 = arg1; sp->arg2 = arg2; inc_txqtail(priv); return 0; } /* write data */ static int write_to_device(struct ks_wlan_private *priv, unsigned char *buffer, unsigned long size) { int retval; unsigned char rw_data; struct hostif_hdr *hdr; hdr = (struct hostif_hdr *)buffer; DPRINTK(4, "size=%d\n", hdr->size); if (hdr->event < HIF_DATA_REQ || HIF_REQ_MAX < hdr->event) { DPRINTK(1, "unknown event=%04X\n", hdr->event); return 0; } retval = ks7010_sdio_write(priv, DATA_WINDOW, buffer, size); if (retval) { DPRINTK(1, " write error : retval=%d\n", retval); return -4; } rw_data = WRITE_STATUS_BUSY; retval = ks7010_sdio_write(priv, WRITE_STATUS, &rw_data, sizeof(rw_data)); if (retval) { DPRINTK(1, " error : WRITE_STATUS=%02X\n", rw_data); return -3; } return 0; } static void tx_device_task(void *dev) { struct ks_wlan_private *priv = (struct ks_wlan_private *)dev; struct tx_device_buffer *sp; int rc = 0; DPRINTK(4, "\n"); if (cnt_txqbody(priv) > 0 && atomic_read(&priv->psstatus.status) != PS_SNOOZE) { sp = &priv->tx_dev.tx_dev_buff[priv->tx_dev.qhead]; if (priv->dev_state >= DEVICE_STATE_BOOT) { rc = write_to_device(priv, sp->sendp, sp->size); if (rc) { DPRINTK(1, "write_to_device error !!(%d)\n", rc); queue_delayed_work(priv->ks_wlan_hw. ks7010sdio_wq, &priv->ks_wlan_hw.rw_wq, 1); return; } } kfree(sp->sendp); /* allocated memory free */ if (sp->complete_handler) /* TX Complete */ (*sp->complete_handler) (sp->arg1, sp->arg2); inc_txqhead(priv); if (cnt_txqbody(priv) > 0) { queue_delayed_work(priv->ks_wlan_hw.ks7010sdio_wq, &priv->ks_wlan_hw.rw_wq, 0); } } } int ks_wlan_hw_tx(struct ks_wlan_private *priv, void *p, unsigned long size, void (*complete_handler) (void *arg1, void *arg2), void *arg1, void *arg2) { int result = 0; struct hostif_hdr *hdr; hdr = (struct hostif_hdr *)p; if (hdr->event < HIF_DATA_REQ || HIF_REQ_MAX < hdr->event) { DPRINTK(1, "unknown event=%04X\n", hdr->event); return 0; } /* add event to hostt buffer */ priv->hostt.buff[priv->hostt.qtail] = hdr->event; priv->hostt.qtail = (priv->hostt.qtail + 1) % SME_EVENT_BUFF_SIZE; DPRINTK(4, "event=%04X\n", hdr->event); spin_lock(&priv->tx_dev.tx_dev_lock); result = enqueue_txdev(priv, p, size, complete_handler, arg1, arg2); spin_unlock(&priv->tx_dev.tx_dev_lock); if (cnt_txqbody(priv) > 0) { queue_delayed_work(priv->ks_wlan_hw.ks7010sdio_wq, &priv->ks_wlan_hw.rw_wq, 0); } return result; } static void rx_event_task(unsigned long dev) { struct ks_wlan_private *priv = (struct ks_wlan_private *)dev; struct rx_device_buffer *rp; DPRINTK(4, "\n"); if (cnt_rxqbody(priv) > 0 && priv->dev_state >= DEVICE_STATE_BOOT) { rp = &priv->rx_dev.rx_dev_buff[priv->rx_dev.qhead]; hostif_receive(priv, rp->data, rp->size); inc_rxqhead(priv); if (cnt_rxqbody(priv) > 0) tasklet_schedule(&priv->ks_wlan_hw.rx_bh_task); } } static void ks_wlan_hw_rx(void *dev, uint16_t size) { struct ks_wlan_private *priv = (struct ks_wlan_private *)dev; int retval; struct rx_device_buffer *rx_buffer; struct hostif_hdr *hdr; unsigned char read_status; unsigned short event = 0; DPRINTK(4, "\n"); /* receive data */ if (cnt_rxqbody(priv) >= (RX_DEVICE_BUFF_SIZE - 1)) { /* in case of buffer overflow */ DPRINTK(1, "rx buffer overflow \n"); goto error_out; } rx_buffer = &priv->rx_dev.rx_dev_buff[priv->rx_dev.qtail]; retval = ks7010_sdio_read(priv, DATA_WINDOW, &rx_buffer->data[0], hif_align_size(size)); if (retval) goto error_out; /* length check */ if (size > 2046 || size == 0) { #ifdef KS_WLAN_DEBUG if (KS_WLAN_DEBUG > 5) print_hex_dump_bytes("INVALID DATA dump: ", DUMP_PREFIX_OFFSET, rx_buffer->data, 32); #endif /* rx_status update */ read_status = READ_STATUS_IDLE; retval = ks7010_sdio_write(priv, READ_STATUS, &read_status, sizeof(read_status)); if (retval) DPRINTK(1, " error : READ_STATUS=%02X\n", read_status); goto error_out; } hdr = (struct hostif_hdr *)&rx_buffer->data[0]; rx_buffer->size = le16_to_cpu(hdr->size) + sizeof(hdr->size); event = hdr->event; inc_rxqtail(priv); /* read status update */ read_status = READ_STATUS_IDLE; retval = ks7010_sdio_write(priv, READ_STATUS, &read_status, sizeof(read_status)); if (retval) DPRINTK(1, " error : READ_STATUS=%02X\n", read_status); DPRINTK(4, "READ_STATUS=%02X\n", read_status); if (atomic_read(&priv->psstatus.confirm_wait)) { if (IS_HIF_CONF(event)) { DPRINTK(4, "IS_HIF_CONF true !!\n"); atomic_dec(&priv->psstatus.confirm_wait); } } /* rx_event_task((void *)priv); */ tasklet_schedule(&priv->ks_wlan_hw.rx_bh_task); error_out: return; } static void ks7010_rw_function(struct work_struct *work) { struct hw_info_t *hw; struct ks_wlan_private *priv; unsigned char rw_data; int retval; hw = container_of(work, struct hw_info_t, rw_wq.work); priv = container_of(hw, struct ks_wlan_private, ks_wlan_hw); DPRINTK(4, "\n"); /* wiat after DOZE */ if (time_after(priv->last_doze + ((30 * HZ) / 1000), jiffies)) { DPRINTK(4, "wait after DOZE\n"); queue_delayed_work(priv->ks_wlan_hw.ks7010sdio_wq, &priv->ks_wlan_hw.rw_wq, 1); return; } /* wiat after WAKEUP */ while (time_after(priv->last_wakeup + ((30 * HZ) / 1000), jiffies)) { DPRINTK(4, "wait after WAKEUP\n"); /* queue_delayed_work(priv->ks_wlan_hw.ks7010sdio_wq,&priv->ks_wlan_hw.rw_wq, (priv->last_wakeup + ((30*HZ)/1000) - jiffies));*/ dev_info(&priv->ks_wlan_hw.sdio_card->func->dev, "wake: %lu %lu\n", priv->last_wakeup + (30 * HZ) / 1000, jiffies); msleep(30); } sdio_claim_host(priv->ks_wlan_hw.sdio_card->func); /* power save wakeup */ if (atomic_read(&priv->psstatus.status) == PS_SNOOZE) { if (cnt_txqbody(priv) > 0) { ks_wlan_hw_wakeup_request(priv); queue_delayed_work(priv->ks_wlan_hw.ks7010sdio_wq, &priv->ks_wlan_hw.rw_wq, 1); } goto err_out; } /* sleep mode doze */ if (atomic_read(&priv->sleepstatus.doze_request) == 1) { ks_wlan_hw_sleep_doze_request(priv); goto err_out; } /* sleep mode wakeup */ if (atomic_read(&priv->sleepstatus.wakeup_request) == 1) { ks_wlan_hw_sleep_wakeup_request(priv); goto err_out; } /* read (WriteStatus/ReadDataSize FN1:00_0014) */ retval = ks7010_sdio_read(priv, WSTATUS_RSIZE, &rw_data, sizeof(rw_data)); if (retval) { DPRINTK(1, " error : WSTATUS_RSIZE=%02X psstatus=%d\n", rw_data, atomic_read(&priv->psstatus.status)); goto err_out; } DPRINTK(4, "WSTATUS_RSIZE=%02X\n", rw_data); if (rw_data & RSIZE_MASK) { /* Read schedule */ ks_wlan_hw_rx((void *)priv, (uint16_t)((rw_data & RSIZE_MASK) << 4)); } if ((rw_data & WSTATUS_MASK)) tx_device_task((void *)priv); _ks_wlan_hw_power_save(priv); err_out: sdio_release_host(priv->ks_wlan_hw.sdio_card->func); } static void ks_sdio_interrupt(struct sdio_func *func) { int retval; struct ks_sdio_card *card; struct ks_wlan_private *priv; unsigned char status, rsize, rw_data; card = sdio_get_drvdata(func); priv = card->priv; DPRINTK(4, "\n"); if (priv->dev_state >= DEVICE_STATE_BOOT) { retval = ks7010_sdio_read(priv, INT_PENDING, &status, sizeof(status)); if (retval) { DPRINTK(1, "read INT_PENDING Failed!!(%d)\n", retval); goto intr_out; } DPRINTK(4, "INT_PENDING=%02X\n", rw_data); /* schedule task for interrupt status */ /* bit7 -> Write General Communication B register */ /* read (General Communication B register) */ /* bit5 -> Write Status Idle */ /* bit2 -> Read Status Busy */ if (status & INT_GCR_B || atomic_read(&priv->psstatus.status) == PS_SNOOZE) { retval = ks7010_sdio_read(priv, GCR_B, &rw_data, sizeof(rw_data)); if (retval) { DPRINTK(1, " error : GCR_B=%02X\n", rw_data); goto intr_out; } /* DPRINTK(1, "GCR_B=%02X\n", rw_data); */ if (rw_data == GCR_B_ACTIVE) { if (atomic_read(&priv->psstatus.status) == PS_SNOOZE) { atomic_set(&priv->psstatus.status, PS_WAKEUP); priv->wakeup_count = 0; } complete(&priv->psstatus.wakeup_wait); } } do { /* read (WriteStatus/ReadDataSize FN1:00_0014) */ retval = ks7010_sdio_read(priv, WSTATUS_RSIZE, &rw_data, sizeof(rw_data)); if (retval) { DPRINTK(1, " error : WSTATUS_RSIZE=%02X\n", rw_data); goto intr_out; } DPRINTK(4, "WSTATUS_RSIZE=%02X\n", rw_data); rsize = rw_data & RSIZE_MASK; if (rsize) { /* Read schedule */ ks_wlan_hw_rx((void *)priv, (uint16_t)(rsize << 4)); } if (rw_data & WSTATUS_MASK) { #if 0 if (status & INT_WRITE_STATUS && !cnt_txqbody(priv)) { /* dummy write for interrupt clear */ rw_data = 0; retval = ks7010_sdio_write(priv, DATA_WINDOW, &rw_data, sizeof(rw_data)); if (retval) { DPRINTK(1, "write DATA_WINDOW Failed!!(%d)\n", retval); } status &= ~INT_WRITE_STATUS; } else { #endif if (atomic_read(&priv->psstatus.status) == PS_SNOOZE) { if (cnt_txqbody(priv)) { ks_wlan_hw_wakeup_request(priv); queue_delayed_work (priv->ks_wlan_hw. ks7010sdio_wq, &priv->ks_wlan_hw. rw_wq, 1); return; } } else { tx_device_task((void *)priv); } #if 0 } #endif } } while (rsize); } intr_out: queue_delayed_work(priv->ks_wlan_hw.ks7010sdio_wq, &priv->ks_wlan_hw.rw_wq, 0); } static int trx_device_init(struct ks_wlan_private *priv) { /* initialize values (tx) */ priv->tx_dev.qtail = priv->tx_dev.qhead = 0; /* initialize values (rx) */ priv->rx_dev.qtail = priv->rx_dev.qhead = 0; /* initialize spinLock (tx,rx) */ spin_lock_init(&priv->tx_dev.tx_dev_lock); spin_lock_init(&priv->rx_dev.rx_dev_lock); tasklet_init(&priv->ks_wlan_hw.rx_bh_task, rx_event_task, (unsigned long)priv); return 0; } static void trx_device_exit(struct ks_wlan_private *priv) { struct tx_device_buffer *sp; /* tx buffer clear */ while (cnt_txqbody(priv) > 0) { sp = &priv->tx_dev.tx_dev_buff[priv->tx_dev.qhead]; kfree(sp->sendp); /* allocated memory free */ if (sp->complete_handler) /* TX Complete */ (*sp->complete_handler) (sp->arg1, sp->arg2); inc_txqhead(priv); } tasklet_kill(&priv->ks_wlan_hw.rx_bh_task); } static int ks7010_sdio_update_index(struct ks_wlan_private *priv, u32 index) { int rc = 0; int retval; unsigned char *data_buf; data_buf = kmalloc(sizeof(u32), GFP_KERNEL); if (!data_buf) { rc = 1; goto error_out; } memcpy(data_buf, &index, sizeof(index)); retval = ks7010_sdio_write(priv, WRITE_INDEX, data_buf, sizeof(index)); if (retval) { rc = 2; goto error_out; } retval = ks7010_sdio_write(priv, READ_INDEX, data_buf, sizeof(index)); if (retval) { rc = 3; goto error_out; } error_out: kfree(data_buf); return rc; } #define ROM_BUFF_SIZE (64*1024) static int ks7010_sdio_data_compare(struct ks_wlan_private *priv, u32 address, unsigned char *data, unsigned int size) { int rc = 0; int retval; unsigned char *read_buf; read_buf = kmalloc(ROM_BUFF_SIZE, GFP_KERNEL); if (!read_buf) { rc = 1; goto error_out; } retval = ks7010_sdio_read(priv, address, read_buf, size); if (retval) { rc = 2; goto error_out; } retval = memcmp(data, read_buf, size); if (retval) { DPRINTK(0, "data compare error (%d)\n", retval); rc = 3; goto error_out; } error_out: kfree(read_buf); return rc; } static int ks7010_upload_firmware(struct ks_wlan_private *priv, struct ks_sdio_card *card) { unsigned int size, offset, n = 0; unsigned char *rom_buf; unsigned char rw_data = 0; int retval, rc = 0; int length; const struct firmware *fw_entry = NULL; /* buffer allocate */ rom_buf = kmalloc(ROM_BUFF_SIZE, GFP_KERNEL); if (!rom_buf) return 3; sdio_claim_host(card->func); /* Firmware running ? */ retval = ks7010_sdio_read(priv, GCR_A, &rw_data, sizeof(rw_data)); if (rw_data == GCR_A_RUN) { DPRINTK(0, "MAC firmware running ...\n"); rc = 0; goto error_out0; } retval = request_firmware(&fw_entry, ROM_FILE, &priv->ks_wlan_hw.sdio_card->func->dev); if (retval) goto error_out0; length = fw_entry->size; /* Load Program */ n = 0; do { if (length >= ROM_BUFF_SIZE) { size = ROM_BUFF_SIZE; length = length - ROM_BUFF_SIZE; } else { size = length; length = 0; } DPRINTK(4, "size = %d\n", size); if (size == 0) break; memcpy(rom_buf, fw_entry->data + n, size); /* Update write index */ offset = n; retval = ks7010_sdio_update_index(priv, KS7010_IRAM_ADDRESS + offset); if (retval) { rc = 6; goto error_out1; } /* Write data */ retval = ks7010_sdio_write(priv, DATA_WINDOW, rom_buf, size); if (retval) { rc = 8; goto error_out1; } /* compare */ retval = ks7010_sdio_data_compare(priv, DATA_WINDOW, rom_buf, size); if (retval) { rc = 9; goto error_out1; } n += size; } while (size); /* Remap request */ rw_data = GCR_A_REMAP; retval = ks7010_sdio_write(priv, GCR_A, &rw_data, sizeof(rw_data)); if (retval) { rc = 11; goto error_out1; } DPRINTK(4, " REMAP Request : GCR_A=%02X\n", rw_data); /* Firmware running check */ for (n = 0; n < 50; ++n) { mdelay(10); /* wait_ms(10); */ retval = ks7010_sdio_read(priv, GCR_A, &rw_data, sizeof(rw_data)); if (retval) { rc = 11; goto error_out1; } if (rw_data == GCR_A_RUN) break; } DPRINTK(4, "firmware wakeup (%d)!!!!\n", n); if ((50) <= n) { DPRINTK(1, "firmware can't start\n"); rc = 12; goto error_out1; } rc = 0; error_out1: release_firmware(fw_entry); error_out0: sdio_release_host(card->func); kfree(rom_buf); return rc; } static void ks7010_card_init(struct ks_wlan_private *priv) { DPRINTK(5, "\ncard_init_task()\n"); /* init_waitqueue_head(&priv->confirm_wait); */ init_completion(&priv->confirm_wait); DPRINTK(5, "init_completion()\n"); /* get mac address & firmware version */ hostif_sme_enqueue(priv, SME_START); DPRINTK(5, "hostif_sme_enqueu()\n"); if (!wait_for_completion_interruptible_timeout (&priv->confirm_wait, 5 * HZ)) { DPRINTK(1, "wait time out!! SME_START\n"); } if (priv->mac_address_valid && priv->version_size) priv->dev_state = DEVICE_STATE_PREINIT; hostif_sme_enqueue(priv, SME_GET_EEPROM_CKSUM); /* load initial wireless parameter */ hostif_sme_enqueue(priv, SME_STOP_REQUEST); hostif_sme_enqueue(priv, SME_RTS_THRESHOLD_REQUEST); hostif_sme_enqueue(priv, SME_FRAGMENTATION_THRESHOLD_REQUEST); hostif_sme_enqueue(priv, SME_WEP_INDEX_REQUEST); hostif_sme_enqueue(priv, SME_WEP_KEY1_REQUEST); hostif_sme_enqueue(priv, SME_WEP_KEY2_REQUEST); hostif_sme_enqueue(priv, SME_WEP_KEY3_REQUEST); hostif_sme_enqueue(priv, SME_WEP_KEY4_REQUEST); hostif_sme_enqueue(priv, SME_WEP_FLAG_REQUEST); hostif_sme_enqueue(priv, SME_RSN_ENABLED_REQUEST); hostif_sme_enqueue(priv, SME_MODE_SET_REQUEST); hostif_sme_enqueue(priv, SME_START_REQUEST); if (!wait_for_completion_interruptible_timeout (&priv->confirm_wait, 5 * HZ)) { DPRINTK(1, "wait time out!! wireless parameter set\n"); } if (priv->dev_state >= DEVICE_STATE_PREINIT) { DPRINTK(1, "DEVICE READY!!\n"); priv->dev_state = DEVICE_STATE_READY; } else { DPRINTK(1, "dev_state=%d\n", priv->dev_state); } } static void ks7010_init_defaults(struct ks_wlan_private *priv) { priv->reg.tx_rate = TX_RATE_AUTO; priv->reg.preamble = LONG_PREAMBLE; priv->reg.powermgt = POWMGT_ACTIVE_MODE; priv->reg.scan_type = ACTIVE_SCAN; priv->reg.beacon_lost_count = 20; priv->reg.rts = 2347UL; priv->reg.fragment = 2346UL; priv->reg.phy_type = D_11BG_COMPATIBLE_MODE; priv->reg.cts_mode = CTS_MODE_FALSE; priv->reg.rate_set.body[11] = TX_RATE_54M; priv->reg.rate_set.body[10] = TX_RATE_48M; priv->reg.rate_set.body[9] = TX_RATE_36M; priv->reg.rate_set.body[8] = TX_RATE_18M; priv->reg.rate_set.body[7] = TX_RATE_9M; priv->reg.rate_set.body[6] = TX_RATE_24M | BASIC_RATE; priv->reg.rate_set.body[5] = TX_RATE_12M | BASIC_RATE; priv->reg.rate_set.body[4] = TX_RATE_6M | BASIC_RATE; priv->reg.rate_set.body[3] = TX_RATE_11M | BASIC_RATE; priv->reg.rate_set.body[2] = TX_RATE_5M | BASIC_RATE; priv->reg.rate_set.body[1] = TX_RATE_2M | BASIC_RATE; priv->reg.rate_set.body[0] = TX_RATE_1M | BASIC_RATE; priv->reg.tx_rate = TX_RATE_FULL_AUTO; priv->reg.rate_set.size = 12; } static int ks7010_sdio_probe(struct sdio_func *func, const struct sdio_device_id *device) { struct ks_wlan_private *priv; struct ks_sdio_card *card; struct net_device *netdev; unsigned char rw_data; int ret; DPRINTK(5, "ks7010_sdio_probe()\n"); priv = NULL; netdev = NULL; /* initilize ks_sdio_card */ card = kzalloc(sizeof(*card), GFP_KERNEL); if (!card) return -ENOMEM; card->func = func; spin_lock_init(&card->lock); /*** Initialize SDIO ***/ sdio_claim_host(func); /* bus setting */ /* Issue config request to override clock rate */ /* function blocksize set */ ret = sdio_set_block_size(func, KS7010_IO_BLOCK_SIZE); DPRINTK(5, "multi_block=%d sdio_set_block_size()=%d %d\n", func->card->cccr.multi_block, func->cur_blksize, ret); /* Allocate the slot current */ /* function enable */ ret = sdio_enable_func(func); DPRINTK(5, "sdio_enable_func() %d\n", ret); if (ret) goto error_free_card; /* interrupt disable */ sdio_writeb(func, 0, INT_ENABLE, &ret); if (ret) goto error_free_card; sdio_writeb(func, 0xff, INT_PENDING, &ret); if (ret) goto error_disable_func; /* setup interrupt handler */ ret = sdio_claim_irq(func, ks_sdio_interrupt); if (ret) goto error_disable_func; sdio_release_host(func); sdio_set_drvdata(func, card); DPRINTK(5, "class = 0x%X, vendor = 0x%X, " "device = 0x%X\n", func->class, func->vendor, func->device); /* private memory allocate */ netdev = alloc_etherdev(sizeof(*priv)); if (!netdev) { dev_err(&card->func->dev, "ks7010 : Unable to alloc new net device\n"); goto error_release_irq; } if (dev_alloc_name(netdev, "wlan%d") < 0) { dev_err(&card->func->dev, "ks7010 : Couldn't get name!\n"); goto error_free_netdev; } priv = netdev_priv(netdev); card->priv = priv; SET_NETDEV_DEV(netdev, &card->func->dev); /* for create sysfs symlinks */ /* private memory initialize */ priv->ks_wlan_hw.sdio_card = card; init_completion(&priv->ks_wlan_hw.ks7010_sdio_wait); priv->ks_wlan_hw.read_buf = NULL; priv->ks_wlan_hw.read_buf = kmalloc(RX_DATA_SIZE, GFP_KERNEL); if (!priv->ks_wlan_hw.read_buf) goto error_free_netdev; priv->dev_state = DEVICE_STATE_PREBOOT; priv->net_dev = netdev; priv->firmware_version[0] = '\0'; priv->version_size = 0; priv->last_doze = jiffies; /* set current jiffies */ priv->last_wakeup = jiffies; memset(&priv->nstats, 0, sizeof(priv->nstats)); memset(&priv->wstats, 0, sizeof(priv->wstats)); /* sleep mode */ atomic_set(&priv->sleepstatus.doze_request, 0); atomic_set(&priv->sleepstatus.wakeup_request, 0); atomic_set(&priv->sleepstatus.wakeup_request, 0); trx_device_init(priv); hostif_init(priv); ks_wlan_net_start(netdev); ks7010_init_defaults(priv); /* Upload firmware */ ret = ks7010_upload_firmware(priv, card); /* firmware load */ if (ret) { dev_err(&card->func->dev, "ks7010: firmware load failed !! return code = %d\n", ret); goto error_free_read_buf; } /* interrupt setting */ /* clear Interrupt status write (ARMtoSD_InterruptPending FN1:00_0024) */ rw_data = 0xff; sdio_claim_host(func); ret = ks7010_sdio_write(priv, INT_PENDING, &rw_data, sizeof(rw_data)); sdio_release_host(func); if (ret) DPRINTK(1, " error : INT_PENDING=%02X\n", rw_data); DPRINTK(4, " clear Interrupt : INT_PENDING=%02X\n", rw_data); /* enable ks7010sdio interrupt (INT_GCR_B|INT_READ_STATUS|INT_WRITE_STATUS) */ rw_data = (INT_GCR_B | INT_READ_STATUS | INT_WRITE_STATUS); sdio_claim_host(func); ret = ks7010_sdio_write(priv, INT_ENABLE, &rw_data, sizeof(rw_data)); sdio_release_host(func); if (ret) DPRINTK(1, " error : INT_ENABLE=%02X\n", rw_data); DPRINTK(4, " enable Interrupt : INT_ENABLE=%02X\n", rw_data); priv->dev_state = DEVICE_STATE_BOOT; priv->ks_wlan_hw.ks7010sdio_wq = create_workqueue("ks7010sdio_wq"); if (!priv->ks_wlan_hw.ks7010sdio_wq) { DPRINTK(1, "create_workqueue failed !!\n"); goto error_free_read_buf; } INIT_DELAYED_WORK(&priv->ks_wlan_hw.rw_wq, ks7010_rw_function); ks7010_card_init(priv); ret = register_netdev(priv->net_dev); if (ret) goto error_free_read_buf; return 0; error_free_read_buf: kfree(priv->ks_wlan_hw.read_buf); priv->ks_wlan_hw.read_buf = NULL; error_free_netdev: free_netdev(priv->net_dev); card->priv = NULL; error_release_irq: sdio_claim_host(func); sdio_release_irq(func); error_disable_func: sdio_disable_func(func); error_free_card: sdio_release_host(func); sdio_set_drvdata(func, NULL); kfree(card); return -ENODEV; } static void ks7010_sdio_remove(struct sdio_func *func) { int ret; struct ks_sdio_card *card; struct ks_wlan_private *priv; DPRINTK(1, "ks7010_sdio_remove()\n"); card = sdio_get_drvdata(func); if (!card) return; DPRINTK(1, "priv = card->priv\n"); priv = card->priv; if (priv) { struct net_device *netdev = priv->net_dev; ks_wlan_net_stop(netdev); DPRINTK(1, "ks_wlan_net_stop\n"); /* interrupt disable */ sdio_claim_host(func); sdio_writeb(func, 0, INT_ENABLE, &ret); sdio_writeb(func, 0xff, INT_PENDING, &ret); sdio_release_host(func); DPRINTK(1, "interrupt disable\n"); /* send stop request to MAC */ { struct hostif_stop_request_t *pp; pp = kzalloc(hif_align_size(sizeof(*pp)), GFP_KERNEL); if (!pp) { DPRINTK(3, "allocate memory failed..\n"); return; /* to do goto ni suru */ } pp->header.size = cpu_to_le16((uint16_t) (sizeof(*pp) - sizeof(pp->header.size))); pp->header.event = cpu_to_le16((uint16_t)HIF_STOP_REQ); sdio_claim_host(func); write_to_device(priv, (unsigned char *)pp, hif_align_size(sizeof(*pp))); sdio_release_host(func); kfree(pp); } DPRINTK(1, "STOP Req\n"); if (priv->ks_wlan_hw.ks7010sdio_wq) { flush_workqueue(priv->ks_wlan_hw.ks7010sdio_wq); destroy_workqueue(priv->ks_wlan_hw.ks7010sdio_wq); } DPRINTK(1, "destroy_workqueue(priv->ks_wlan_hw.ks7010sdio_wq);\n"); hostif_exit(priv); DPRINTK(1, "hostif_exit\n"); unregister_netdev(netdev); trx_device_exit(priv); kfree(priv->ks_wlan_hw.read_buf); free_netdev(priv->net_dev); card->priv = NULL; } sdio_claim_host(func); sdio_release_irq(func); DPRINTK(1, "sdio_release_irq()\n"); sdio_disable_func(func); DPRINTK(1, "sdio_disable_func()\n"); sdio_release_host(func); sdio_set_drvdata(func, NULL); kfree(card); DPRINTK(1, "kfree()\n"); DPRINTK(5, " Bye !!\n"); } static struct sdio_driver ks7010_sdio_driver = { .name = "ks7010_sdio", .id_table = ks7010_sdio_ids, .probe = ks7010_sdio_probe, .remove = ks7010_sdio_remove, }; module_driver(ks7010_sdio_driver, sdio_register_driver, sdio_unregister_driver); MODULE_AUTHOR("Sang Engineering, Qi-Hardware, KeyStream"); MODULE_DESCRIPTION("Driver for KeyStream KS7010 based SDIO cards"); MODULE_LICENSE("GPL v2"); MODULE_FIRMWARE(ROM_FILE);