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1622 1623 1624 1625 1626 1627 1628 1629 1630 1631 1632 1633 1634 1635 1636 1637 1638 1639 1640 1641 1642 1643 1644 1645 1646 1647 1648 1649 1650 1651 1652 1653 1654 1655 1656 1657 1658 1659 1660 1661 1662 1663 1664 1665 1666 1667 1668 1669 1670 1671 1672 1673 1674 1675 1676 1677 1678 1679 1680 1681 1682 1683 1684 1685 1686 1687 1688 1689 1690 1691 1692 1693 1694 1695 1696 1697 1698 1699 1700 1701 1702 1703 1704 1705 1706 1707 1708 1709 1710 1711 1712 1713 1714 1715 1716 1717 1718 1719 1720 1721 1722 1723 1724 1725 1726 1727 1728 1729 1730 1731 1732 1733 1734 1735 1736 1737 1738 1739 1740 1741 1742 1743 1744 1745 1746 1747 1748 1749 1750 1751 1752 1753 1754 1755 1756 1757 1758 1759 1760 1761 1762 1763 1764 1765 1766 1767 1768 1769 1770 | // SPDX-License-Identifier: GPL-2.0 /* * IPWireless 3G PCMCIA Network Driver * * Original code * by Stephen Blackheath <stephen@blacksapphire.com>, * Ben Martel <benm@symmetric.co.nz> * * Copyrighted as follows: * Copyright (C) 2004 by Symmetric Systems Ltd (NZ) * * Various driver changes and rewrites, port to new kernels * Copyright (C) 2006-2007 Jiri Kosina * * Misc code cleanups and updates * Copyright (C) 2007 David Sterba */ #include <linux/interrupt.h> #include <linux/io.h> #include <linux/irq.h> #include <linux/kernel.h> #include <linux/list.h> #include <linux/slab.h> #include "hardware.h" #include "setup_protocol.h" #include "network.h" #include "main.h" static void ipw_send_setup_packet(struct ipw_hardware *hw); static void handle_received_SETUP_packet(struct ipw_hardware *ipw, unsigned int address, const unsigned char *data, int len, int is_last); static void ipwireless_setup_timer(struct timer_list *t); static void handle_received_CTRL_packet(struct ipw_hardware *hw, unsigned int channel_idx, const unsigned char *data, int len); /*#define TIMING_DIAGNOSTICS*/ #ifdef TIMING_DIAGNOSTICS static struct timing_stats { unsigned long last_report_time; unsigned long read_time; unsigned long write_time; unsigned long read_bytes; unsigned long write_bytes; unsigned long start_time; }; static void start_timing(void) { timing_stats.start_time = jiffies; } static void end_read_timing(unsigned length) { timing_stats.read_time += (jiffies - start_time); timing_stats.read_bytes += length + 2; report_timing(); } static void end_write_timing(unsigned length) { timing_stats.write_time += (jiffies - start_time); timing_stats.write_bytes += length + 2; report_timing(); } static void report_timing(void) { unsigned long since = jiffies - timing_stats.last_report_time; /* If it's been more than one second... */ if (since >= HZ) { int first = (timing_stats.last_report_time == 0); timing_stats.last_report_time = jiffies; if (!first) printk(KERN_INFO IPWIRELESS_PCCARD_NAME ": %u us elapsed - read %lu bytes in %u us, wrote %lu bytes in %u us\n", jiffies_to_usecs(since), timing_stats.read_bytes, jiffies_to_usecs(timing_stats.read_time), timing_stats.write_bytes, jiffies_to_usecs(timing_stats.write_time)); timing_stats.read_time = 0; timing_stats.write_time = 0; timing_stats.read_bytes = 0; timing_stats.write_bytes = 0; } } #else static void start_timing(void) { } static void end_read_timing(unsigned length) { } static void end_write_timing(unsigned length) { } #endif /* Imported IPW definitions */ #define LL_MTU_V1 318 #define LL_MTU_V2 250 #define LL_MTU_MAX (LL_MTU_V1 > LL_MTU_V2 ? LL_MTU_V1 : LL_MTU_V2) #define PRIO_DATA 2 #define PRIO_CTRL 1 #define PRIO_SETUP 0 /* Addresses */ #define ADDR_SETUP_PROT 0 /* Protocol ids */ enum { /* Identifier for the Com Data protocol */ TL_PROTOCOLID_COM_DATA = 0, /* Identifier for the Com Control protocol */ TL_PROTOCOLID_COM_CTRL = 1, /* Identifier for the Setup protocol */ TL_PROTOCOLID_SETUP = 2 }; /* Number of bytes in NL packet header (cannot do * sizeof(nl_packet_header) since it's a bitfield) */ #define NL_FIRST_PACKET_HEADER_SIZE 3 /* Number of bytes in NL packet header (cannot do * sizeof(nl_packet_header) since it's a bitfield) */ #define NL_FOLLOWING_PACKET_HEADER_SIZE 1 struct nl_first_packet_header { unsigned char protocol:3; unsigned char address:3; unsigned char packet_rank:2; unsigned char length_lsb; unsigned char length_msb; }; struct nl_packet_header { unsigned char protocol:3; unsigned char address:3; unsigned char packet_rank:2; }; /* Value of 'packet_rank' above */ #define NL_INTERMEDIATE_PACKET 0x0 #define NL_LAST_PACKET 0x1 #define NL_FIRST_PACKET 0x2 union nl_packet { /* Network packet header of the first packet (a special case) */ struct nl_first_packet_header hdr_first; /* Network packet header of the following packets (if any) */ struct nl_packet_header hdr; /* Complete network packet (header + data) */ unsigned char rawpkt[LL_MTU_MAX]; } __attribute__ ((__packed__)); #define HW_VERSION_UNKNOWN -1 #define HW_VERSION_1 1 #define HW_VERSION_2 2 /* IPW I/O ports */ #define IOIER 0x00 /* Interrupt Enable Register */ #define IOIR 0x02 /* Interrupt Source/ACK register */ #define IODCR 0x04 /* Data Control Register */ #define IODRR 0x06 /* Data Read Register */ #define IODWR 0x08 /* Data Write Register */ #define IOESR 0x0A /* Embedded Driver Status Register */ #define IORXR 0x0C /* Rx Fifo Register (Host to Embedded) */ #define IOTXR 0x0E /* Tx Fifo Register (Embedded to Host) */ /* I/O ports and bit definitions for version 1 of the hardware */ /* IER bits*/ #define IER_RXENABLED 0x1 #define IER_TXENABLED 0x2 /* ISR bits */ #define IR_RXINTR 0x1 #define IR_TXINTR 0x2 /* DCR bits */ #define DCR_RXDONE 0x1 #define DCR_TXDONE 0x2 #define DCR_RXRESET 0x4 #define DCR_TXRESET 0x8 /* I/O ports and bit definitions for version 2 of the hardware */ struct MEMCCR { unsigned short reg_config_option; /* PCCOR: Configuration Option Register */ unsigned short reg_config_and_status; /* PCCSR: Configuration and Status Register */ unsigned short reg_pin_replacement; /* PCPRR: Pin Replacemant Register */ unsigned short reg_socket_and_copy; /* PCSCR: Socket and Copy Register */ unsigned short reg_ext_status; /* PCESR: Extendend Status Register */ unsigned short reg_io_base; /* PCIOB: I/O Base Register */ }; struct MEMINFREG { unsigned short memreg_tx_old; /* TX Register (R/W) */ unsigned short pad1; unsigned short memreg_rx_done; /* RXDone Register (R/W) */ unsigned short pad2; unsigned short memreg_rx; /* RX Register (R/W) */ unsigned short pad3; unsigned short memreg_pc_interrupt_ack; /* PC intr Ack Register (W) */ unsigned short pad4; unsigned long memreg_card_present;/* Mask for Host to check (R) for * CARD_PRESENT_VALUE */ unsigned short memreg_tx_new; /* TX2 (new) Register (R/W) */ }; #define CARD_PRESENT_VALUE (0xBEEFCAFEUL) #define MEMTX_TX 0x0001 #define MEMRX_RX 0x0001 #define MEMRX_RX_DONE 0x0001 #define MEMRX_PCINTACKK 0x0001 #define NL_NUM_OF_PRIORITIES 3 #define NL_NUM_OF_PROTOCOLS 3 #define NL_NUM_OF_ADDRESSES NO_OF_IPW_CHANNELS struct ipw_hardware { unsigned int base_port; short hw_version; unsigned short ll_mtu; spinlock_t lock; int initializing; int init_loops; struct timer_list setup_timer; /* Flag if hw is ready to send next packet */ int tx_ready; /* Count of pending packets to be sent */ int tx_queued; struct list_head tx_queue[NL_NUM_OF_PRIORITIES]; int rx_bytes_queued; struct list_head rx_queue; /* Pool of rx_packet structures that are not currently used. */ struct list_head rx_pool; int rx_pool_size; /* True if reception of data is blocked while userspace processes it. */ int blocking_rx; /* True if there is RX data ready on the hardware. */ int rx_ready; unsigned short last_memtx_serial; /* * Newer versions of the V2 card firmware send serial numbers in the * MemTX register. 'serial_number_detected' is set true when we detect * a non-zero serial number (indicating the new firmware). Thereafter, * the driver can safely ignore the Timer Recovery re-sends to avoid * out-of-sync problems. */ int serial_number_detected; struct work_struct work_rx; /* True if we are to send the set-up data to the hardware. */ int to_setup; /* Card has been removed */ int removed; /* Saved irq value when we disable the interrupt. */ int irq; /* True if this driver is shutting down. */ int shutting_down; /* Modem control lines */ unsigned int control_lines[NL_NUM_OF_ADDRESSES]; struct ipw_rx_packet *packet_assembler[NL_NUM_OF_ADDRESSES]; struct tasklet_struct tasklet; /* The handle for the network layer, for the sending of events to it. */ struct ipw_network *network; struct MEMINFREG __iomem *memory_info_regs; struct MEMCCR __iomem *memregs_CCR; void (*reboot_callback) (void *data); void *reboot_callback_data; unsigned short __iomem *memreg_tx; }; /* * Packet info structure for tx packets. * Note: not all the fields defined here are required for all protocols */ struct ipw_tx_packet { struct list_head queue; /* channel idx + 1 */ unsigned char dest_addr; /* SETUP, CTRL or DATA */ unsigned char protocol; /* Length of data block, which starts at the end of this structure */ unsigned short length; /* Sending state */ /* Offset of where we've sent up to so far */ unsigned long offset; /* Count of packet fragments, starting at 0 */ int fragment_count; /* Called after packet is sent and before is freed */ void (*packet_callback) (void *cb_data, unsigned int packet_length); void *callback_data; }; /* Signals from DTE */ #define COMCTRL_RTS 0 #define COMCTRL_DTR 1 /* Signals from DCE */ #define COMCTRL_CTS 2 #define COMCTRL_DCD 3 #define COMCTRL_DSR 4 #define COMCTRL_RI 5 struct ipw_control_packet_body { /* DTE signal or DCE signal */ unsigned char sig_no; /* 0: set signal, 1: clear signal */ unsigned char value; } __attribute__ ((__packed__)); struct ipw_control_packet { struct ipw_tx_packet header; struct ipw_control_packet_body body; }; struct ipw_rx_packet { struct list_head queue; unsigned int capacity; unsigned int length; unsigned int protocol; unsigned int channel_idx; }; static char *data_type(const unsigned char *buf, unsigned length) { struct nl_packet_header *hdr = (struct nl_packet_header *) buf; if (length == 0) return " "; if (hdr->packet_rank & NL_FIRST_PACKET) { switch (hdr->protocol) { case TL_PROTOCOLID_COM_DATA: return "DATA "; case TL_PROTOCOLID_COM_CTRL: return "CTRL "; case TL_PROTOCOLID_SETUP: return "SETUP"; default: return "???? "; } } else return " "; } #define DUMP_MAX_BYTES 64 static void dump_data_bytes(const char *type, const unsigned char *data, unsigned length) { char prefix[56]; sprintf(prefix, IPWIRELESS_PCCARD_NAME ": %s %s ", type, data_type(data, length)); print_hex_dump_bytes(prefix, 0, (void *)data, length < DUMP_MAX_BYTES ? length : DUMP_MAX_BYTES); } static void swap_packet_bitfield_to_le(unsigned char *data) { #ifdef __BIG_ENDIAN_BITFIELD unsigned char tmp = *data, ret = 0; /* * transform bits from aa.bbb.ccc to ccc.bbb.aa */ ret |= (tmp & 0xc0) >> 6; ret |= (tmp & 0x38) >> 1; ret |= (tmp & 0x07) << 5; *data = ret & 0xff; #endif } static void swap_packet_bitfield_from_le(unsigned char *data) { #ifdef __BIG_ENDIAN_BITFIELD unsigned char tmp = *data, ret = 0; /* * transform bits from ccc.bbb.aa to aa.bbb.ccc */ ret |= (tmp & 0xe0) >> 5; ret |= (tmp & 0x1c) << 1; ret |= (tmp & 0x03) << 6; *data = ret & 0xff; #endif } static void do_send_fragment(struct ipw_hardware *hw, unsigned char *data, unsigned length) { unsigned i; unsigned long flags; start_timing(); BUG_ON(length > hw->ll_mtu); if (ipwireless_debug) dump_data_bytes("send", data, length); spin_lock_irqsave(&hw->lock, flags); hw->tx_ready = 0; swap_packet_bitfield_to_le(data); if (hw->hw_version == HW_VERSION_1) { outw((unsigned short) length, hw->base_port + IODWR); for (i = 0; i < length; i += 2) { unsigned short d = data[i]; __le16 raw_data; if (i + 1 < length) d |= data[i + 1] << 8; raw_data = cpu_to_le16(d); outw(raw_data, hw->base_port + IODWR); } outw(DCR_TXDONE, hw->base_port + IODCR); } else if (hw->hw_version == HW_VERSION_2) { outw((unsigned short) length, hw->base_port); for (i = 0; i < length; i += 2) { unsigned short d = data[i]; __le16 raw_data; if (i + 1 < length) d |= data[i + 1] << 8; raw_data = cpu_to_le16(d); outw(raw_data, hw->base_port); } while ((i & 3) != 2) { outw((unsigned short) 0xDEAD, hw->base_port); i += 2; } writew(MEMRX_RX, &hw->memory_info_regs->memreg_rx); } spin_unlock_irqrestore(&hw->lock, flags); end_write_timing(length); } static void do_send_packet(struct ipw_hardware *hw, struct ipw_tx_packet *packet) { unsigned short fragment_data_len; unsigned short data_left = packet->length - packet->offset; unsigned short header_size; union nl_packet pkt; header_size = (packet->fragment_count == 0) ? NL_FIRST_PACKET_HEADER_SIZE : NL_FOLLOWING_PACKET_HEADER_SIZE; fragment_data_len = hw->ll_mtu - header_size; if (data_left < fragment_data_len) fragment_data_len = data_left; /* * hdr_first is now in machine bitfield order, which will be swapped * to le just before it goes to hw */ pkt.hdr_first.protocol = packet->protocol; pkt.hdr_first.address = packet->dest_addr; pkt.hdr_first.packet_rank = 0; /* First packet? */ if (packet->fragment_count == 0) { pkt.hdr_first.packet_rank |= NL_FIRST_PACKET; pkt.hdr_first.length_lsb = (unsigned char) packet->length; pkt.hdr_first.length_msb = (unsigned char) (packet->length >> 8); } memcpy(pkt.rawpkt + header_size, ((unsigned char *) packet) + sizeof(struct ipw_tx_packet) + packet->offset, fragment_data_len); packet->offset += fragment_data_len; packet->fragment_count++; /* Last packet? (May also be first packet.) */ if (packet->offset == packet->length) pkt.hdr_first.packet_rank |= NL_LAST_PACKET; do_send_fragment(hw, pkt.rawpkt, header_size + fragment_data_len); /* If this packet has unsent data, then re-queue it. */ if (packet->offset < packet->length) { /* * Re-queue it at the head of the highest priority queue so * it goes before all other packets */ unsigned long flags; spin_lock_irqsave(&hw->lock, flags); list_add(&packet->queue, &hw->tx_queue[0]); hw->tx_queued++; spin_unlock_irqrestore(&hw->lock, flags); } else { if (packet->packet_callback) packet->packet_callback(packet->callback_data, packet->length); kfree(packet); } } static void ipw_setup_hardware(struct ipw_hardware *hw) { unsigned long flags; spin_lock_irqsave(&hw->lock, flags); if (hw->hw_version == HW_VERSION_1) { /* Reset RX FIFO */ outw(DCR_RXRESET, hw->base_port + IODCR); /* SB: Reset TX FIFO */ outw(DCR_TXRESET, hw->base_port + IODCR); /* Enable TX and RX interrupts. */ outw(IER_TXENABLED | IER_RXENABLED, hw->base_port + IOIER); } else { /* * Set INTRACK bit (bit 0), which means we must explicitly * acknowledge interrupts by clearing bit 2 of reg_config_and_status. */ unsigned short csr = readw(&hw->memregs_CCR->reg_config_and_status); csr |= 1; writew(csr, &hw->memregs_CCR->reg_config_and_status); } spin_unlock_irqrestore(&hw->lock, flags); } /* * If 'packet' is NULL, then this function allocates a new packet, setting its * length to 0 and ensuring it has the specified minimum amount of free space. * * If 'packet' is not NULL, then this function enlarges it if it doesn't * have the specified minimum amount of free space. * */ static struct ipw_rx_packet *pool_allocate(struct ipw_hardware *hw, struct ipw_rx_packet *packet, int minimum_free_space) { if (!packet) { unsigned long flags; spin_lock_irqsave(&hw->lock, flags); if (!list_empty(&hw->rx_pool)) { packet = list_first_entry(&hw->rx_pool, struct ipw_rx_packet, queue); hw->rx_pool_size--; spin_unlock_irqrestore(&hw->lock, flags); list_del(&packet->queue); } else { const int min_capacity = ipwireless_ppp_mru(hw->network) + 2; int new_capacity; spin_unlock_irqrestore(&hw->lock, flags); new_capacity = (minimum_free_space > min_capacity ? minimum_free_space : min_capacity); packet = kmalloc(sizeof(struct ipw_rx_packet) + new_capacity, GFP_ATOMIC); if (!packet) return NULL; packet->capacity = new_capacity; } packet->length = 0; } if (packet->length + minimum_free_space > packet->capacity) { struct ipw_rx_packet *old_packet = packet; packet = kmalloc(sizeof(struct ipw_rx_packet) + old_packet->length + minimum_free_space, GFP_ATOMIC); if (!packet) { kfree(old_packet); return NULL; } memcpy(packet, old_packet, sizeof(struct ipw_rx_packet) + old_packet->length); packet->capacity = old_packet->length + minimum_free_space; kfree(old_packet); } return packet; } static void pool_free(struct ipw_hardware *hw, struct ipw_rx_packet *packet) { if (hw->rx_pool_size > 6) kfree(packet); else { hw->rx_pool_size++; list_add(&packet->queue, &hw->rx_pool); } } static void queue_received_packet(struct ipw_hardware *hw, unsigned int protocol, unsigned int address, const unsigned char *data, int length, int is_last) { unsigned int channel_idx = address - 1; struct ipw_rx_packet *packet = NULL; unsigned long flags; /* Discard packet if channel index is out of range. */ if (channel_idx >= NL_NUM_OF_ADDRESSES) { printk(KERN_INFO IPWIRELESS_PCCARD_NAME ": data packet has bad address %u\n", address); return; } /* * ->packet_assembler is safe to touch unlocked, this is the only place */ if (protocol == TL_PROTOCOLID_COM_DATA) { struct ipw_rx_packet **assem = &hw->packet_assembler[channel_idx]; /* * Create a new packet, or assembler already contains one * enlarge it by 'length' bytes. */ (*assem) = pool_allocate(hw, *assem, length); if (!(*assem)) { printk(KERN_ERR IPWIRELESS_PCCARD_NAME ": no memory for incoming data packet, dropped!\n"); return; } (*assem)->protocol = protocol; (*assem)->channel_idx = channel_idx; /* Append this packet data onto existing data. */ memcpy((unsigned char *)(*assem) + sizeof(struct ipw_rx_packet) + (*assem)->length, data, length); (*assem)->length += length; if (is_last) { packet = *assem; *assem = NULL; /* Count queued DATA bytes only */ spin_lock_irqsave(&hw->lock, flags); hw->rx_bytes_queued += packet->length; spin_unlock_irqrestore(&hw->lock, flags); } } else { /* If it's a CTRL packet, don't assemble, just queue it. */ packet = pool_allocate(hw, NULL, length); if (!packet) { printk(KERN_ERR IPWIRELESS_PCCARD_NAME ": no memory for incoming ctrl packet, dropped!\n"); return; } packet->protocol = protocol; packet->channel_idx = channel_idx; memcpy((unsigned char *)packet + sizeof(struct ipw_rx_packet), data, length); packet->length = length; } /* * If this is the last packet, then send the assembled packet on to the * network layer. */ if (packet) { spin_lock_irqsave(&hw->lock, flags); list_add_tail(&packet->queue, &hw->rx_queue); /* Block reception of incoming packets if queue is full. */ hw->blocking_rx = (hw->rx_bytes_queued >= IPWIRELESS_RX_QUEUE_SIZE); spin_unlock_irqrestore(&hw->lock, flags); schedule_work(&hw->work_rx); } } /* * Workqueue callback */ static void ipw_receive_data_work(struct work_struct *work_rx) { struct ipw_hardware *hw = container_of(work_rx, struct ipw_hardware, work_rx); unsigned long flags; spin_lock_irqsave(&hw->lock, flags); while (!list_empty(&hw->rx_queue)) { struct ipw_rx_packet *packet = list_first_entry(&hw->rx_queue, struct ipw_rx_packet, queue); if (hw->shutting_down) break; list_del(&packet->queue); /* * Note: ipwireless_network_packet_received must be called in a * process context (i.e. via schedule_work) because the tty * output code can sleep in the tty_flip_buffer_push call. */ if (packet->protocol == TL_PROTOCOLID_COM_DATA) { if (hw->network != NULL) { /* If the network hasn't been disconnected. */ spin_unlock_irqrestore(&hw->lock, flags); /* * This must run unlocked due to tty processing * and mutex locking */ ipwireless_network_packet_received( hw->network, packet->channel_idx, (unsigned char *)packet + sizeof(struct ipw_rx_packet), packet->length); spin_lock_irqsave(&hw->lock, flags); } /* Count queued DATA bytes only */ hw->rx_bytes_queued -= packet->length; } else { /* * This is safe to be called locked, callchain does * not block */ handle_received_CTRL_packet(hw, packet->channel_idx, (unsigned char *)packet + sizeof(struct ipw_rx_packet), packet->length); } pool_free(hw, packet); /* * Unblock reception of incoming packets if queue is no longer * full. */ hw->blocking_rx = hw->rx_bytes_queued >= IPWIRELESS_RX_QUEUE_SIZE; if (hw->shutting_down) break; } spin_unlock_irqrestore(&hw->lock, flags); } static void handle_received_CTRL_packet(struct ipw_hardware *hw, unsigned int channel_idx, const unsigned char *data, int len) { const struct ipw_control_packet_body *body = (const struct ipw_control_packet_body *) data; unsigned int changed_mask; if (len != sizeof(struct ipw_control_packet_body)) { printk(KERN_INFO IPWIRELESS_PCCARD_NAME ": control packet was %d bytes - wrong size!\n", len); return; } switch (body->sig_no) { case COMCTRL_CTS: changed_mask = IPW_CONTROL_LINE_CTS; break; case COMCTRL_DCD: changed_mask = IPW_CONTROL_LINE_DCD; break; case COMCTRL_DSR: changed_mask = IPW_CONTROL_LINE_DSR; break; case COMCTRL_RI: changed_mask = IPW_CONTROL_LINE_RI; break; default: changed_mask = 0; } if (changed_mask != 0) { if (body->value) hw->control_lines[channel_idx] |= changed_mask; else hw->control_lines[channel_idx] &= ~changed_mask; if (hw->network) ipwireless_network_notify_control_line_change( hw->network, channel_idx, hw->control_lines[channel_idx], changed_mask); } } static void handle_received_packet(struct ipw_hardware *hw, const union nl_packet *packet, unsigned short len) { unsigned int protocol = packet->hdr.protocol; unsigned int address = packet->hdr.address; unsigned int header_length; const unsigned char *data; unsigned int data_len; int is_last = packet->hdr.packet_rank & NL_LAST_PACKET; if (packet->hdr.packet_rank & NL_FIRST_PACKET) header_length = NL_FIRST_PACKET_HEADER_SIZE; else header_length = NL_FOLLOWING_PACKET_HEADER_SIZE; data = packet->rawpkt + header_length; data_len = len - header_length; switch (protocol) { case TL_PROTOCOLID_COM_DATA: case TL_PROTOCOLID_COM_CTRL: queue_received_packet(hw, protocol, address, data, data_len, is_last); break; case TL_PROTOCOLID_SETUP: handle_received_SETUP_packet(hw, address, data, data_len, is_last); break; } } static void acknowledge_data_read(struct ipw_hardware *hw) { if (hw->hw_version == HW_VERSION_1) outw(DCR_RXDONE, hw->base_port + IODCR); else writew(MEMRX_PCINTACKK, &hw->memory_info_regs->memreg_pc_interrupt_ack); } /* * Retrieve a packet from the IPW hardware. */ static void do_receive_packet(struct ipw_hardware *hw) { unsigned len; unsigned i; unsigned char pkt[LL_MTU_MAX]; start_timing(); if (hw->hw_version == HW_VERSION_1) { len = inw(hw->base_port + IODRR); if (len > hw->ll_mtu) { printk(KERN_INFO IPWIRELESS_PCCARD_NAME ": received a packet of %u bytes - longer than the MTU!\n", len); outw(DCR_RXDONE | DCR_RXRESET, hw->base_port + IODCR); return; } for (i = 0; i < len; i += 2) { __le16 raw_data = inw(hw->base_port + IODRR); unsigned short data = le16_to_cpu(raw_data); pkt[i] = (unsigned char) data; pkt[i + 1] = (unsigned char) (data >> 8); } } else { len = inw(hw->base_port); if (len > hw->ll_mtu) { printk(KERN_INFO IPWIRELESS_PCCARD_NAME ": received a packet of %u bytes - longer than the MTU!\n", len); writew(MEMRX_PCINTACKK, &hw->memory_info_regs->memreg_pc_interrupt_ack); return; } for (i = 0; i < len; i += 2) { __le16 raw_data = inw(hw->base_port); unsigned short data = le16_to_cpu(raw_data); pkt[i] = (unsigned char) data; pkt[i + 1] = (unsigned char) (data >> 8); } while ((i & 3) != 2) { inw(hw->base_port); i += 2; } } acknowledge_data_read(hw); swap_packet_bitfield_from_le(pkt); if (ipwireless_debug) dump_data_bytes("recv", pkt, len); handle_received_packet(hw, (union nl_packet *) pkt, len); end_read_timing(len); } static int get_current_packet_priority(struct ipw_hardware *hw) { /* * If we're initializing, don't send anything of higher priority than * PRIO_SETUP. The network layer therefore need not care about * hardware initialization - any of its stuff will simply be queued * until setup is complete. */ return (hw->to_setup || hw->initializing ? PRIO_SETUP + 1 : NL_NUM_OF_PRIORITIES); } /* * return 1 if something has been received from hw */ static int get_packets_from_hw(struct ipw_hardware *hw) { int received = 0; unsigned long flags; spin_lock_irqsave(&hw->lock, flags); while (hw->rx_ready && !hw->blocking_rx) { received = 1; hw->rx_ready--; spin_unlock_irqrestore(&hw->lock, flags); do_receive_packet(hw); spin_lock_irqsave(&hw->lock, flags); } spin_unlock_irqrestore(&hw->lock, flags); return received; } /* * Send pending packet up to given priority, prioritize SETUP data until * hardware is fully setup. * * return 1 if more packets can be sent */ static int send_pending_packet(struct ipw_hardware *hw, int priority_limit) { int more_to_send = 0; unsigned long flags; spin_lock_irqsave(&hw->lock, flags); if (hw->tx_queued && hw->tx_ready) { int priority; struct ipw_tx_packet *packet = NULL; /* Pick a packet */ for (priority = 0; priority < priority_limit; priority++) { if (!list_empty(&hw->tx_queue[priority])) { packet = list_first_entry( &hw->tx_queue[priority], struct ipw_tx_packet, queue); hw->tx_queued--; list_del(&packet->queue); break; } } if (!packet) { hw->tx_queued = 0; spin_unlock_irqrestore(&hw->lock, flags); return 0; } spin_unlock_irqrestore(&hw->lock, flags); /* Send */ do_send_packet(hw, packet); /* Check if more to send */ spin_lock_irqsave(&hw->lock, flags); for (priority = 0; priority < priority_limit; priority++) if (!list_empty(&hw->tx_queue[priority])) { more_to_send = 1; break; } if (!more_to_send) hw->tx_queued = 0; } spin_unlock_irqrestore(&hw->lock, flags); return more_to_send; } /* * Send and receive all queued packets. */ static void ipwireless_do_tasklet(struct tasklet_struct *t) { struct ipw_hardware *hw = from_tasklet(hw, t, tasklet); unsigned long flags; spin_lock_irqsave(&hw->lock, flags); if (hw->shutting_down) { spin_unlock_irqrestore(&hw->lock, flags); return; } if (hw->to_setup == 1) { /* * Initial setup data sent to hardware */ hw->to_setup = 2; spin_unlock_irqrestore(&hw->lock, flags); ipw_setup_hardware(hw); ipw_send_setup_packet(hw); send_pending_packet(hw, PRIO_SETUP + 1); get_packets_from_hw(hw); } else { int priority_limit = get_current_packet_priority(hw); int again; spin_unlock_irqrestore(&hw->lock, flags); do { again = send_pending_packet(hw, priority_limit); again |= get_packets_from_hw(hw); } while (again); } } /* * return true if the card is physically present. */ static int is_card_present(struct ipw_hardware *hw) { if (hw->hw_version == HW_VERSION_1) return inw(hw->base_port + IOIR) != 0xFFFF; else return readl(&hw->memory_info_regs->memreg_card_present) == CARD_PRESENT_VALUE; } static irqreturn_t ipwireless_handle_v1_interrupt(int irq, struct ipw_hardware *hw) { unsigned short irqn; irqn = inw(hw->base_port + IOIR); /* Check if card is present */ if (irqn == 0xFFFF) return IRQ_NONE; else if (irqn != 0) { unsigned short ack = 0; unsigned long flags; /* Transmit complete. */ if (irqn & IR_TXINTR) { ack |= IR_TXINTR; spin_lock_irqsave(&hw->lock, flags); hw->tx_ready = 1; spin_unlock_irqrestore(&hw->lock, flags); } /* Received data */ if (irqn & IR_RXINTR) { ack |= IR_RXINTR; spin_lock_irqsave(&hw->lock, flags); hw->rx_ready++; spin_unlock_irqrestore(&hw->lock, flags); } if (ack != 0) { outw(ack, hw->base_port + IOIR); tasklet_schedule(&hw->tasklet); } return IRQ_HANDLED; } return IRQ_NONE; } static void acknowledge_pcmcia_interrupt(struct ipw_hardware *hw) { unsigned short csr = readw(&hw->memregs_CCR->reg_config_and_status); csr &= 0xfffd; writew(csr, &hw->memregs_CCR->reg_config_and_status); } static irqreturn_t ipwireless_handle_v2_v3_interrupt(int irq, struct ipw_hardware *hw) { int tx = 0; int rx = 0; int rx_repeat = 0; int try_mem_tx_old; unsigned long flags; do { unsigned short memtx = readw(hw->memreg_tx); unsigned short memtx_serial; unsigned short memrxdone = readw(&hw->memory_info_regs->memreg_rx_done); try_mem_tx_old = 0; /* check whether the interrupt was generated by ipwireless card */ if (!(memtx & MEMTX_TX) && !(memrxdone & MEMRX_RX_DONE)) { /* check if the card uses memreg_tx_old register */ if (hw->memreg_tx == &hw->memory_info_regs->memreg_tx_new) { memtx = readw(&hw->memory_info_regs->memreg_tx_old); if (memtx & MEMTX_TX) { printk(KERN_INFO IPWIRELESS_PCCARD_NAME ": Using memreg_tx_old\n"); hw->memreg_tx = &hw->memory_info_regs->memreg_tx_old; } else { return IRQ_NONE; } } else return IRQ_NONE; } /* * See if the card is physically present. Note that while it is * powering up, it appears not to be present. */ if (!is_card_present(hw)) { acknowledge_pcmcia_interrupt(hw); return IRQ_HANDLED; } memtx_serial = memtx & (unsigned short) 0xff00; if (memtx & MEMTX_TX) { writew(memtx_serial, hw->memreg_tx); if (hw->serial_number_detected) { if (memtx_serial != hw->last_memtx_serial) { hw->last_memtx_serial = memtx_serial; spin_lock_irqsave(&hw->lock, flags); hw->rx_ready++; spin_unlock_irqrestore(&hw->lock, flags); rx = 1; } else /* Ignore 'Timer Recovery' duplicates. */ rx_repeat = 1; } else { /* * If a non-zero serial number is seen, then enable * serial number checking. */ if (memtx_serial != 0) { hw->serial_number_detected = 1; printk(KERN_DEBUG IPWIRELESS_PCCARD_NAME ": memreg_tx serial num detected\n"); spin_lock_irqsave(&hw->lock, flags); hw->rx_ready++; spin_unlock_irqrestore(&hw->lock, flags); } rx = 1; } } if (memrxdone & MEMRX_RX_DONE) { writew(0, &hw->memory_info_regs->memreg_rx_done); spin_lock_irqsave(&hw->lock, flags); hw->tx_ready = 1; spin_unlock_irqrestore(&hw->lock, flags); tx = 1; } if (tx) writew(MEMRX_PCINTACKK, &hw->memory_info_regs->memreg_pc_interrupt_ack); acknowledge_pcmcia_interrupt(hw); if (tx || rx) tasklet_schedule(&hw->tasklet); else if (!rx_repeat) { if (hw->memreg_tx == &hw->memory_info_regs->memreg_tx_new) { if (hw->serial_number_detected) printk(KERN_WARNING IPWIRELESS_PCCARD_NAME ": spurious interrupt - new_tx mode\n"); else { printk(KERN_WARNING IPWIRELESS_PCCARD_NAME ": no valid memreg_tx value - switching to the old memreg_tx\n"); hw->memreg_tx = &hw->memory_info_regs->memreg_tx_old; try_mem_tx_old = 1; } } else printk(KERN_WARNING IPWIRELESS_PCCARD_NAME ": spurious interrupt - old_tx mode\n"); } } while (try_mem_tx_old == 1); return IRQ_HANDLED; } irqreturn_t ipwireless_interrupt(int irq, void *dev_id) { struct ipw_dev *ipw = dev_id; if (ipw->hardware->hw_version == HW_VERSION_1) return ipwireless_handle_v1_interrupt(irq, ipw->hardware); else return ipwireless_handle_v2_v3_interrupt(irq, ipw->hardware); } static void flush_packets_to_hw(struct ipw_hardware *hw) { int priority_limit; unsigned long flags; spin_lock_irqsave(&hw->lock, flags); priority_limit = get_current_packet_priority(hw); spin_unlock_irqrestore(&hw->lock, flags); while (send_pending_packet(hw, priority_limit)); } static void send_packet(struct ipw_hardware *hw, int priority, struct ipw_tx_packet *packet) { unsigned long flags; spin_lock_irqsave(&hw->lock, flags); list_add_tail(&packet->queue, &hw->tx_queue[priority]); hw->tx_queued++; spin_unlock_irqrestore(&hw->lock, flags); flush_packets_to_hw(hw); } /* Create data packet, non-atomic allocation */ static void *alloc_data_packet(int data_size, unsigned char dest_addr, unsigned char protocol) { struct ipw_tx_packet *packet = kzalloc( sizeof(struct ipw_tx_packet) + data_size, GFP_ATOMIC); if (!packet) return NULL; INIT_LIST_HEAD(&packet->queue); packet->dest_addr = dest_addr; packet->protocol = protocol; packet->length = data_size; return packet; } static void *alloc_ctrl_packet(int header_size, unsigned char dest_addr, unsigned char protocol, unsigned char sig_no) { /* * sig_no is located right after ipw_tx_packet struct in every * CTRL or SETUP packets, we can use ipw_control_packet as a * common struct */ struct ipw_control_packet *packet = kzalloc(header_size, GFP_ATOMIC); if (!packet) return NULL; INIT_LIST_HEAD(&packet->header.queue); packet->header.dest_addr = dest_addr; packet->header.protocol = protocol; packet->header.length = header_size - sizeof(struct ipw_tx_packet); packet->body.sig_no = sig_no; return packet; } int ipwireless_send_packet(struct ipw_hardware *hw, unsigned int channel_idx, const unsigned char *data, unsigned int length, void (*callback) (void *cb, unsigned int length), void *callback_data) { struct ipw_tx_packet *packet; packet = alloc_data_packet(length, (channel_idx + 1), TL_PROTOCOLID_COM_DATA); if (!packet) return -ENOMEM; packet->packet_callback = callback; packet->callback_data = callback_data; memcpy((unsigned char *) packet + sizeof(struct ipw_tx_packet), data, length); send_packet(hw, PRIO_DATA, packet); return 0; } static int set_control_line(struct ipw_hardware *hw, int prio, unsigned int channel_idx, int line, int state) { struct ipw_control_packet *packet; int protocolid = TL_PROTOCOLID_COM_CTRL; if (prio == PRIO_SETUP) protocolid = TL_PROTOCOLID_SETUP; packet = alloc_ctrl_packet(sizeof(struct ipw_control_packet), (channel_idx + 1), protocolid, line); if (!packet) return -ENOMEM; packet->header.length = sizeof(struct ipw_control_packet_body); packet->body.value = (state == 0 ? 0 : 1); send_packet(hw, prio, &packet->header); return 0; } static int set_DTR(struct ipw_hardware *hw, int priority, unsigned int channel_idx, int state) { if (state != 0) hw->control_lines[channel_idx] |= IPW_CONTROL_LINE_DTR; else hw->control_lines[channel_idx] &= ~IPW_CONTROL_LINE_DTR; return set_control_line(hw, priority, channel_idx, COMCTRL_DTR, state); } static int set_RTS(struct ipw_hardware *hw, int priority, unsigned int channel_idx, int state) { if (state != 0) hw->control_lines[channel_idx] |= IPW_CONTROL_LINE_RTS; else hw->control_lines[channel_idx] &= ~IPW_CONTROL_LINE_RTS; return set_control_line(hw, priority, channel_idx, COMCTRL_RTS, state); } int ipwireless_set_DTR(struct ipw_hardware *hw, unsigned int channel_idx, int state) { return set_DTR(hw, PRIO_CTRL, channel_idx, state); } int ipwireless_set_RTS(struct ipw_hardware *hw, unsigned int channel_idx, int state) { return set_RTS(hw, PRIO_CTRL, channel_idx, state); } struct ipw_setup_get_version_query_packet { struct ipw_tx_packet header; struct tl_setup_get_version_qry body; }; struct ipw_setup_config_packet { struct ipw_tx_packet header; struct tl_setup_config_msg body; }; struct ipw_setup_config_done_packet { struct ipw_tx_packet header; struct tl_setup_config_done_msg body; }; struct ipw_setup_open_packet { struct ipw_tx_packet header; struct tl_setup_open_msg body; }; struct ipw_setup_info_packet { struct ipw_tx_packet header; struct tl_setup_info_msg body; }; struct ipw_setup_reboot_msg_ack { struct ipw_tx_packet header; struct TlSetupRebootMsgAck body; }; /* This handles the actual initialization of the card */ static void __handle_setup_get_version_rsp(struct ipw_hardware *hw) { struct ipw_setup_config_packet *config_packet; struct ipw_setup_config_done_packet *config_done_packet; struct ipw_setup_open_packet *open_packet; struct ipw_setup_info_packet *info_packet; int port; unsigned int channel_idx; /* generate config packet */ for (port = 1; port <= NL_NUM_OF_ADDRESSES; port++) { config_packet = alloc_ctrl_packet( sizeof(struct ipw_setup_config_packet), ADDR_SETUP_PROT, TL_PROTOCOLID_SETUP, TL_SETUP_SIGNO_CONFIG_MSG); if (!config_packet) goto exit_nomem; config_packet->header.length = sizeof(struct tl_setup_config_msg); config_packet->body.port_no = port; config_packet->body.prio_data = PRIO_DATA; config_packet->body.prio_ctrl = PRIO_CTRL; send_packet(hw, PRIO_SETUP, &config_packet->header); } config_done_packet = alloc_ctrl_packet( sizeof(struct ipw_setup_config_done_packet), ADDR_SETUP_PROT, TL_PROTOCOLID_SETUP, TL_SETUP_SIGNO_CONFIG_DONE_MSG); if (!config_done_packet) goto exit_nomem; config_done_packet->header.length = sizeof(struct tl_setup_config_done_msg); send_packet(hw, PRIO_SETUP, &config_done_packet->header); /* generate open packet */ for (port = 1; port <= NL_NUM_OF_ADDRESSES; port++) { open_packet = alloc_ctrl_packet( sizeof(struct ipw_setup_open_packet), ADDR_SETUP_PROT, TL_PROTOCOLID_SETUP, TL_SETUP_SIGNO_OPEN_MSG); if (!open_packet) goto exit_nomem; open_packet->header.length = sizeof(struct tl_setup_open_msg); open_packet->body.port_no = port; send_packet(hw, PRIO_SETUP, &open_packet->header); } for (channel_idx = 0; channel_idx < NL_NUM_OF_ADDRESSES; channel_idx++) { int ret; ret = set_DTR(hw, PRIO_SETUP, channel_idx, (hw->control_lines[channel_idx] & IPW_CONTROL_LINE_DTR) != 0); if (ret) { printk(KERN_ERR IPWIRELESS_PCCARD_NAME ": error setting DTR (%d)\n", ret); return; } ret = set_RTS(hw, PRIO_SETUP, channel_idx, (hw->control_lines [channel_idx] & IPW_CONTROL_LINE_RTS) != 0); if (ret) { printk(KERN_ERR IPWIRELESS_PCCARD_NAME ": error setting RTS (%d)\n", ret); return; } } /* * For NDIS we assume that we are using sync PPP frames, for COM async. * This driver uses NDIS mode too. We don't bother with translation * from async -> sync PPP. */ info_packet = alloc_ctrl_packet(sizeof(struct ipw_setup_info_packet), ADDR_SETUP_PROT, TL_PROTOCOLID_SETUP, TL_SETUP_SIGNO_INFO_MSG); if (!info_packet) goto exit_nomem; info_packet->header.length = sizeof(struct tl_setup_info_msg); info_packet->body.driver_type = NDISWAN_DRIVER; info_packet->body.major_version = NDISWAN_DRIVER_MAJOR_VERSION; info_packet->body.minor_version = NDISWAN_DRIVER_MINOR_VERSION; send_packet(hw, PRIO_SETUP, &info_packet->header); /* Initialization is now complete, so we clear the 'to_setup' flag */ hw->to_setup = 0; return; exit_nomem: printk(KERN_ERR IPWIRELESS_PCCARD_NAME ": not enough memory to alloc control packet\n"); hw->to_setup = -1; } static void handle_setup_get_version_rsp(struct ipw_hardware *hw, unsigned char vers_no) { del_timer(&hw->setup_timer); hw->initializing = 0; printk(KERN_INFO IPWIRELESS_PCCARD_NAME ": card is ready.\n"); if (vers_no == TL_SETUP_VERSION) __handle_setup_get_version_rsp(hw); else printk(KERN_ERR IPWIRELESS_PCCARD_NAME ": invalid hardware version no %u\n", (unsigned int) vers_no); } static void ipw_send_setup_packet(struct ipw_hardware *hw) { struct ipw_setup_get_version_query_packet *ver_packet; ver_packet = alloc_ctrl_packet( sizeof(struct ipw_setup_get_version_query_packet), ADDR_SETUP_PROT, TL_PROTOCOLID_SETUP, TL_SETUP_SIGNO_GET_VERSION_QRY); if (!ver_packet) return; ver_packet->header.length = sizeof(struct tl_setup_get_version_qry); /* * Response is handled in handle_received_SETUP_packet */ send_packet(hw, PRIO_SETUP, &ver_packet->header); } static void handle_received_SETUP_packet(struct ipw_hardware *hw, unsigned int address, const unsigned char *data, int len, int is_last) { const union ipw_setup_rx_msg *rx_msg = (const union ipw_setup_rx_msg *) data; if (address != ADDR_SETUP_PROT) { printk(KERN_INFO IPWIRELESS_PCCARD_NAME ": setup packet has bad address %d\n", address); return; } switch (rx_msg->sig_no) { case TL_SETUP_SIGNO_GET_VERSION_RSP: if (hw->to_setup) handle_setup_get_version_rsp(hw, rx_msg->version_rsp_msg.version); break; case TL_SETUP_SIGNO_OPEN_MSG: if (ipwireless_debug) { unsigned int channel_idx = rx_msg->open_msg.port_no - 1; printk(KERN_INFO IPWIRELESS_PCCARD_NAME ": OPEN_MSG [channel %u] reply received\n", channel_idx); } break; case TL_SETUP_SIGNO_INFO_MSG_ACK: if (ipwireless_debug) printk(KERN_DEBUG IPWIRELESS_PCCARD_NAME ": card successfully configured as NDISWAN\n"); break; case TL_SETUP_SIGNO_REBOOT_MSG: if (hw->to_setup) printk(KERN_DEBUG IPWIRELESS_PCCARD_NAME ": Setup not completed - ignoring reboot msg\n"); else { struct ipw_setup_reboot_msg_ack *packet; printk(KERN_DEBUG IPWIRELESS_PCCARD_NAME ": Acknowledging REBOOT message\n"); packet = alloc_ctrl_packet( sizeof(struct ipw_setup_reboot_msg_ack), ADDR_SETUP_PROT, TL_PROTOCOLID_SETUP, TL_SETUP_SIGNO_REBOOT_MSG_ACK); if (!packet) { pr_err(IPWIRELESS_PCCARD_NAME ": Not enough memory to send reboot packet"); break; } packet->header.length = sizeof(struct TlSetupRebootMsgAck); send_packet(hw, PRIO_SETUP, &packet->header); if (hw->reboot_callback) hw->reboot_callback(hw->reboot_callback_data); } break; default: printk(KERN_INFO IPWIRELESS_PCCARD_NAME ": unknown setup message %u received\n", (unsigned int) rx_msg->sig_no); } } static void do_close_hardware(struct ipw_hardware *hw) { unsigned int irqn; if (hw->hw_version == HW_VERSION_1) { /* Disable TX and RX interrupts. */ outw(0, hw->base_port + IOIER); /* Acknowledge any outstanding interrupt requests */ irqn = inw(hw->base_port + IOIR); if (irqn & IR_TXINTR) outw(IR_TXINTR, hw->base_port + IOIR); if (irqn & IR_RXINTR) outw(IR_RXINTR, hw->base_port + IOIR); synchronize_irq(hw->irq); } } struct ipw_hardware *ipwireless_hardware_create(void) { int i; struct ipw_hardware *hw = kzalloc(sizeof(struct ipw_hardware), GFP_KERNEL); if (!hw) return NULL; hw->irq = -1; hw->initializing = 1; hw->tx_ready = 1; hw->rx_bytes_queued = 0; hw->rx_pool_size = 0; hw->last_memtx_serial = (unsigned short) 0xffff; for (i = 0; i < NL_NUM_OF_PRIORITIES; i++) INIT_LIST_HEAD(&hw->tx_queue[i]); INIT_LIST_HEAD(&hw->rx_queue); INIT_LIST_HEAD(&hw->rx_pool); spin_lock_init(&hw->lock); tasklet_setup(&hw->tasklet, ipwireless_do_tasklet); INIT_WORK(&hw->work_rx, ipw_receive_data_work); timer_setup(&hw->setup_timer, ipwireless_setup_timer, 0); return hw; } void ipwireless_init_hardware_v1(struct ipw_hardware *hw, unsigned int base_port, void __iomem *attr_memory, void __iomem *common_memory, int is_v2_card, void (*reboot_callback) (void *data), void *reboot_callback_data) { if (hw->removed) { hw->removed = 0; enable_irq(hw->irq); } hw->base_port = base_port; hw->hw_version = (is_v2_card ? HW_VERSION_2 : HW_VERSION_1); hw->ll_mtu = (hw->hw_version == HW_VERSION_1 ? LL_MTU_V1 : LL_MTU_V2); hw->memregs_CCR = (struct MEMCCR __iomem *) ((unsigned short __iomem *) attr_memory + 0x200); hw->memory_info_regs = (struct MEMINFREG __iomem *) common_memory; hw->memreg_tx = &hw->memory_info_regs->memreg_tx_new; hw->reboot_callback = reboot_callback; hw->reboot_callback_data = reboot_callback_data; } void ipwireless_init_hardware_v2_v3(struct ipw_hardware *hw) { hw->initializing = 1; hw->init_loops = 0; printk(KERN_INFO IPWIRELESS_PCCARD_NAME ": waiting for card to start up...\n"); ipwireless_setup_timer(&hw->setup_timer); } static void ipwireless_setup_timer(struct timer_list *t) { struct ipw_hardware *hw = from_timer(hw, t, setup_timer); hw->init_loops++; if (hw->init_loops == TL_SETUP_MAX_VERSION_QRY && hw->hw_version == HW_VERSION_2 && hw->memreg_tx == &hw->memory_info_regs->memreg_tx_new) { printk(KERN_INFO IPWIRELESS_PCCARD_NAME ": failed to startup using TX2, trying TX\n"); hw->memreg_tx = &hw->memory_info_regs->memreg_tx_old; hw->init_loops = 0; } /* Give up after a certain number of retries */ if (hw->init_loops == TL_SETUP_MAX_VERSION_QRY) { printk(KERN_INFO IPWIRELESS_PCCARD_NAME ": card failed to start up!\n"); hw->initializing = 0; } else { /* Do not attempt to write to the board if it is not present. */ if (is_card_present(hw)) { unsigned long flags; spin_lock_irqsave(&hw->lock, flags); hw->to_setup = 1; hw->tx_ready = 1; spin_unlock_irqrestore(&hw->lock, flags); tasklet_schedule(&hw->tasklet); } mod_timer(&hw->setup_timer, jiffies + msecs_to_jiffies(TL_SETUP_VERSION_QRY_TMO)); } } /* * Stop any interrupts from executing so that, once this function returns, * other layers of the driver can be sure they won't get any more callbacks. * Thus must be called on a proper process context. */ void ipwireless_stop_interrupts(struct ipw_hardware *hw) { if (!hw->shutting_down) { /* Tell everyone we are going down. */ hw->shutting_down = 1; del_timer(&hw->setup_timer); /* Prevent the hardware from sending any more interrupts */ do_close_hardware(hw); } } void ipwireless_hardware_free(struct ipw_hardware *hw) { int i; struct ipw_rx_packet *rp, *rq; struct ipw_tx_packet *tp, *tq; ipwireless_stop_interrupts(hw); flush_work(&hw->work_rx); for (i = 0; i < NL_NUM_OF_ADDRESSES; i++) kfree(hw->packet_assembler[i]); for (i = 0; i < NL_NUM_OF_PRIORITIES; i++) list_for_each_entry_safe(tp, tq, &hw->tx_queue[i], queue) { list_del(&tp->queue); kfree(tp); } list_for_each_entry_safe(rp, rq, &hw->rx_queue, queue) { list_del(&rp->queue); kfree(rp); } list_for_each_entry_safe(rp, rq, &hw->rx_pool, queue) { list_del(&rp->queue); kfree(rp); } kfree(hw); } /* * Associate the specified network with this hardware, so it will receive events * from it. */ void ipwireless_associate_network(struct ipw_hardware *hw, struct ipw_network *network) { hw->network = network; } |