diff options
Diffstat (limited to 'drivers/net/ethernet/agere/et131x.c')
-rw-r--r-- | drivers/net/ethernet/agere/et131x.c | 4064 |
1 files changed, 4064 insertions, 0 deletions
diff --git a/drivers/net/ethernet/agere/et131x.c b/drivers/net/ethernet/agere/et131x.c new file mode 100644 index 0000000000..3d9220f9c9 --- /dev/null +++ b/drivers/net/ethernet/agere/et131x.c @@ -0,0 +1,4064 @@ +/* Agere Systems Inc. + * 10/100/1000 Base-T Ethernet Driver for the ET1301 and ET131x series MACs + * + * Copyright © 2005 Agere Systems Inc. + * All rights reserved. + * http://www.agere.com + * + * Copyright (c) 2011 Mark Einon <mark.einon@gmail.com> + * + *------------------------------------------------------------------------------ + * + * SOFTWARE LICENSE + * + * This software is provided subject to the following terms and conditions, + * which you should read carefully before using the software. Using this + * software indicates your acceptance of these terms and conditions. If you do + * not agree with these terms and conditions, do not use the software. + * + * Copyright © 2005 Agere Systems Inc. + * All rights reserved. + * + * Redistribution and use in source or binary forms, with or without + * modifications, are permitted provided that the following conditions are met: + * + * . Redistributions of source code must retain the above copyright notice, this + * list of conditions and the following Disclaimer as comments in the code as + * well as in the documentation and/or other materials provided with the + * distribution. + * + * . Redistributions in binary form must reproduce the above copyright notice, + * this list of conditions and the following Disclaimer in the documentation + * and/or other materials provided with the distribution. + * + * . Neither the name of Agere Systems Inc. nor the names of the contributors + * may be used to endorse or promote products derived from this software + * without specific prior written permission. + * + * Disclaimer + * + * THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, + * INCLUDING, BUT NOT LIMITED TO, INFRINGEMENT AND THE IMPLIED WARRANTIES OF + * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. ANY + * USE, MODIFICATION OR DISTRIBUTION OF THIS SOFTWARE IS SOLELY AT THE USERS OWN + * RISK. IN NO EVENT SHALL AGERE SYSTEMS INC. OR CONTRIBUTORS BE LIABLE FOR ANY + * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES + * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; + * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND + * ON ANY THEORY OF LIABILITY, INCLUDING, BUT NOT LIMITED TO, CONTRACT, STRICT + * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT + * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH + * DAMAGE. + */ + +#define pr_fmt(fmt) KBUILD_MODNAME ": " fmt + +#include <linux/pci.h> +#include <linux/module.h> +#include <linux/types.h> +#include <linux/kernel.h> + +#include <linux/sched.h> +#include <linux/ptrace.h> +#include <linux/slab.h> +#include <linux/ctype.h> +#include <linux/string.h> +#include <linux/timer.h> +#include <linux/interrupt.h> +#include <linux/in.h> +#include <linux/delay.h> +#include <linux/bitops.h> +#include <linux/io.h> + +#include <linux/netdevice.h> +#include <linux/etherdevice.h> +#include <linux/skbuff.h> +#include <linux/if_arp.h> +#include <linux/ioport.h> +#include <linux/crc32.h> +#include <linux/random.h> +#include <linux/phy.h> + +#include "et131x.h" + +MODULE_AUTHOR("Victor Soriano <vjsoriano@agere.com>"); +MODULE_AUTHOR("Mark Einon <mark.einon@gmail.com>"); +MODULE_LICENSE("Dual BSD/GPL"); +MODULE_DESCRIPTION("10/100/1000 Base-T Ethernet Driver for the ET1310 by Agere Systems"); + +/* EEPROM defines */ +#define MAX_NUM_REGISTER_POLLS 1000 +#define MAX_NUM_WRITE_RETRIES 2 + +/* MAC defines */ +#define COUNTER_WRAP_16_BIT 0x10000 +#define COUNTER_WRAP_12_BIT 0x1000 + +/* PCI defines */ +#define INTERNAL_MEM_SIZE 0x400 /* 1024 of internal memory */ +#define INTERNAL_MEM_RX_OFFSET 0x1FF /* 50% Tx, 50% Rx */ + +/* ISR defines */ +/* For interrupts, normal running is: + * rxdma_xfr_done, phy_interrupt, mac_stat_interrupt, + * watchdog_interrupt & txdma_xfer_done + * + * In both cases, when flow control is enabled for either Tx or bi-direction, + * we additional enable rx_fbr0_low and rx_fbr1_low, so we know when the + * buffer rings are running low. + */ +#define INT_MASK_DISABLE 0xffffffff + +/* NOTE: Masking out MAC_STAT Interrupt for now... + * #define INT_MASK_ENABLE 0xfff6bf17 + * #define INT_MASK_ENABLE_NO_FLOW 0xfff6bfd7 + */ +#define INT_MASK_ENABLE 0xfffebf17 +#define INT_MASK_ENABLE_NO_FLOW 0xfffebfd7 + +/* General defines */ +/* Packet and header sizes */ +#define NIC_MIN_PACKET_SIZE 60 + +/* Multicast list size */ +#define NIC_MAX_MCAST_LIST 128 + +/* Supported Filters */ +#define ET131X_PACKET_TYPE_DIRECTED 0x0001 +#define ET131X_PACKET_TYPE_MULTICAST 0x0002 +#define ET131X_PACKET_TYPE_BROADCAST 0x0004 +#define ET131X_PACKET_TYPE_PROMISCUOUS 0x0008 +#define ET131X_PACKET_TYPE_ALL_MULTICAST 0x0010 + +/* Tx Timeout */ +#define ET131X_TX_TIMEOUT (1 * HZ) +#define NIC_SEND_HANG_THRESHOLD 0 + +/* MP_ADAPTER flags */ +#define FMP_ADAPTER_INTERRUPT_IN_USE 0x00000008 + +/* MP_SHARED flags */ +#define FMP_ADAPTER_LOWER_POWER 0x00200000 + +#define FMP_ADAPTER_NON_RECOVER_ERROR 0x00800000 +#define FMP_ADAPTER_HARDWARE_ERROR 0x04000000 + +#define FMP_ADAPTER_FAIL_SEND_MASK 0x3ff00000 + +/* Some offsets in PCI config space that are actually used. */ +#define ET1310_PCI_MAC_ADDRESS 0xA4 +#define ET1310_PCI_EEPROM_STATUS 0xB2 +#define ET1310_PCI_ACK_NACK 0xC0 +#define ET1310_PCI_REPLAY 0xC2 +#define ET1310_PCI_L0L1LATENCY 0xCF + +/* PCI Product IDs */ +#define ET131X_PCI_DEVICE_ID_GIG 0xED00 /* ET1310 1000 Base-T 8 */ +#define ET131X_PCI_DEVICE_ID_FAST 0xED01 /* ET1310 100 Base-T */ + +/* Define order of magnitude converter */ +#define NANO_IN_A_MICRO 1000 + +#define PARM_RX_NUM_BUFS_DEF 4 +#define PARM_RX_TIME_INT_DEF 10 +#define PARM_RX_MEM_END_DEF 0x2bc +#define PARM_TX_TIME_INT_DEF 40 +#define PARM_TX_NUM_BUFS_DEF 4 +#define PARM_DMA_CACHE_DEF 0 + +/* RX defines */ +#define FBR_CHUNKS 32 +#define MAX_DESC_PER_RING_RX 1024 + +/* number of RFDs - default and min */ +#define RFD_LOW_WATER_MARK 40 +#define NIC_DEFAULT_NUM_RFD 1024 +#define NUM_FBRS 2 + +#define MAX_PACKETS_HANDLED 256 +#define ET131X_MIN_MTU 64 +#define ET131X_MAX_MTU 9216 + +#define ALCATEL_MULTICAST_PKT 0x01000000 +#define ALCATEL_BROADCAST_PKT 0x02000000 + +/* typedefs for Free Buffer Descriptors */ +struct fbr_desc { + u32 addr_lo; + u32 addr_hi; + u32 word2; /* Bits 10-31 reserved, 0-9 descriptor */ +}; + +/* Packet Status Ring Descriptors + * + * Word 0: + * + * top 16 bits are from the Alcatel Status Word as enumerated in + * PE-MCXMAC Data Sheet IPD DS54 0210-1 (also IPD-DS80 0205-2) + * + * 0: hp hash pass + * 1: ipa IP checksum assist + * 2: ipp IP checksum pass + * 3: tcpa TCP checksum assist + * 4: tcpp TCP checksum pass + * 5: wol WOL Event + * 6: rxmac_error RXMAC Error Indicator + * 7: drop Drop packet + * 8: ft Frame Truncated + * 9: jp Jumbo Packet + * 10: vp VLAN Packet + * 11-15: unused + * 16: asw_prev_pkt_dropped e.g. IFG too small on previous + * 17: asw_RX_DV_event short receive event detected + * 18: asw_false_carrier_event bad carrier since last good packet + * 19: asw_code_err one or more nibbles signalled as errors + * 20: asw_CRC_err CRC error + * 21: asw_len_chk_err frame length field incorrect + * 22: asw_too_long frame length > 1518 bytes + * 23: asw_OK valid CRC + no code error + * 24: asw_multicast has a multicast address + * 25: asw_broadcast has a broadcast address + * 26: asw_dribble_nibble spurious bits after EOP + * 27: asw_control_frame is a control frame + * 28: asw_pause_frame is a pause frame + * 29: asw_unsupported_op unsupported OP code + * 30: asw_VLAN_tag VLAN tag detected + * 31: asw_long_evt Rx long event + * + * Word 1: + * 0-15: length length in bytes + * 16-25: bi Buffer Index + * 26-27: ri Ring Index + * 28-31: reserved + */ +struct pkt_stat_desc { + u32 word0; + u32 word1; +}; + +/* Typedefs for the RX DMA status word */ + +/* rx status word 0 holds part of the status bits of the Rx DMA engine + * that get copied out to memory by the ET-1310. Word 0 is a 32 bit word + * which contains the Free Buffer ring 0 and 1 available offset. + * + * bit 0-9 FBR1 offset + * bit 10 Wrap flag for FBR1 + * bit 16-25 FBR0 offset + * bit 26 Wrap flag for FBR0 + */ + +/* RXSTAT_WORD1_t structure holds part of the status bits of the Rx DMA engine + * that get copied out to memory by the ET-1310. Word 3 is a 32 bit word + * which contains the Packet Status Ring available offset. + * + * bit 0-15 reserved + * bit 16-27 PSRoffset + * bit 28 PSRwrap + * bit 29-31 unused + */ + +/* struct rx_status_block is a structure representing the status of the Rx + * DMA engine it sits in free memory, and is pointed to by 0x101c / 0x1020 + */ +struct rx_status_block { + u32 word0; + u32 word1; +}; + +/* Structure for look-up table holding free buffer ring pointers, addresses + * and state. + */ +struct fbr_lookup { + void *virt[MAX_DESC_PER_RING_RX]; + u32 bus_high[MAX_DESC_PER_RING_RX]; + u32 bus_low[MAX_DESC_PER_RING_RX]; + void *ring_virtaddr; + dma_addr_t ring_physaddr; + void *mem_virtaddrs[MAX_DESC_PER_RING_RX / FBR_CHUNKS]; + dma_addr_t mem_physaddrs[MAX_DESC_PER_RING_RX / FBR_CHUNKS]; + u32 local_full; + u32 num_entries; + dma_addr_t buffsize; +}; + +/* struct rx_ring is the structure representing the adaptor's local + * reference(s) to the rings + */ +struct rx_ring { + struct fbr_lookup *fbr[NUM_FBRS]; + void *ps_ring_virtaddr; + dma_addr_t ps_ring_physaddr; + u32 local_psr_full; + u32 psr_entries; + + struct rx_status_block *rx_status_block; + dma_addr_t rx_status_bus; + + struct list_head recv_list; + u32 num_ready_recv; + + u32 num_rfd; + + bool unfinished_receives; +}; + +/* TX defines */ +/* word 2 of the control bits in the Tx Descriptor ring for the ET-1310 + * + * 0-15: length of packet + * 16-27: VLAN tag + * 28: VLAN CFI + * 29-31: VLAN priority + * + * word 3 of the control bits in the Tx Descriptor ring for the ET-1310 + * + * 0: last packet in the sequence + * 1: first packet in the sequence + * 2: interrupt the processor when this pkt sent + * 3: Control word - no packet data + * 4: Issue half-duplex backpressure : XON/XOFF + * 5: send pause frame + * 6: Tx frame has error + * 7: append CRC + * 8: MAC override + * 9: pad packet + * 10: Packet is a Huge packet + * 11: append VLAN tag + * 12: IP checksum assist + * 13: TCP checksum assist + * 14: UDP checksum assist + */ +#define TXDESC_FLAG_LASTPKT 0x0001 +#define TXDESC_FLAG_FIRSTPKT 0x0002 +#define TXDESC_FLAG_INTPROC 0x0004 + +/* struct tx_desc represents each descriptor on the ring */ +struct tx_desc { + u32 addr_hi; + u32 addr_lo; + u32 len_vlan; /* control words how to xmit the */ + u32 flags; /* data (detailed above) */ +}; + +/* The status of the Tx DMA engine it sits in free memory, and is pointed to + * by 0x101c / 0x1020. This is a DMA10 type + */ + +/* TCB (Transmit Control Block: Host Side) */ +struct tcb { + struct tcb *next; /* Next entry in ring */ + u32 count; /* Used to spot stuck/lost packets */ + u32 stale; /* Used to spot stuck/lost packets */ + struct sk_buff *skb; /* Network skb we are tied to */ + u32 index; /* Ring indexes */ + u32 index_start; +}; + +/* Structure representing our local reference(s) to the ring */ +struct tx_ring { + /* TCB (Transmit Control Block) memory and lists */ + struct tcb *tcb_ring; + + /* List of TCBs that are ready to be used */ + struct tcb *tcb_qhead; + struct tcb *tcb_qtail; + + /* list of TCBs that are currently being sent. */ + struct tcb *send_head; + struct tcb *send_tail; + int used; + + /* The actual descriptor ring */ + struct tx_desc *tx_desc_ring; + dma_addr_t tx_desc_ring_pa; + + /* send_idx indicates where we last wrote to in the descriptor ring. */ + u32 send_idx; + + /* The location of the write-back status block */ + u32 *tx_status; + dma_addr_t tx_status_pa; + + /* Packets since the last IRQ: used for interrupt coalescing */ + int since_irq; +}; + +/* Do not change these values: if changed, then change also in respective + * TXdma and Rxdma engines + */ +#define NUM_DESC_PER_RING_TX 512 /* TX Do not change these values */ +#define NUM_TCB 64 + +/* These values are all superseded by registry entries to facilitate tuning. + * Once the desired performance has been achieved, the optimal registry values + * should be re-populated to these #defines: + */ +#define TX_ERROR_PERIOD 1000 + +#define LO_MARK_PERCENT_FOR_PSR 15 +#define LO_MARK_PERCENT_FOR_RX 15 + +/* RFD (Receive Frame Descriptor) */ +struct rfd { + struct list_head list_node; + struct sk_buff *skb; + u32 len; /* total size of receive frame */ + u16 bufferindex; + u8 ringindex; +}; + +/* Flow Control */ +#define FLOW_BOTH 0 +#define FLOW_TXONLY 1 +#define FLOW_RXONLY 2 +#define FLOW_NONE 3 + +/* Struct to define some device statistics */ +struct ce_stats { + u32 multicast_pkts_rcvd; + u32 rcvd_pkts_dropped; + + u32 tx_underflows; + u32 tx_collisions; + u32 tx_excessive_collisions; + u32 tx_first_collisions; + u32 tx_late_collisions; + u32 tx_max_pkt_errs; + u32 tx_deferred; + + u32 rx_overflows; + u32 rx_length_errs; + u32 rx_align_errs; + u32 rx_crc_errs; + u32 rx_code_violations; + u32 rx_other_errs; + + u32 interrupt_status; +}; + +/* The private adapter structure */ +struct et131x_adapter { + struct net_device *netdev; + struct pci_dev *pdev; + struct mii_bus *mii_bus; + struct napi_struct napi; + + /* Flags that indicate current state of the adapter */ + u32 flags; + + /* local link state, to determine if a state change has occurred */ + int link; + + /* Configuration */ + u8 rom_addr[ETH_ALEN]; + u8 addr[ETH_ALEN]; + bool has_eeprom; + u8 eeprom_data[2]; + + spinlock_t tcb_send_qlock; /* protects the tx_ring send tcb list */ + spinlock_t tcb_ready_qlock; /* protects the tx_ring ready tcb list */ + spinlock_t rcv_lock; /* protects the rx_ring receive list */ + + /* Packet Filter and look ahead size */ + u32 packet_filter; + + /* multicast list */ + u32 multicast_addr_count; + u8 multicast_list[NIC_MAX_MCAST_LIST][ETH_ALEN]; + + /* Pointer to the device's PCI register space */ + struct address_map __iomem *regs; + + /* Registry parameters */ + u8 wanted_flow; /* Flow we want for 802.3x flow control */ + u32 registry_jumbo_packet; /* Max supported ethernet packet size */ + + /* Derived from the registry: */ + u8 flow; /* flow control validated by the far-end */ + + /* Minimize init-time */ + struct timer_list error_timer; + + /* variable putting the phy into coma mode when boot up with no cable + * plugged in after 5 seconds + */ + u8 boot_coma; + + /* Tx Memory Variables */ + struct tx_ring tx_ring; + + /* Rx Memory Variables */ + struct rx_ring rx_ring; + + struct ce_stats stats; +}; + +static int eeprom_wait_ready(struct pci_dev *pdev, u32 *status) +{ + u32 reg; + int i; + + /* 1. Check LBCIF Status Register for bits 6 & 3:2 all equal to 0 and + * bits 7,1:0 both equal to 1, at least once after reset. + * Subsequent operations need only to check that bits 1:0 are equal + * to 1 prior to starting a single byte read/write + */ + for (i = 0; i < MAX_NUM_REGISTER_POLLS; i++) { + if (pci_read_config_dword(pdev, LBCIF_DWORD1_GROUP, ®)) + return -EIO; + + /* I2C idle and Phy Queue Avail both true */ + if ((reg & 0x3000) == 0x3000) { + if (status) + *status = reg; + return reg & 0xFF; + } + } + return -ETIMEDOUT; +} + +static int eeprom_write(struct et131x_adapter *adapter, u32 addr, u8 data) +{ + struct pci_dev *pdev = adapter->pdev; + int index = 0; + int retries; + int err = 0; + int writeok = 0; + u32 status; + u32 val = 0; + + /* For an EEPROM, an I2C single byte write is defined as a START + * condition followed by the device address, EEPROM address, one byte + * of data and a STOP condition. The STOP condition will trigger the + * EEPROM's internally timed write cycle to the nonvolatile memory. + * All inputs are disabled during this write cycle and the EEPROM will + * not respond to any access until the internal write is complete. + */ + err = eeprom_wait_ready(pdev, NULL); + if (err < 0) + return err; + + /* 2. Write to the LBCIF Control Register: bit 7=1, bit 6=1, bit 3=0, + * and bits 1:0 both =0. Bit 5 should be set according to the + * type of EEPROM being accessed (1=two byte addressing, 0=one + * byte addressing). + */ + if (pci_write_config_byte(pdev, LBCIF_CONTROL_REGISTER, + LBCIF_CONTROL_LBCIF_ENABLE | + LBCIF_CONTROL_I2C_WRITE)) + return -EIO; + + /* Prepare EEPROM address for Step 3 */ + for (retries = 0; retries < MAX_NUM_WRITE_RETRIES; retries++) { + if (pci_write_config_dword(pdev, LBCIF_ADDRESS_REGISTER, addr)) + break; + /* Write the data to the LBCIF Data Register (the I2C write + * will begin). + */ + if (pci_write_config_byte(pdev, LBCIF_DATA_REGISTER, data)) + break; + /* Monitor bit 1:0 of the LBCIF Status Register. When bits + * 1:0 are both equal to 1, the I2C write has completed and the + * internal write cycle of the EEPROM is about to start. + * (bits 1:0 = 01 is a legal state while waiting from both + * equal to 1, but bits 1:0 = 10 is invalid and implies that + * something is broken). + */ + err = eeprom_wait_ready(pdev, &status); + if (err < 0) + return 0; + + /* Check bit 3 of the LBCIF Status Register. If equal to 1, + * an error has occurred.Don't break here if we are revision + * 1, this is so we do a blind write for load bug. + */ + if ((status & LBCIF_STATUS_GENERAL_ERROR) && + adapter->pdev->revision == 0) + break; + + /* Check bit 2 of the LBCIF Status Register. If equal to 1 an + * ACK error has occurred on the address phase of the write. + * This could be due to an actual hardware failure or the + * EEPROM may still be in its internal write cycle from a + * previous write. This write operation was ignored and must be + *repeated later. + */ + if (status & LBCIF_STATUS_ACK_ERROR) { + /* This could be due to an actual hardware failure + * or the EEPROM may still be in its internal write + * cycle from a previous write. This write operation + * was ignored and must be repeated later. + */ + udelay(10); + continue; + } + + writeok = 1; + break; + } + + udelay(10); + + while (1) { + if (pci_write_config_byte(pdev, LBCIF_CONTROL_REGISTER, + LBCIF_CONTROL_LBCIF_ENABLE)) + writeok = 0; + + /* Do read until internal ACK_ERROR goes away meaning write + * completed + */ + do { + pci_write_config_dword(pdev, + LBCIF_ADDRESS_REGISTER, + addr); + do { + pci_read_config_dword(pdev, + LBCIF_DATA_REGISTER, + &val); + } while ((val & 0x00010000) == 0); + } while (val & 0x00040000); + + if ((val & 0xFF00) != 0xC000 || index == 10000) + break; + index++; + } + return writeok ? 0 : -EIO; +} + +static int eeprom_read(struct et131x_adapter *adapter, u32 addr, u8 *pdata) +{ + struct pci_dev *pdev = adapter->pdev; + int err; + u32 status; + + /* A single byte read is similar to the single byte write, with the + * exception of the data flow: + */ + err = eeprom_wait_ready(pdev, NULL); + if (err < 0) + return err; + /* Write to the LBCIF Control Register: bit 7=1, bit 6=0, bit 3=0, + * and bits 1:0 both =0. Bit 5 should be set according to the type + * of EEPROM being accessed (1=two byte addressing, 0=one byte + * addressing). + */ + if (pci_write_config_byte(pdev, LBCIF_CONTROL_REGISTER, + LBCIF_CONTROL_LBCIF_ENABLE)) + return -EIO; + /* Write the address to the LBCIF Address Register (I2C read will + * begin). + */ + if (pci_write_config_dword(pdev, LBCIF_ADDRESS_REGISTER, addr)) + return -EIO; + /* Monitor bit 0 of the LBCIF Status Register. When = 1, I2C read + * is complete. (if bit 1 =1 and bit 0 stays = 0, a hardware failure + * has occurred). + */ + err = eeprom_wait_ready(pdev, &status); + if (err < 0) + return err; + /* Regardless of error status, read data byte from LBCIF Data + * Register. + */ + *pdata = err; + + return (status & LBCIF_STATUS_ACK_ERROR) ? -EIO : 0; +} + +static int et131x_init_eeprom(struct et131x_adapter *adapter) +{ + struct pci_dev *pdev = adapter->pdev; + u8 eestatus; + + pci_read_config_byte(pdev, ET1310_PCI_EEPROM_STATUS, &eestatus); + + /* THIS IS A WORKAROUND: + * I need to call this function twice to get my card in a + * LG M1 Express Dual running. I tried also a msleep before this + * function, because I thought there could be some time conditions + * but it didn't work. Call the whole function twice also work. + */ + if (pci_read_config_byte(pdev, ET1310_PCI_EEPROM_STATUS, &eestatus)) { + dev_err(&pdev->dev, + "Could not read PCI config space for EEPROM Status\n"); + return -EIO; + } + + /* Determine if the error(s) we care about are present. If they are + * present we need to fail. + */ + if (eestatus & 0x4C) { + int write_failed = 0; + + if (pdev->revision == 0x01) { + int i; + static const u8 eedata[4] = { 0xFE, 0x13, 0x10, 0xFF }; + + /* Re-write the first 4 bytes if we have an eeprom + * present and the revision id is 1, this fixes the + * corruption seen with 1310 B Silicon + */ + for (i = 0; i < 3; i++) + if (eeprom_write(adapter, i, eedata[i]) < 0) + write_failed = 1; + } + if (pdev->revision != 0x01 || write_failed) { + dev_err(&pdev->dev, + "Fatal EEPROM Status Error - 0x%04x\n", + eestatus); + + /* This error could mean that there was an error + * reading the eeprom or that the eeprom doesn't exist. + * We will treat each case the same and not try to + * gather additional information that normally would + * come from the eeprom, like MAC Address + */ + adapter->has_eeprom = false; + return -EIO; + } + } + adapter->has_eeprom = true; + + /* Read the EEPROM for information regarding LED behavior. Refer to + * et131x_xcvr_init() for its use. + */ + eeprom_read(adapter, 0x70, &adapter->eeprom_data[0]); + eeprom_read(adapter, 0x71, &adapter->eeprom_data[1]); + + if (adapter->eeprom_data[0] != 0xcd) + /* Disable all optional features */ + adapter->eeprom_data[1] = 0x00; + + return 0; +} + +static void et131x_rx_dma_enable(struct et131x_adapter *adapter) +{ + /* Setup the receive dma configuration register for normal operation */ + u32 csr = ET_RXDMA_CSR_FBR1_ENABLE; + struct rx_ring *rx_ring = &adapter->rx_ring; + + if (rx_ring->fbr[1]->buffsize == 4096) + csr |= ET_RXDMA_CSR_FBR1_SIZE_LO; + else if (rx_ring->fbr[1]->buffsize == 8192) + csr |= ET_RXDMA_CSR_FBR1_SIZE_HI; + else if (rx_ring->fbr[1]->buffsize == 16384) + csr |= ET_RXDMA_CSR_FBR1_SIZE_LO | ET_RXDMA_CSR_FBR1_SIZE_HI; + + csr |= ET_RXDMA_CSR_FBR0_ENABLE; + if (rx_ring->fbr[0]->buffsize == 256) + csr |= ET_RXDMA_CSR_FBR0_SIZE_LO; + else if (rx_ring->fbr[0]->buffsize == 512) + csr |= ET_RXDMA_CSR_FBR0_SIZE_HI; + else if (rx_ring->fbr[0]->buffsize == 1024) + csr |= ET_RXDMA_CSR_FBR0_SIZE_LO | ET_RXDMA_CSR_FBR0_SIZE_HI; + writel(csr, &adapter->regs->rxdma.csr); + + csr = readl(&adapter->regs->rxdma.csr); + if (csr & ET_RXDMA_CSR_HALT_STATUS) { + udelay(5); + csr = readl(&adapter->regs->rxdma.csr); + if (csr & ET_RXDMA_CSR_HALT_STATUS) { + dev_err(&adapter->pdev->dev, + "RX Dma failed to exit halt state. CSR 0x%08x\n", + csr); + } + } +} + +static void et131x_rx_dma_disable(struct et131x_adapter *adapter) +{ + u32 csr; + /* Setup the receive dma configuration register */ + writel(ET_RXDMA_CSR_HALT | ET_RXDMA_CSR_FBR1_ENABLE, + &adapter->regs->rxdma.csr); + csr = readl(&adapter->regs->rxdma.csr); + if (!(csr & ET_RXDMA_CSR_HALT_STATUS)) { + udelay(5); + csr = readl(&adapter->regs->rxdma.csr); + if (!(csr & ET_RXDMA_CSR_HALT_STATUS)) + dev_err(&adapter->pdev->dev, + "RX Dma failed to enter halt state. CSR 0x%08x\n", + csr); + } +} + +static void et131x_tx_dma_enable(struct et131x_adapter *adapter) +{ + /* Setup the transmit dma configuration register for normal + * operation + */ + writel(ET_TXDMA_SNGL_EPKT | (PARM_DMA_CACHE_DEF << ET_TXDMA_CACHE_SHIFT), + &adapter->regs->txdma.csr); +} + +static inline void add_10bit(u32 *v, int n) +{ + *v = INDEX10(*v + n) | (*v & ET_DMA10_WRAP); +} + +static inline void add_12bit(u32 *v, int n) +{ + *v = INDEX12(*v + n) | (*v & ET_DMA12_WRAP); +} + +static void et1310_config_mac_regs1(struct et131x_adapter *adapter) +{ + struct mac_regs __iomem *macregs = &adapter->regs->mac; + u32 station1; + u32 station2; + u32 ipg; + + /* First we need to reset everything. Write to MAC configuration + * register 1 to perform reset. + */ + writel(ET_MAC_CFG1_SOFT_RESET | ET_MAC_CFG1_SIM_RESET | + ET_MAC_CFG1_RESET_RXMC | ET_MAC_CFG1_RESET_TXMC | + ET_MAC_CFG1_RESET_RXFUNC | ET_MAC_CFG1_RESET_TXFUNC, + ¯egs->cfg1); + + /* Next lets configure the MAC Inter-packet gap register */ + ipg = 0x38005860; /* IPG1 0x38 IPG2 0x58 B2B 0x60 */ + ipg |= 0x50 << 8; /* ifg enforce 0x50 */ + writel(ipg, ¯egs->ipg); + + /* Next lets configure the MAC Half Duplex register */ + /* BEB trunc 0xA, Ex Defer, Rexmit 0xF Coll 0x37 */ + writel(0x00A1F037, ¯egs->hfdp); + + /* Next lets configure the MAC Interface Control register */ + writel(0, ¯egs->if_ctrl); + + writel(ET_MAC_MIIMGMT_CLK_RST, ¯egs->mii_mgmt_cfg); + + /* Next lets configure the MAC Station Address register. These + * values are read from the EEPROM during initialization and stored + * in the adapter structure. We write what is stored in the adapter + * structure to the MAC Station Address registers high and low. This + * station address is used for generating and checking pause control + * packets. + */ + station2 = (adapter->addr[1] << ET_MAC_STATION_ADDR2_OC2_SHIFT) | + (adapter->addr[0] << ET_MAC_STATION_ADDR2_OC1_SHIFT); + station1 = (adapter->addr[5] << ET_MAC_STATION_ADDR1_OC6_SHIFT) | + (adapter->addr[4] << ET_MAC_STATION_ADDR1_OC5_SHIFT) | + (adapter->addr[3] << ET_MAC_STATION_ADDR1_OC4_SHIFT) | + adapter->addr[2]; + writel(station1, ¯egs->station_addr_1); + writel(station2, ¯egs->station_addr_2); + + /* Max ethernet packet in bytes that will be passed by the mac without + * being truncated. Allow the MAC to pass 4 more than our max packet + * size. This is 4 for the Ethernet CRC. + * + * Packets larger than (registry_jumbo_packet) that do not contain a + * VLAN ID will be dropped by the Rx function. + */ + writel(adapter->registry_jumbo_packet + 4, ¯egs->max_fm_len); + + /* clear out MAC config reset */ + writel(0, ¯egs->cfg1); +} + +static void et1310_config_mac_regs2(struct et131x_adapter *adapter) +{ + int32_t delay = 0; + struct mac_regs __iomem *mac = &adapter->regs->mac; + struct phy_device *phydev = adapter->netdev->phydev; + u32 cfg1; + u32 cfg2; + u32 ifctrl; + u32 ctl; + + ctl = readl(&adapter->regs->txmac.ctl); + cfg1 = readl(&mac->cfg1); + cfg2 = readl(&mac->cfg2); + ifctrl = readl(&mac->if_ctrl); + + /* Set up the if mode bits */ + cfg2 &= ~ET_MAC_CFG2_IFMODE_MASK; + if (phydev->speed == SPEED_1000) { + cfg2 |= ET_MAC_CFG2_IFMODE_1000; + ifctrl &= ~ET_MAC_IFCTRL_PHYMODE; + } else { + cfg2 |= ET_MAC_CFG2_IFMODE_100; + ifctrl |= ET_MAC_IFCTRL_PHYMODE; + } + + cfg1 |= ET_MAC_CFG1_RX_ENABLE | ET_MAC_CFG1_TX_ENABLE | + ET_MAC_CFG1_TX_FLOW; + + cfg1 &= ~(ET_MAC_CFG1_LOOPBACK | ET_MAC_CFG1_RX_FLOW); + if (adapter->flow == FLOW_RXONLY || adapter->flow == FLOW_BOTH) + cfg1 |= ET_MAC_CFG1_RX_FLOW; + writel(cfg1, &mac->cfg1); + + /* Now we need to initialize the MAC Configuration 2 register */ + /* preamble 7, check length, huge frame off, pad crc, crc enable + * full duplex off + */ + cfg2 |= 0x7 << ET_MAC_CFG2_PREAMBLE_SHIFT; + cfg2 |= ET_MAC_CFG2_IFMODE_LEN_CHECK; + cfg2 |= ET_MAC_CFG2_IFMODE_PAD_CRC; + cfg2 |= ET_MAC_CFG2_IFMODE_CRC_ENABLE; + cfg2 &= ~ET_MAC_CFG2_IFMODE_HUGE_FRAME; + cfg2 &= ~ET_MAC_CFG2_IFMODE_FULL_DPLX; + + if (phydev->duplex == DUPLEX_FULL) + cfg2 |= ET_MAC_CFG2_IFMODE_FULL_DPLX; + + ifctrl &= ~ET_MAC_IFCTRL_GHDMODE; + if (phydev->duplex == DUPLEX_HALF) + ifctrl |= ET_MAC_IFCTRL_GHDMODE; + + writel(ifctrl, &mac->if_ctrl); + writel(cfg2, &mac->cfg2); + + do { + udelay(10); + delay++; + cfg1 = readl(&mac->cfg1); + } while ((cfg1 & ET_MAC_CFG1_WAIT) != ET_MAC_CFG1_WAIT && delay < 100); + + if (delay == 100) { + dev_warn(&adapter->pdev->dev, + "Syncd bits did not respond correctly cfg1 word 0x%08x\n", + cfg1); + } + + ctl |= ET_TX_CTRL_TXMAC_ENABLE | ET_TX_CTRL_FC_DISABLE; + writel(ctl, &adapter->regs->txmac.ctl); + + if (adapter->flags & FMP_ADAPTER_LOWER_POWER) { + et131x_rx_dma_enable(adapter); + et131x_tx_dma_enable(adapter); + } +} + +static int et1310_in_phy_coma(struct et131x_adapter *adapter) +{ + u32 pmcsr = readl(&adapter->regs->global.pm_csr); + + return ET_PM_PHY_SW_COMA & pmcsr ? 1 : 0; +} + +static void et1310_setup_device_for_multicast(struct et131x_adapter *adapter) +{ + struct rxmac_regs __iomem *rxmac = &adapter->regs->rxmac; + u32 hash1 = 0; + u32 hash2 = 0; + u32 hash3 = 0; + u32 hash4 = 0; + + /* If ET131X_PACKET_TYPE_MULTICAST is specified, then we provision + * the multi-cast LIST. If it is NOT specified, (and "ALL" is not + * specified) then we should pass NO multi-cast addresses to the + * driver. + */ + if (adapter->packet_filter & ET131X_PACKET_TYPE_MULTICAST) { + int i; + + /* Loop through our multicast array and set up the device */ + for (i = 0; i < adapter->multicast_addr_count; i++) { + u32 result; + + result = ether_crc(6, adapter->multicast_list[i]); + + result = (result & 0x3F800000) >> 23; + + if (result < 32) { + hash1 |= (1 << result); + } else if ((31 < result) && (result < 64)) { + result -= 32; + hash2 |= (1 << result); + } else if ((63 < result) && (result < 96)) { + result -= 64; + hash3 |= (1 << result); + } else { + result -= 96; + hash4 |= (1 << result); + } + } + } + + /* Write out the new hash to the device */ + if (!et1310_in_phy_coma(adapter)) { + writel(hash1, &rxmac->multi_hash1); + writel(hash2, &rxmac->multi_hash2); + writel(hash3, &rxmac->multi_hash3); + writel(hash4, &rxmac->multi_hash4); + } +} + +static void et1310_setup_device_for_unicast(struct et131x_adapter *adapter) +{ + struct rxmac_regs __iomem *rxmac = &adapter->regs->rxmac; + u32 uni_pf1; + u32 uni_pf2; + u32 uni_pf3; + + /* Set up unicast packet filter reg 3 to be the first two octets of + * the MAC address for both address + * + * Set up unicast packet filter reg 2 to be the octets 2 - 5 of the + * MAC address for second address + * + * Set up unicast packet filter reg 3 to be the octets 2 - 5 of the + * MAC address for first address + */ + uni_pf3 = (adapter->addr[0] << ET_RX_UNI_PF_ADDR2_1_SHIFT) | + (adapter->addr[1] << ET_RX_UNI_PF_ADDR2_2_SHIFT) | + (adapter->addr[0] << ET_RX_UNI_PF_ADDR1_1_SHIFT) | + adapter->addr[1]; + + uni_pf2 = (adapter->addr[2] << ET_RX_UNI_PF_ADDR2_3_SHIFT) | + (adapter->addr[3] << ET_RX_UNI_PF_ADDR2_4_SHIFT) | + (adapter->addr[4] << ET_RX_UNI_PF_ADDR2_5_SHIFT) | + adapter->addr[5]; + + uni_pf1 = (adapter->addr[2] << ET_RX_UNI_PF_ADDR1_3_SHIFT) | + (adapter->addr[3] << ET_RX_UNI_PF_ADDR1_4_SHIFT) | + (adapter->addr[4] << ET_RX_UNI_PF_ADDR1_5_SHIFT) | + adapter->addr[5]; + + if (!et1310_in_phy_coma(adapter)) { + writel(uni_pf1, &rxmac->uni_pf_addr1); + writel(uni_pf2, &rxmac->uni_pf_addr2); + writel(uni_pf3, &rxmac->uni_pf_addr3); + } +} + +static void et1310_config_rxmac_regs(struct et131x_adapter *adapter) +{ + struct rxmac_regs __iomem *rxmac = &adapter->regs->rxmac; + struct phy_device *phydev = adapter->netdev->phydev; + u32 sa_lo; + u32 sa_hi = 0; + u32 pf_ctrl = 0; + u32 __iomem *wolw; + + /* Disable the MAC while it is being configured (also disable WOL) */ + writel(0x8, &rxmac->ctrl); + + /* Initialize WOL to disabled. */ + writel(0, &rxmac->crc0); + writel(0, &rxmac->crc12); + writel(0, &rxmac->crc34); + + /* We need to set the WOL mask0 - mask4 next. We initialize it to + * its default Values of 0x00000000 because there are not WOL masks + * as of this time. + */ + for (wolw = &rxmac->mask0_word0; wolw <= &rxmac->mask4_word3; wolw++) + writel(0, wolw); + + /* Lets setup the WOL Source Address */ + sa_lo = (adapter->addr[2] << ET_RX_WOL_LO_SA3_SHIFT) | + (adapter->addr[3] << ET_RX_WOL_LO_SA4_SHIFT) | + (adapter->addr[4] << ET_RX_WOL_LO_SA5_SHIFT) | + adapter->addr[5]; + writel(sa_lo, &rxmac->sa_lo); + + sa_hi = (u32)(adapter->addr[0] << ET_RX_WOL_HI_SA1_SHIFT) | + adapter->addr[1]; + writel(sa_hi, &rxmac->sa_hi); + + /* Disable all Packet Filtering */ + writel(0, &rxmac->pf_ctrl); + + /* Let's initialize the Unicast Packet filtering address */ + if (adapter->packet_filter & ET131X_PACKET_TYPE_DIRECTED) { + et1310_setup_device_for_unicast(adapter); + pf_ctrl |= ET_RX_PFCTRL_UNICST_FILTER_ENABLE; + } else { + writel(0, &rxmac->uni_pf_addr1); + writel(0, &rxmac->uni_pf_addr2); + writel(0, &rxmac->uni_pf_addr3); + } + + /* Let's initialize the Multicast hash */ + if (!(adapter->packet_filter & ET131X_PACKET_TYPE_ALL_MULTICAST)) { + pf_ctrl |= ET_RX_PFCTRL_MLTCST_FILTER_ENABLE; + et1310_setup_device_for_multicast(adapter); + } + + /* Runt packet filtering. Didn't work in version A silicon. */ + pf_ctrl |= (NIC_MIN_PACKET_SIZE + 4) << ET_RX_PFCTRL_MIN_PKT_SZ_SHIFT; + pf_ctrl |= ET_RX_PFCTRL_FRAG_FILTER_ENABLE; + + if (adapter->registry_jumbo_packet > 8192) + /* In order to transmit jumbo packets greater than 8k, the + * FIFO between RxMAC and RxDMA needs to be reduced in size + * to (16k - Jumbo packet size). In order to implement this, + * we must use "cut through" mode in the RxMAC, which chops + * packets down into segments which are (max_size * 16). In + * this case we selected 256 bytes, since this is the size of + * the PCI-Express TLP's that the 1310 uses. + * + * seg_en on, fc_en off, size 0x10 + */ + writel(0x41, &rxmac->mcif_ctrl_max_seg); + else + writel(0, &rxmac->mcif_ctrl_max_seg); + + writel(0, &rxmac->mcif_water_mark); + writel(0, &rxmac->mif_ctrl); + writel(0, &rxmac->space_avail); + + /* Initialize the mif_ctrl register + * bit 3: Receive code error. One or more nibbles were signaled as + * errors during the reception of the packet. Clear this + * bit in Gigabit, set it in 100Mbit. This was derived + * experimentally at UNH. + * bit 4: Receive CRC error. The packet's CRC did not match the + * internally generated CRC. + * bit 5: Receive length check error. Indicates that frame length + * field value in the packet does not match the actual data + * byte length and is not a type field. + * bit 16: Receive frame truncated. + * bit 17: Drop packet enable + */ + if (phydev && phydev->speed == SPEED_100) + writel(0x30038, &rxmac->mif_ctrl); + else + writel(0x30030, &rxmac->mif_ctrl); + + /* Finally we initialize RxMac to be enabled & WOL disabled. Packet + * filter is always enabled since it is where the runt packets are + * supposed to be dropped. For version A silicon, runt packet + * dropping doesn't work, so it is disabled in the pf_ctrl register, + * but we still leave the packet filter on. + */ + writel(pf_ctrl, &rxmac->pf_ctrl); + writel(ET_RX_CTRL_RXMAC_ENABLE | ET_RX_CTRL_WOL_DISABLE, &rxmac->ctrl); +} + +static void et1310_config_txmac_regs(struct et131x_adapter *adapter) +{ + struct txmac_regs __iomem *txmac = &adapter->regs->txmac; + + /* We need to update the Control Frame Parameters + * cfpt - control frame pause timer set to 64 (0x40) + * cfep - control frame extended pause timer set to 0x0 + */ + if (adapter->flow == FLOW_NONE) + writel(0, &txmac->cf_param); + else + writel(0x40, &txmac->cf_param); +} + +static void et1310_config_macstat_regs(struct et131x_adapter *adapter) +{ + struct macstat_regs __iomem *macstat = &adapter->regs->macstat; + u32 __iomem *reg; + + /* initialize all the macstat registers to zero on the device */ + for (reg = &macstat->txrx_0_64_byte_frames; + reg <= &macstat->carry_reg2; reg++) + writel(0, reg); + + /* Unmask any counters that we want to track the overflow of. + * Initially this will be all counters. It may become clear later + * that we do not need to track all counters. + */ + writel(0xFFFFBE32, &macstat->carry_reg1_mask); + writel(0xFFFE7E8B, &macstat->carry_reg2_mask); +} + +static int et131x_phy_mii_read(struct et131x_adapter *adapter, u8 addr, + u8 reg, u16 *value) +{ + struct mac_regs __iomem *mac = &adapter->regs->mac; + int status = 0; + u32 delay = 0; + u32 mii_addr; + u32 mii_cmd; + u32 mii_indicator; + + /* Save a local copy of the registers we are dealing with so we can + * set them back + */ + mii_addr = readl(&mac->mii_mgmt_addr); + mii_cmd = readl(&mac->mii_mgmt_cmd); + + /* Stop the current operation */ + writel(0, &mac->mii_mgmt_cmd); + + /* Set up the register we need to read from on the correct PHY */ + writel(ET_MAC_MII_ADDR(addr, reg), &mac->mii_mgmt_addr); + + writel(0x1, &mac->mii_mgmt_cmd); + + do { + udelay(50); + delay++; + mii_indicator = readl(&mac->mii_mgmt_indicator); + } while ((mii_indicator & ET_MAC_MGMT_WAIT) && delay < 50); + + /* If we hit the max delay, we could not read the register */ + if (delay == 50) { + dev_warn(&adapter->pdev->dev, + "reg 0x%08x could not be read\n", reg); + dev_warn(&adapter->pdev->dev, "status is 0x%08x\n", + mii_indicator); + + status = -EIO; + goto out; + } + + /* If we hit here we were able to read the register and we need to + * return the value to the caller + */ + *value = readl(&mac->mii_mgmt_stat) & ET_MAC_MIIMGMT_STAT_PHYCRTL_MASK; + +out: + /* Stop the read operation */ + writel(0, &mac->mii_mgmt_cmd); + + /* set the registers we touched back to the state at which we entered + * this function + */ + writel(mii_addr, &mac->mii_mgmt_addr); + writel(mii_cmd, &mac->mii_mgmt_cmd); + + return status; +} + +static int et131x_mii_read(struct et131x_adapter *adapter, u8 reg, u16 *value) +{ + struct phy_device *phydev = adapter->netdev->phydev; + + if (!phydev) + return -EIO; + + return et131x_phy_mii_read(adapter, phydev->mdio.addr, reg, value); +} + +static int et131x_mii_write(struct et131x_adapter *adapter, u8 addr, u8 reg, + u16 value) +{ + struct mac_regs __iomem *mac = &adapter->regs->mac; + int status = 0; + u32 delay = 0; + u32 mii_addr; + u32 mii_cmd; + u32 mii_indicator; + + /* Save a local copy of the registers we are dealing with so we can + * set them back + */ + mii_addr = readl(&mac->mii_mgmt_addr); + mii_cmd = readl(&mac->mii_mgmt_cmd); + + /* Stop the current operation */ + writel(0, &mac->mii_mgmt_cmd); + + /* Set up the register we need to write to on the correct PHY */ + writel(ET_MAC_MII_ADDR(addr, reg), &mac->mii_mgmt_addr); + + /* Add the value to write to the registers to the mac */ + writel(value, &mac->mii_mgmt_ctrl); + + do { + udelay(50); + delay++; + mii_indicator = readl(&mac->mii_mgmt_indicator); + } while ((mii_indicator & ET_MAC_MGMT_BUSY) && delay < 100); + + /* If we hit the max delay, we could not write the register */ + if (delay == 100) { + u16 tmp; + + dev_warn(&adapter->pdev->dev, + "reg 0x%08x could not be written", reg); + dev_warn(&adapter->pdev->dev, "status is 0x%08x\n", + mii_indicator); + dev_warn(&adapter->pdev->dev, "command is 0x%08x\n", + readl(&mac->mii_mgmt_cmd)); + + et131x_mii_read(adapter, reg, &tmp); + + status = -EIO; + } + /* Stop the write operation */ + writel(0, &mac->mii_mgmt_cmd); + + /* set the registers we touched back to the state at which we entered + * this function + */ + writel(mii_addr, &mac->mii_mgmt_addr); + writel(mii_cmd, &mac->mii_mgmt_cmd); + + return status; +} + +static void et1310_phy_read_mii_bit(struct et131x_adapter *adapter, + u16 regnum, + u16 bitnum, + u8 *value) +{ + u16 reg; + u16 mask = 1 << bitnum; + + et131x_mii_read(adapter, regnum, ®); + + *value = (reg & mask) >> bitnum; +} + +static void et1310_config_flow_control(struct et131x_adapter *adapter) +{ + struct phy_device *phydev = adapter->netdev->phydev; + + if (phydev->duplex == DUPLEX_HALF) { + adapter->flow = FLOW_NONE; + } else { + char remote_pause, remote_async_pause; + + et1310_phy_read_mii_bit(adapter, 5, 10, &remote_pause); + et1310_phy_read_mii_bit(adapter, 5, 11, &remote_async_pause); + + if (remote_pause && remote_async_pause) { + adapter->flow = adapter->wanted_flow; + } else if (remote_pause && !remote_async_pause) { + if (adapter->wanted_flow == FLOW_BOTH) + adapter->flow = FLOW_BOTH; + else + adapter->flow = FLOW_NONE; + } else if (!remote_pause && !remote_async_pause) { + adapter->flow = FLOW_NONE; + } else { + if (adapter->wanted_flow == FLOW_BOTH) + adapter->flow = FLOW_RXONLY; + else + adapter->flow = FLOW_NONE; + } + } +} + +/* et1310_update_macstat_host_counters - Update local copy of the statistics */ +static void et1310_update_macstat_host_counters(struct et131x_adapter *adapter) +{ + struct ce_stats *stats = &adapter->stats; + struct macstat_regs __iomem *macstat = + &adapter->regs->macstat; + + stats->tx_collisions += readl(&macstat->tx_total_collisions); + stats->tx_first_collisions += readl(&macstat->tx_single_collisions); + stats->tx_deferred += readl(&macstat->tx_deferred); + stats->tx_excessive_collisions += + readl(&macstat->tx_multiple_collisions); + stats->tx_late_collisions += readl(&macstat->tx_late_collisions); + stats->tx_underflows += readl(&macstat->tx_undersize_frames); + stats->tx_max_pkt_errs += readl(&macstat->tx_oversize_frames); + + stats->rx_align_errs += readl(&macstat->rx_align_errs); + stats->rx_crc_errs += readl(&macstat->rx_code_errs); + stats->rcvd_pkts_dropped += readl(&macstat->rx_drops); + stats->rx_overflows += readl(&macstat->rx_oversize_packets); + stats->rx_code_violations += readl(&macstat->rx_fcs_errs); + stats->rx_length_errs += readl(&macstat->rx_frame_len_errs); + stats->rx_other_errs += readl(&macstat->rx_fragment_packets); +} + +/* et1310_handle_macstat_interrupt + * + * One of the MACSTAT counters has wrapped. Update the local copy of + * the statistics held in the adapter structure, checking the "wrap" + * bit for each counter. + */ +static void et1310_handle_macstat_interrupt(struct et131x_adapter *adapter) +{ + u32 carry_reg1; + u32 carry_reg2; + + /* Read the interrupt bits from the register(s). These are Clear On + * Write. + */ + carry_reg1 = readl(&adapter->regs->macstat.carry_reg1); + carry_reg2 = readl(&adapter->regs->macstat.carry_reg2); + + writel(carry_reg1, &adapter->regs->macstat.carry_reg1); + writel(carry_reg2, &adapter->regs->macstat.carry_reg2); + + /* We need to do update the host copy of all the MAC_STAT counters. + * For each counter, check it's overflow bit. If the overflow bit is + * set, then increment the host version of the count by one complete + * revolution of the counter. This routine is called when the counter + * block indicates that one of the counters has wrapped. + */ + if (carry_reg1 & (1 << 14)) + adapter->stats.rx_code_violations += COUNTER_WRAP_16_BIT; + if (carry_reg1 & (1 << 8)) + adapter->stats.rx_align_errs += COUNTER_WRAP_12_BIT; + if (carry_reg1 & (1 << 7)) + adapter->stats.rx_length_errs += COUNTER_WRAP_16_BIT; + if (carry_reg1 & (1 << 2)) + adapter->stats.rx_other_errs += COUNTER_WRAP_16_BIT; + if (carry_reg1 & (1 << 6)) + adapter->stats.rx_crc_errs += COUNTER_WRAP_16_BIT; + if (carry_reg1 & (1 << 3)) + adapter->stats.rx_overflows += COUNTER_WRAP_16_BIT; + if (carry_reg1 & (1 << 0)) + adapter->stats.rcvd_pkts_dropped += COUNTER_WRAP_16_BIT; + if (carry_reg2 & (1 << 16)) + adapter->stats.tx_max_pkt_errs += COUNTER_WRAP_12_BIT; + if (carry_reg2 & (1 << 15)) + adapter->stats.tx_underflows += COUNTER_WRAP_12_BIT; + if (carry_reg2 & (1 << 6)) + adapter->stats.tx_first_collisions += COUNTER_WRAP_12_BIT; + if (carry_reg2 & (1 << 8)) + adapter->stats.tx_deferred += COUNTER_WRAP_12_BIT; + if (carry_reg2 & (1 << 5)) + adapter->stats.tx_excessive_collisions += COUNTER_WRAP_12_BIT; + if (carry_reg2 & (1 << 4)) + adapter->stats.tx_late_collisions += COUNTER_WRAP_12_BIT; + if (carry_reg2 & (1 << 2)) + adapter->stats.tx_collisions += COUNTER_WRAP_12_BIT; +} + +static int et131x_mdio_read(struct mii_bus *bus, int phy_addr, int reg) +{ + struct net_device *netdev = bus->priv; + struct et131x_adapter *adapter = netdev_priv(netdev); + u16 value; + int ret; + + ret = et131x_phy_mii_read(adapter, phy_addr, reg, &value); + + if (ret < 0) + return ret; + + return value; +} + +static int et131x_mdio_write(struct mii_bus *bus, int phy_addr, + int reg, u16 value) +{ + struct net_device *netdev = bus->priv; + struct et131x_adapter *adapter = netdev_priv(netdev); + + return et131x_mii_write(adapter, phy_addr, reg, value); +} + +/* et1310_phy_power_switch - PHY power control + * @adapter: device to control + * @down: true for off/false for back on + * + * one hundred, ten, one thousand megs + * How would you like to have your LAN accessed + * Can't you see that this code processed + * Phy power, phy power.. + */ +static void et1310_phy_power_switch(struct et131x_adapter *adapter, bool down) +{ + u16 data; + struct phy_device *phydev = adapter->netdev->phydev; + + et131x_mii_read(adapter, MII_BMCR, &data); + data &= ~BMCR_PDOWN; + if (down) + data |= BMCR_PDOWN; + et131x_mii_write(adapter, phydev->mdio.addr, MII_BMCR, data); +} + +/* et131x_xcvr_init - Init the phy if we are setting it into force mode */ +static void et131x_xcvr_init(struct et131x_adapter *adapter) +{ + u16 lcr2; + struct phy_device *phydev = adapter->netdev->phydev; + + /* Set the LED behavior such that LED 1 indicates speed (off = + * 10Mbits, blink = 100Mbits, on = 1000Mbits) and LED 2 indicates + * link and activity (on for link, blink off for activity). + * + * NOTE: Some customizations have been added here for specific + * vendors; The LED behavior is now determined by vendor data in the + * EEPROM. However, the above description is the default. + */ + if ((adapter->eeprom_data[1] & 0x4) == 0) { + et131x_mii_read(adapter, PHY_LED_2, &lcr2); + + lcr2 &= (ET_LED2_LED_100TX | ET_LED2_LED_1000T); + lcr2 |= (LED_VAL_LINKON_ACTIVE << LED_LINK_SHIFT); + + if ((adapter->eeprom_data[1] & 0x8) == 0) + lcr2 |= (LED_VAL_1000BT_100BTX << LED_TXRX_SHIFT); + else + lcr2 |= (LED_VAL_LINKON << LED_TXRX_SHIFT); + + et131x_mii_write(adapter, phydev->mdio.addr, PHY_LED_2, lcr2); + } +} + +/* et131x_configure_global_regs - configure JAGCore global regs */ +static void et131x_configure_global_regs(struct et131x_adapter *adapter) +{ + struct global_regs __iomem *regs = &adapter->regs->global; + + writel(0, ®s->rxq_start_addr); + writel(INTERNAL_MEM_SIZE - 1, ®s->txq_end_addr); + + if (adapter->registry_jumbo_packet < 2048) { + /* Tx / RxDMA and Tx/Rx MAC interfaces have a 1k word + * block of RAM that the driver can split between Tx + * and Rx as it desires. Our default is to split it + * 50/50: + */ + writel(PARM_RX_MEM_END_DEF, ®s->rxq_end_addr); + writel(PARM_RX_MEM_END_DEF + 1, ®s->txq_start_addr); + } else if (adapter->registry_jumbo_packet < 8192) { + /* For jumbo packets > 2k but < 8k, split 50-50. */ + writel(INTERNAL_MEM_RX_OFFSET, ®s->rxq_end_addr); + writel(INTERNAL_MEM_RX_OFFSET + 1, ®s->txq_start_addr); + } else { + /* 9216 is the only packet size greater than 8k that + * is available. The Tx buffer has to be big enough + * for one whole packet on the Tx side. We'll make + * the Tx 9408, and give the rest to Rx + */ + writel(0x01b3, ®s->rxq_end_addr); + writel(0x01b4, ®s->txq_start_addr); + } + + /* Initialize the loopback register. Disable all loopbacks. */ + writel(0, ®s->loopback); + + writel(0, ®s->msi_config); + + /* By default, disable the watchdog timer. It will be enabled when + * a packet is queued. + */ + writel(0, ®s->watchdog_timer); +} + +/* et131x_config_rx_dma_regs - Start of Rx_DMA init sequence */ +static void et131x_config_rx_dma_regs(struct et131x_adapter *adapter) +{ + struct rxdma_regs __iomem *rx_dma = &adapter->regs->rxdma; + struct rx_ring *rx_local = &adapter->rx_ring; + struct fbr_desc *fbr_entry; + u32 entry; + u32 psr_num_des; + unsigned long flags; + u8 id; + + et131x_rx_dma_disable(adapter); + + /* Load the completion writeback physical address */ + writel(upper_32_bits(rx_local->rx_status_bus), &rx_dma->dma_wb_base_hi); + writel(lower_32_bits(rx_local->rx_status_bus), &rx_dma->dma_wb_base_lo); + + memset(rx_local->rx_status_block, 0, sizeof(struct rx_status_block)); + + /* Set the address and parameters of the packet status ring */ + writel(upper_32_bits(rx_local->ps_ring_physaddr), &rx_dma->psr_base_hi); + writel(lower_32_bits(rx_local->ps_ring_physaddr), &rx_dma->psr_base_lo); + writel(rx_local->psr_entries - 1, &rx_dma->psr_num_des); + writel(0, &rx_dma->psr_full_offset); + + psr_num_des = readl(&rx_dma->psr_num_des) & ET_RXDMA_PSR_NUM_DES_MASK; + writel((psr_num_des * LO_MARK_PERCENT_FOR_PSR) / 100, + &rx_dma->psr_min_des); + + spin_lock_irqsave(&adapter->rcv_lock, flags); + + /* These local variables track the PSR in the adapter structure */ + rx_local->local_psr_full = 0; + + for (id = 0; id < NUM_FBRS; id++) { + u32 __iomem *num_des; + u32 __iomem *full_offset; + u32 __iomem *min_des; + u32 __iomem *base_hi; + u32 __iomem *base_lo; + struct fbr_lookup *fbr = rx_local->fbr[id]; + + if (id == 0) { + num_des = &rx_dma->fbr0_num_des; + full_offset = &rx_dma->fbr0_full_offset; + min_des = &rx_dma->fbr0_min_des; + base_hi = &rx_dma->fbr0_base_hi; + base_lo = &rx_dma->fbr0_base_lo; + } else { + num_des = &rx_dma->fbr1_num_des; + full_offset = &rx_dma->fbr1_full_offset; + min_des = &rx_dma->fbr1_min_des; + base_hi = &rx_dma->fbr1_base_hi; + base_lo = &rx_dma->fbr1_base_lo; + } + + /* Now's the best time to initialize FBR contents */ + fbr_entry = fbr->ring_virtaddr; + for (entry = 0; entry < fbr->num_entries; entry++) { + fbr_entry->addr_hi = fbr->bus_high[entry]; + fbr_entry->addr_lo = fbr->bus_low[entry]; + fbr_entry->word2 = entry; + fbr_entry++; + } + + /* Set the address and parameters of Free buffer ring 1 and 0 */ + writel(upper_32_bits(fbr->ring_physaddr), base_hi); + writel(lower_32_bits(fbr->ring_physaddr), base_lo); + writel(fbr->num_entries - 1, num_des); + writel(ET_DMA10_WRAP, full_offset); + + /* This variable tracks the free buffer ring 1 full position, + * so it has to match the above. + */ + fbr->local_full = ET_DMA10_WRAP; + writel(((fbr->num_entries * LO_MARK_PERCENT_FOR_RX) / 100) - 1, + min_des); + } + + /* Program the number of packets we will receive before generating an + * interrupt. + * For version B silicon, this value gets updated once autoneg is + *complete. + */ + writel(PARM_RX_NUM_BUFS_DEF, &rx_dma->num_pkt_done); + + /* The "time_done" is not working correctly to coalesce interrupts + * after a given time period, but rather is giving us an interrupt + * regardless of whether we have received packets. + * This value gets updated once autoneg is complete. + */ + writel(PARM_RX_TIME_INT_DEF, &rx_dma->max_pkt_time); + + spin_unlock_irqrestore(&adapter->rcv_lock, flags); +} + +/* et131x_config_tx_dma_regs - Set up the tx dma section of the JAGCore. + * + * Configure the transmit engine with the ring buffers we have created + * and prepare it for use. + */ +static void et131x_config_tx_dma_regs(struct et131x_adapter *adapter) +{ + struct txdma_regs __iomem *txdma = &adapter->regs->txdma; + struct tx_ring *tx_ring = &adapter->tx_ring; + + /* Load the hardware with the start of the transmit descriptor ring. */ + writel(upper_32_bits(tx_ring->tx_desc_ring_pa), &txdma->pr_base_hi); + writel(lower_32_bits(tx_ring->tx_desc_ring_pa), &txdma->pr_base_lo); + + /* Initialise the transmit DMA engine */ + writel(NUM_DESC_PER_RING_TX - 1, &txdma->pr_num_des); + + /* Load the completion writeback physical address */ + writel(upper_32_bits(tx_ring->tx_status_pa), &txdma->dma_wb_base_hi); + writel(lower_32_bits(tx_ring->tx_status_pa), &txdma->dma_wb_base_lo); + + *tx_ring->tx_status = 0; + + writel(0, &txdma->service_request); + tx_ring->send_idx = 0; +} + +/* et131x_adapter_setup - Set the adapter up as per cassini+ documentation */ +static void et131x_adapter_setup(struct et131x_adapter *adapter) +{ + et131x_configure_global_regs(adapter); + et1310_config_mac_regs1(adapter); + + /* Configure the MMC registers */ + /* All we need to do is initialize the Memory Control Register */ + writel(ET_MMC_ENABLE, &adapter->regs->mmc.mmc_ctrl); + + et1310_config_rxmac_regs(adapter); + et1310_config_txmac_regs(adapter); + + et131x_config_rx_dma_regs(adapter); + et131x_config_tx_dma_regs(adapter); + + et1310_config_macstat_regs(adapter); + + et1310_phy_power_switch(adapter, 0); + et131x_xcvr_init(adapter); +} + +/* et131x_soft_reset - Issue soft reset to the hardware, complete for ET1310 */ +static void et131x_soft_reset(struct et131x_adapter *adapter) +{ + u32 reg; + + /* Disable MAC Core */ + reg = ET_MAC_CFG1_SOFT_RESET | ET_MAC_CFG1_SIM_RESET | + ET_MAC_CFG1_RESET_RXMC | ET_MAC_CFG1_RESET_TXMC | + ET_MAC_CFG1_RESET_RXFUNC | ET_MAC_CFG1_RESET_TXFUNC; + writel(reg, &adapter->regs->mac.cfg1); + + reg = ET_RESET_ALL; + writel(reg, &adapter->regs->global.sw_reset); + + reg = ET_MAC_CFG1_RESET_RXMC | ET_MAC_CFG1_RESET_TXMC | + ET_MAC_CFG1_RESET_RXFUNC | ET_MAC_CFG1_RESET_TXFUNC; + writel(reg, &adapter->regs->mac.cfg1); + writel(0, &adapter->regs->mac.cfg1); +} + +static void et131x_enable_interrupts(struct et131x_adapter *adapter) +{ + u32 mask; + + if (adapter->flow == FLOW_TXONLY || adapter->flow == FLOW_BOTH) + mask = INT_MASK_ENABLE; + else + mask = INT_MASK_ENABLE_NO_FLOW; + + writel(mask, &adapter->regs->global.int_mask); +} + +static void et131x_disable_interrupts(struct et131x_adapter *adapter) +{ + writel(INT_MASK_DISABLE, &adapter->regs->global.int_mask); +} + +static void et131x_tx_dma_disable(struct et131x_adapter *adapter) +{ + /* Setup the transmit dma configuration register */ + writel(ET_TXDMA_CSR_HALT | ET_TXDMA_SNGL_EPKT, + &adapter->regs->txdma.csr); +} + +static void et131x_enable_txrx(struct net_device *netdev) +{ + struct et131x_adapter *adapter = netdev_priv(netdev); + + et131x_rx_dma_enable(adapter); + et131x_tx_dma_enable(adapter); + + if (adapter->flags & FMP_ADAPTER_INTERRUPT_IN_USE) + et131x_enable_interrupts(adapter); + + netif_start_queue(netdev); +} + +static void et131x_disable_txrx(struct net_device *netdev) +{ + struct et131x_adapter *adapter = netdev_priv(netdev); + + netif_stop_queue(netdev); + + et131x_rx_dma_disable(adapter); + et131x_tx_dma_disable(adapter); + + et131x_disable_interrupts(adapter); +} + +static void et131x_init_send(struct et131x_adapter *adapter) +{ + int i; + struct tx_ring *tx_ring = &adapter->tx_ring; + struct tcb *tcb = tx_ring->tcb_ring; + + tx_ring->tcb_qhead = tcb; + + memset(tcb, 0, sizeof(struct tcb) * NUM_TCB); + + for (i = 0; i < NUM_TCB; i++) { + tcb->next = tcb + 1; + tcb++; + } + + tcb--; + tx_ring->tcb_qtail = tcb; + tcb->next = NULL; + /* Curr send queue should now be empty */ + tx_ring->send_head = NULL; + tx_ring->send_tail = NULL; +} + +/* et1310_enable_phy_coma + * + * driver receive an phy status change interrupt while in D0 and check that + * phy_status is down. + * + * -- gate off JAGCore; + * -- set gigE PHY in Coma mode + * -- wake on phy_interrupt; Perform software reset JAGCore, + * re-initialize jagcore and gigE PHY + */ +static void et1310_enable_phy_coma(struct et131x_adapter *adapter) +{ + u32 pmcsr = readl(&adapter->regs->global.pm_csr); + + /* Stop sending packets. */ + adapter->flags |= FMP_ADAPTER_LOWER_POWER; + + /* Wait for outstanding Receive packets */ + et131x_disable_txrx(adapter->netdev); + + /* Gate off JAGCore 3 clock domains */ + pmcsr &= ~ET_PMCSR_INIT; + writel(pmcsr, &adapter->regs->global.pm_csr); + + /* Program gigE PHY in to Coma mode */ + pmcsr |= ET_PM_PHY_SW_COMA; + writel(pmcsr, &adapter->regs->global.pm_csr); +} + +static void et1310_disable_phy_coma(struct et131x_adapter *adapter) +{ + u32 pmcsr; + + pmcsr = readl(&adapter->regs->global.pm_csr); + + /* Disable phy_sw_coma register and re-enable JAGCore clocks */ + pmcsr |= ET_PMCSR_INIT; + pmcsr &= ~ET_PM_PHY_SW_COMA; + writel(pmcsr, &adapter->regs->global.pm_csr); + + /* Restore the GbE PHY speed and duplex modes; + * Reset JAGCore; re-configure and initialize JAGCore and gigE PHY + */ + + /* Re-initialize the send structures */ + et131x_init_send(adapter); + + /* Bring the device back to the state it was during init prior to + * autonegotiation being complete. This way, when we get the auto-neg + * complete interrupt, we can complete init by calling ConfigMacREGS2. + */ + et131x_soft_reset(adapter); + + et131x_adapter_setup(adapter); + + /* Allow Tx to restart */ + adapter->flags &= ~FMP_ADAPTER_LOWER_POWER; + + et131x_enable_txrx(adapter->netdev); +} + +static inline u32 bump_free_buff_ring(u32 *free_buff_ring, u32 limit) +{ + u32 tmp_free_buff_ring = *free_buff_ring; + + tmp_free_buff_ring++; + /* This works for all cases where limit < 1024. The 1023 case + * works because 1023++ is 1024 which means the if condition is not + * taken but the carry of the bit into the wrap bit toggles the wrap + * value correctly + */ + if ((tmp_free_buff_ring & ET_DMA10_MASK) > limit) { + tmp_free_buff_ring &= ~ET_DMA10_MASK; + tmp_free_buff_ring ^= ET_DMA10_WRAP; + } + /* For the 1023 case */ + tmp_free_buff_ring &= (ET_DMA10_MASK | ET_DMA10_WRAP); + *free_buff_ring = tmp_free_buff_ring; + return tmp_free_buff_ring; +} + +/* et131x_rx_dma_memory_alloc + * + * Allocates Free buffer ring 1 for sure, free buffer ring 0 if required, + * and the Packet Status Ring. + */ +static int et131x_rx_dma_memory_alloc(struct et131x_adapter *adapter) +{ + u8 id; + u32 i, j; + u32 bufsize; + u32 psr_size; + u32 fbr_chunksize; + struct rx_ring *rx_ring = &adapter->rx_ring; + struct fbr_lookup *fbr; + + /* Alloc memory for the lookup table */ + rx_ring->fbr[0] = kzalloc(sizeof(*fbr), GFP_KERNEL); + if (rx_ring->fbr[0] == NULL) + return -ENOMEM; + rx_ring->fbr[1] = kzalloc(sizeof(*fbr), GFP_KERNEL); + if (rx_ring->fbr[1] == NULL) + return -ENOMEM; + + /* The first thing we will do is configure the sizes of the buffer + * rings. These will change based on jumbo packet support. Larger + * jumbo packets increases the size of each entry in FBR0, and the + * number of entries in FBR0, while at the same time decreasing the + * number of entries in FBR1. + * + * FBR1 holds "large" frames, FBR0 holds "small" frames. If FBR1 + * entries are huge in order to accommodate a "jumbo" frame, then it + * will have less entries. Conversely, FBR1 will now be relied upon + * to carry more "normal" frames, thus it's entry size also increases + * and the number of entries goes up too (since it now carries + * "small" + "regular" packets. + * + * In this scheme, we try to maintain 512 entries between the two + * rings. Also, FBR1 remains a constant size - when it's size doubles + * the number of entries halves. FBR0 increases in size, however. + */ + if (adapter->registry_jumbo_packet < 2048) { + rx_ring->fbr[0]->buffsize = 256; + rx_ring->fbr[0]->num_entries = 512; + rx_ring->fbr[1]->buffsize = 2048; + rx_ring->fbr[1]->num_entries = 512; + } else if (adapter->registry_jumbo_packet < 4096) { + rx_ring->fbr[0]->buffsize = 512; + rx_ring->fbr[0]->num_entries = 1024; + rx_ring->fbr[1]->buffsize = 4096; + rx_ring->fbr[1]->num_entries = 512; + } else { + rx_ring->fbr[0]->buffsize = 1024; + rx_ring->fbr[0]->num_entries = 768; + rx_ring->fbr[1]->buffsize = 16384; + rx_ring->fbr[1]->num_entries = 128; + } + + rx_ring->psr_entries = rx_ring->fbr[0]->num_entries + + rx_ring->fbr[1]->num_entries; + + for (id = 0; id < NUM_FBRS; id++) { + fbr = rx_ring->fbr[id]; + /* Allocate an area of memory for Free Buffer Ring */ + bufsize = sizeof(struct fbr_desc) * fbr->num_entries; + fbr->ring_virtaddr = dma_alloc_coherent(&adapter->pdev->dev, + bufsize, + &fbr->ring_physaddr, + GFP_KERNEL); + if (!fbr->ring_virtaddr) { + dev_err(&adapter->pdev->dev, + "Cannot alloc memory for Free Buffer Ring %d\n", + id); + return -ENOMEM; + } + } + + for (id = 0; id < NUM_FBRS; id++) { + fbr = rx_ring->fbr[id]; + fbr_chunksize = (FBR_CHUNKS * fbr->buffsize); + + for (i = 0; i < fbr->num_entries / FBR_CHUNKS; i++) { + dma_addr_t fbr_physaddr; + + fbr->mem_virtaddrs[i] = dma_alloc_coherent( + &adapter->pdev->dev, fbr_chunksize, + &fbr->mem_physaddrs[i], + GFP_KERNEL); + + if (!fbr->mem_virtaddrs[i]) { + dev_err(&adapter->pdev->dev, + "Could not alloc memory\n"); + return -ENOMEM; + } + + /* See NOTE in "Save Physical Address" comment above */ + fbr_physaddr = fbr->mem_physaddrs[i]; + + for (j = 0; j < FBR_CHUNKS; j++) { + u32 k = (i * FBR_CHUNKS) + j; + + /* Save the Virtual address of this index for + * quick access later + */ + fbr->virt[k] = (u8 *)fbr->mem_virtaddrs[i] + + (j * fbr->buffsize); + + /* now store the physical address in the + * descriptor so the device can access it + */ + fbr->bus_high[k] = upper_32_bits(fbr_physaddr); + fbr->bus_low[k] = lower_32_bits(fbr_physaddr); + fbr_physaddr += fbr->buffsize; + } + } + } + + /* Allocate an area of memory for FIFO of Packet Status ring entries */ + psr_size = sizeof(struct pkt_stat_desc) * rx_ring->psr_entries; + + rx_ring->ps_ring_virtaddr = dma_alloc_coherent(&adapter->pdev->dev, + psr_size, + &rx_ring->ps_ring_physaddr, + GFP_KERNEL); + + if (!rx_ring->ps_ring_virtaddr) { + dev_err(&adapter->pdev->dev, + "Cannot alloc memory for Packet Status Ring\n"); + return -ENOMEM; + } + + /* Allocate an area of memory for writeback of status information */ + rx_ring->rx_status_block = dma_alloc_coherent(&adapter->pdev->dev, + sizeof(struct rx_status_block), + &rx_ring->rx_status_bus, + GFP_KERNEL); + if (!rx_ring->rx_status_block) { + dev_err(&adapter->pdev->dev, + "Cannot alloc memory for Status Block\n"); + return -ENOMEM; + } + rx_ring->num_rfd = NIC_DEFAULT_NUM_RFD; + + /* The RFDs are going to be put on lists later on, so initialize the + * lists now. + */ + INIT_LIST_HEAD(&rx_ring->recv_list); + return 0; +} + +static void et131x_rx_dma_memory_free(struct et131x_adapter *adapter) +{ + u8 id; + u32 ii; + u32 bufsize; + u32 psr_size; + struct rfd *rfd; + struct rx_ring *rx_ring = &adapter->rx_ring; + struct fbr_lookup *fbr; + + /* Free RFDs and associated packet descriptors */ + WARN_ON(rx_ring->num_ready_recv != rx_ring->num_rfd); + + while (!list_empty(&rx_ring->recv_list)) { + rfd = list_entry(rx_ring->recv_list.next, + struct rfd, list_node); + + list_del(&rfd->list_node); + rfd->skb = NULL; + kfree(rfd); + } + + /* Free Free Buffer Rings */ + for (id = 0; id < NUM_FBRS; id++) { + fbr = rx_ring->fbr[id]; + + if (!fbr || !fbr->ring_virtaddr) + continue; + + /* First the packet memory */ + for (ii = 0; ii < fbr->num_entries / FBR_CHUNKS; ii++) { + if (fbr->mem_virtaddrs[ii]) { + bufsize = fbr->buffsize * FBR_CHUNKS; + + dma_free_coherent(&adapter->pdev->dev, + bufsize, + fbr->mem_virtaddrs[ii], + fbr->mem_physaddrs[ii]); + + fbr->mem_virtaddrs[ii] = NULL; + } + } + + bufsize = sizeof(struct fbr_desc) * fbr->num_entries; + + dma_free_coherent(&adapter->pdev->dev, + bufsize, + fbr->ring_virtaddr, + fbr->ring_physaddr); + + fbr->ring_virtaddr = NULL; + } + + /* Free Packet Status Ring */ + if (rx_ring->ps_ring_virtaddr) { + psr_size = sizeof(struct pkt_stat_desc) * rx_ring->psr_entries; + + dma_free_coherent(&adapter->pdev->dev, psr_size, + rx_ring->ps_ring_virtaddr, + rx_ring->ps_ring_physaddr); + + rx_ring->ps_ring_virtaddr = NULL; + } + + /* Free area of memory for the writeback of status information */ + if (rx_ring->rx_status_block) { + dma_free_coherent(&adapter->pdev->dev, + sizeof(struct rx_status_block), + rx_ring->rx_status_block, + rx_ring->rx_status_bus); + rx_ring->rx_status_block = NULL; + } + + /* Free the FBR Lookup Table */ + kfree(rx_ring->fbr[0]); + kfree(rx_ring->fbr[1]); + + /* Reset Counters */ + rx_ring->num_ready_recv = 0; +} + +/* et131x_init_recv - Initialize receive data structures */ +static int et131x_init_recv(struct et131x_adapter *adapter) +{ + struct rfd *rfd; + u32 rfdct; + struct rx_ring *rx_ring = &adapter->rx_ring; + + /* Setup each RFD */ + for (rfdct = 0; rfdct < rx_ring->num_rfd; rfdct++) { + rfd = kzalloc(sizeof(*rfd), GFP_ATOMIC | GFP_DMA); + if (!rfd) + return -ENOMEM; + + rfd->skb = NULL; + + /* Add this RFD to the recv_list */ + list_add_tail(&rfd->list_node, &rx_ring->recv_list); + + /* Increment the available RFD's */ + rx_ring->num_ready_recv++; + } + + return 0; +} + +/* et131x_set_rx_dma_timer - Set the heartbeat timer according to line rate */ +static void et131x_set_rx_dma_timer(struct et131x_adapter *adapter) +{ + struct phy_device *phydev = adapter->netdev->phydev; + + /* For version B silicon, we do not use the RxDMA timer for 10 and 100 + * Mbits/s line rates. We do not enable and RxDMA interrupt coalescing. + */ + if ((phydev->speed == SPEED_100) || (phydev->speed == SPEED_10)) { + writel(0, &adapter->regs->rxdma.max_pkt_time); + writel(1, &adapter->regs->rxdma.num_pkt_done); + } +} + +/* nic_return_rfd - Recycle a RFD and put it back onto the receive list */ +static void nic_return_rfd(struct et131x_adapter *adapter, struct rfd *rfd) +{ + struct rx_ring *rx_local = &adapter->rx_ring; + struct rxdma_regs __iomem *rx_dma = &adapter->regs->rxdma; + u16 buff_index = rfd->bufferindex; + u8 ring_index = rfd->ringindex; + unsigned long flags; + struct fbr_lookup *fbr = rx_local->fbr[ring_index]; + + /* We don't use any of the OOB data besides status. Otherwise, we + * need to clean up OOB data + */ + if (buff_index < fbr->num_entries) { + u32 free_buff_ring; + u32 __iomem *offset; + struct fbr_desc *next; + + if (ring_index == 0) + offset = &rx_dma->fbr0_full_offset; + else + offset = &rx_dma->fbr1_full_offset; + + next = (struct fbr_desc *)(fbr->ring_virtaddr) + + INDEX10(fbr->local_full); + + /* Handle the Free Buffer Ring advancement here. Write + * the PA / Buffer Index for the returned buffer into + * the oldest (next to be freed)FBR entry + */ + next->addr_hi = fbr->bus_high[buff_index]; + next->addr_lo = fbr->bus_low[buff_index]; + next->word2 = buff_index; + + free_buff_ring = bump_free_buff_ring(&fbr->local_full, + fbr->num_entries - 1); + writel(free_buff_ring, offset); + } else { + dev_err(&adapter->pdev->dev, + "%s illegal Buffer Index returned\n", __func__); + } + + /* The processing on this RFD is done, so put it back on the tail of + * our list + */ + spin_lock_irqsave(&adapter->rcv_lock, flags); + list_add_tail(&rfd->list_node, &rx_local->recv_list); + rx_local->num_ready_recv++; + spin_unlock_irqrestore(&adapter->rcv_lock, flags); + + WARN_ON(rx_local->num_ready_recv > rx_local->num_rfd); +} + +/* nic_rx_pkts - Checks the hardware for available packets + * + * Checks the hardware for available packets, using completion ring + * If packets are available, it gets an RFD from the recv_list, attaches + * the packet to it, puts the RFD in the RecvPendList, and also returns + * the pointer to the RFD. + */ +static struct rfd *nic_rx_pkts(struct et131x_adapter *adapter) +{ + struct rx_ring *rx_local = &adapter->rx_ring; + struct rx_status_block *status; + struct pkt_stat_desc *psr; + struct rfd *rfd; + unsigned long flags; + struct list_head *element; + u8 ring_index; + u16 buff_index; + u32 len; + u32 word0; + u32 word1; + struct sk_buff *skb; + struct fbr_lookup *fbr; + + /* RX Status block is written by the DMA engine prior to every + * interrupt. It contains the next to be used entry in the Packet + * Status Ring, and also the two Free Buffer rings. + */ + status = rx_local->rx_status_block; + word1 = status->word1 >> 16; + + /* Check the PSR and wrap bits do not match */ + if ((word1 & 0x1FFF) == (rx_local->local_psr_full & 0x1FFF)) + return NULL; /* Looks like this ring is not updated yet */ + + /* The packet status ring indicates that data is available. */ + psr = (struct pkt_stat_desc *)(rx_local->ps_ring_virtaddr) + + (rx_local->local_psr_full & 0xFFF); + + /* Grab any information that is required once the PSR is advanced, + * since we can no longer rely on the memory being accurate + */ + len = psr->word1 & 0xFFFF; + ring_index = (psr->word1 >> 26) & 0x03; + fbr = rx_local->fbr[ring_index]; + buff_index = (psr->word1 >> 16) & 0x3FF; + word0 = psr->word0; + + /* Indicate that we have used this PSR entry. */ + /* FIXME wrap 12 */ + add_12bit(&rx_local->local_psr_full, 1); + if ((rx_local->local_psr_full & 0xFFF) > rx_local->psr_entries - 1) { + /* Clear psr full and toggle the wrap bit */ + rx_local->local_psr_full &= ~0xFFF; + rx_local->local_psr_full ^= 0x1000; + } + + writel(rx_local->local_psr_full, &adapter->regs->rxdma.psr_full_offset); + + if (ring_index > 1 || buff_index > fbr->num_entries - 1) { + /* Illegal buffer or ring index cannot be used by S/W*/ + dev_err(&adapter->pdev->dev, + "NICRxPkts PSR Entry %d indicates length of %d and/or bad bi(%d)\n", + rx_local->local_psr_full & 0xFFF, len, buff_index); + return NULL; + } + + /* Get and fill the RFD. */ + spin_lock_irqsave(&adapter->rcv_lock, flags); + + element = rx_local->recv_list.next; + rfd = list_entry(element, struct rfd, list_node); + + if (!rfd) { + spin_unlock_irqrestore(&adapter->rcv_lock, flags); + return NULL; + } + + list_del(&rfd->list_node); + rx_local->num_ready_recv--; + + spin_unlock_irqrestore(&adapter->rcv_lock, flags); + + rfd->bufferindex = buff_index; + rfd->ringindex = ring_index; + + /* In V1 silicon, there is a bug which screws up filtering of runt + * packets. Therefore runt packet filtering is disabled in the MAC and + * the packets are dropped here. They are also counted here. + */ + if (len < (NIC_MIN_PACKET_SIZE + 4)) { + adapter->stats.rx_other_errs++; + rfd->len = 0; + goto out; + } + + if ((word0 & ALCATEL_MULTICAST_PKT) && !(word0 & ALCATEL_BROADCAST_PKT)) + adapter->stats.multicast_pkts_rcvd++; + + rfd->len = len; + + skb = dev_alloc_skb(rfd->len + 2); + if (!skb) + return NULL; + + adapter->netdev->stats.rx_bytes += rfd->len; + + skb_put_data(skb, fbr->virt[buff_index], rfd->len); + + skb->protocol = eth_type_trans(skb, adapter->netdev); + skb->ip_summed = CHECKSUM_NONE; + netif_receive_skb(skb); + +out: + nic_return_rfd(adapter, rfd); + return rfd; +} + +static int et131x_handle_recv_pkts(struct et131x_adapter *adapter, int budget) +{ + struct rfd *rfd = NULL; + int count = 0; + int limit = budget; + bool done = true; + struct rx_ring *rx_ring = &adapter->rx_ring; + + if (budget > MAX_PACKETS_HANDLED) + limit = MAX_PACKETS_HANDLED; + + /* Process up to available RFD's */ + while (count < limit) { + if (list_empty(&rx_ring->recv_list)) { + WARN_ON(rx_ring->num_ready_recv != 0); + done = false; + break; + } + + rfd = nic_rx_pkts(adapter); + + if (rfd == NULL) + break; + + /* Do not receive any packets until a filter has been set. + * Do not receive any packets until we have link. + * If length is zero, return the RFD in order to advance the + * Free buffer ring. + */ + if (!adapter->packet_filter || + !netif_carrier_ok(adapter->netdev) || + rfd->len == 0) + continue; + + adapter->netdev->stats.rx_packets++; + + if (rx_ring->num_ready_recv < RFD_LOW_WATER_MARK) + dev_warn(&adapter->pdev->dev, "RFD's are running out\n"); + + count++; + } + + if (count == limit || !done) { + rx_ring->unfinished_receives = true; + writel(PARM_TX_TIME_INT_DEF * NANO_IN_A_MICRO, + &adapter->regs->global.watchdog_timer); + } else { + /* Watchdog timer will disable itself if appropriate. */ + rx_ring->unfinished_receives = false; + } + + return count; +} + +/* et131x_tx_dma_memory_alloc + * + * Allocates memory that will be visible both to the device and to the CPU. + * The OS will pass us packets, pointers to which we will insert in the Tx + * Descriptor queue. The device will read this queue to find the packets in + * memory. The device will update the "status" in memory each time it xmits a + * packet. + */ +static int et131x_tx_dma_memory_alloc(struct et131x_adapter *adapter) +{ + int desc_size = 0; + struct tx_ring *tx_ring = &adapter->tx_ring; + + /* Allocate memory for the TCB's (Transmit Control Block) */ + tx_ring->tcb_ring = kcalloc(NUM_TCB, sizeof(struct tcb), + GFP_KERNEL | GFP_DMA); + if (!tx_ring->tcb_ring) + return -ENOMEM; + + desc_size = (sizeof(struct tx_desc) * NUM_DESC_PER_RING_TX); + tx_ring->tx_desc_ring = dma_alloc_coherent(&adapter->pdev->dev, + desc_size, + &tx_ring->tx_desc_ring_pa, + GFP_KERNEL); + if (!tx_ring->tx_desc_ring) { + dev_err(&adapter->pdev->dev, + "Cannot alloc memory for Tx Ring\n"); + return -ENOMEM; + } + + tx_ring->tx_status = dma_alloc_coherent(&adapter->pdev->dev, + sizeof(u32), + &tx_ring->tx_status_pa, + GFP_KERNEL); + if (!tx_ring->tx_status) { + dev_err(&adapter->pdev->dev, + "Cannot alloc memory for Tx status block\n"); + return -ENOMEM; + } + return 0; +} + +static void et131x_tx_dma_memory_free(struct et131x_adapter *adapter) +{ + int desc_size = 0; + struct tx_ring *tx_ring = &adapter->tx_ring; + + if (tx_ring->tx_desc_ring) { + /* Free memory relating to Tx rings here */ + desc_size = (sizeof(struct tx_desc) * NUM_DESC_PER_RING_TX); + dma_free_coherent(&adapter->pdev->dev, + desc_size, + tx_ring->tx_desc_ring, + tx_ring->tx_desc_ring_pa); + tx_ring->tx_desc_ring = NULL; + } + + /* Free memory for the Tx status block */ + if (tx_ring->tx_status) { + dma_free_coherent(&adapter->pdev->dev, + sizeof(u32), + tx_ring->tx_status, + tx_ring->tx_status_pa); + + tx_ring->tx_status = NULL; + } + /* Free the memory for the tcb structures */ + kfree(tx_ring->tcb_ring); +} + +#define MAX_TX_DESC_PER_PKT 24 + +/* nic_send_packet - NIC specific send handler for version B silicon. */ +static int nic_send_packet(struct et131x_adapter *adapter, struct tcb *tcb) +{ + u32 i; + struct tx_desc desc[MAX_TX_DESC_PER_PKT]; + u32 frag = 0; + u32 thiscopy, remainder; + struct sk_buff *skb = tcb->skb; + u32 nr_frags = skb_shinfo(skb)->nr_frags + 1; + skb_frag_t *frags = &skb_shinfo(skb)->frags[0]; + struct phy_device *phydev = adapter->netdev->phydev; + dma_addr_t dma_addr; + struct tx_ring *tx_ring = &adapter->tx_ring; + + /* Part of the optimizations of this send routine restrict us to + * sending 24 fragments at a pass. In practice we should never see + * more than 5 fragments. + */ + + memset(desc, 0, sizeof(struct tx_desc) * (nr_frags + 1)); + + for (i = 0; i < nr_frags; i++) { + /* If there is something in this element, lets get a + * descriptor from the ring and get the necessary data + */ + if (i == 0) { + /* If the fragments are smaller than a standard MTU, + * then map them to a single descriptor in the Tx + * Desc ring. However, if they're larger, as is + * possible with support for jumbo packets, then + * split them each across 2 descriptors. + * + * This will work until we determine why the hardware + * doesn't seem to like large fragments. + */ + if (skb_headlen(skb) <= 1514) { + /* Low 16bits are length, high is vlan and + * unused currently so zero + */ + desc[frag].len_vlan = skb_headlen(skb); + dma_addr = dma_map_single(&adapter->pdev->dev, + skb->data, + skb_headlen(skb), + DMA_TO_DEVICE); + desc[frag].addr_lo = lower_32_bits(dma_addr); + desc[frag].addr_hi = upper_32_bits(dma_addr); + frag++; + } else { + desc[frag].len_vlan = skb_headlen(skb) / 2; + dma_addr = dma_map_single(&adapter->pdev->dev, + skb->data, + skb_headlen(skb) / 2, + DMA_TO_DEVICE); + desc[frag].addr_lo = lower_32_bits(dma_addr); + desc[frag].addr_hi = upper_32_bits(dma_addr); + frag++; + + desc[frag].len_vlan = skb_headlen(skb) / 2; + dma_addr = dma_map_single(&adapter->pdev->dev, + skb->data + + skb_headlen(skb) / 2, + skb_headlen(skb) / 2, + DMA_TO_DEVICE); + desc[frag].addr_lo = lower_32_bits(dma_addr); + desc[frag].addr_hi = upper_32_bits(dma_addr); + frag++; + } + } else { + desc[frag].len_vlan = skb_frag_size(&frags[i - 1]); + dma_addr = skb_frag_dma_map(&adapter->pdev->dev, + &frags[i - 1], + 0, + desc[frag].len_vlan, + DMA_TO_DEVICE); + desc[frag].addr_lo = lower_32_bits(dma_addr); + desc[frag].addr_hi = upper_32_bits(dma_addr); + frag++; + } + } + + if (phydev && phydev->speed == SPEED_1000) { + if (++tx_ring->since_irq == PARM_TX_NUM_BUFS_DEF) { + /* Last element & Interrupt flag */ + desc[frag - 1].flags = + TXDESC_FLAG_INTPROC | TXDESC_FLAG_LASTPKT; + tx_ring->since_irq = 0; + } else { /* Last element */ + desc[frag - 1].flags = TXDESC_FLAG_LASTPKT; + } + } else { + desc[frag - 1].flags = + TXDESC_FLAG_INTPROC | TXDESC_FLAG_LASTPKT; + } + + desc[0].flags |= TXDESC_FLAG_FIRSTPKT; + + tcb->index_start = tx_ring->send_idx; + tcb->stale = 0; + + thiscopy = NUM_DESC_PER_RING_TX - INDEX10(tx_ring->send_idx); + + if (thiscopy >= frag) { + remainder = 0; + thiscopy = frag; + } else { + remainder = frag - thiscopy; + } + + memcpy(tx_ring->tx_desc_ring + INDEX10(tx_ring->send_idx), + desc, + sizeof(struct tx_desc) * thiscopy); + + add_10bit(&tx_ring->send_idx, thiscopy); + + if (INDEX10(tx_ring->send_idx) == 0 || + INDEX10(tx_ring->send_idx) == NUM_DESC_PER_RING_TX) { + tx_ring->send_idx &= ~ET_DMA10_MASK; + tx_ring->send_idx ^= ET_DMA10_WRAP; + } + + if (remainder) { + memcpy(tx_ring->tx_desc_ring, + desc + thiscopy, + sizeof(struct tx_desc) * remainder); + + add_10bit(&tx_ring->send_idx, remainder); + } + + if (INDEX10(tx_ring->send_idx) == 0) { + if (tx_ring->send_idx) + tcb->index = NUM_DESC_PER_RING_TX - 1; + else + tcb->index = ET_DMA10_WRAP|(NUM_DESC_PER_RING_TX - 1); + } else { + tcb->index = tx_ring->send_idx - 1; + } + + spin_lock(&adapter->tcb_send_qlock); + + if (tx_ring->send_tail) + tx_ring->send_tail->next = tcb; + else + tx_ring->send_head = tcb; + + tx_ring->send_tail = tcb; + + WARN_ON(tcb->next != NULL); + + tx_ring->used++; + + spin_unlock(&adapter->tcb_send_qlock); + + /* Write the new write pointer back to the device. */ + writel(tx_ring->send_idx, &adapter->regs->txdma.service_request); + + /* For Gig only, we use Tx Interrupt coalescing. Enable the software + * timer to wake us up if this packet isn't followed by N more. + */ + if (phydev && phydev->speed == SPEED_1000) { + writel(PARM_TX_TIME_INT_DEF * NANO_IN_A_MICRO, + &adapter->regs->global.watchdog_timer); + } + return 0; +} + +static int send_packet(struct sk_buff *skb, struct et131x_adapter *adapter) +{ + int status; + struct tcb *tcb; + unsigned long flags; + struct tx_ring *tx_ring = &adapter->tx_ring; + + /* All packets must have at least a MAC address and a protocol type */ + if (skb->len < ETH_HLEN) + return -EIO; + + spin_lock_irqsave(&adapter->tcb_ready_qlock, flags); + + tcb = tx_ring->tcb_qhead; + + if (tcb == NULL) { + spin_unlock_irqrestore(&adapter->tcb_ready_qlock, flags); + return -ENOMEM; + } + + tx_ring->tcb_qhead = tcb->next; + + if (tx_ring->tcb_qhead == NULL) + tx_ring->tcb_qtail = NULL; + + spin_unlock_irqrestore(&adapter->tcb_ready_qlock, flags); + + tcb->skb = skb; + tcb->next = NULL; + + status = nic_send_packet(adapter, tcb); + + if (status != 0) { + spin_lock_irqsave(&adapter->tcb_ready_qlock, flags); + + if (tx_ring->tcb_qtail) + tx_ring->tcb_qtail->next = tcb; + else + /* Apparently ready Q is empty. */ + tx_ring->tcb_qhead = tcb; + + tx_ring->tcb_qtail = tcb; + spin_unlock_irqrestore(&adapter->tcb_ready_qlock, flags); + return status; + } + WARN_ON(tx_ring->used > NUM_TCB); + return 0; +} + +/* free_send_packet - Recycle a struct tcb */ +static inline void free_send_packet(struct et131x_adapter *adapter, + struct tcb *tcb) +{ + unsigned long flags; + struct tx_desc *desc = NULL; + struct net_device_stats *stats = &adapter->netdev->stats; + struct tx_ring *tx_ring = &adapter->tx_ring; + u64 dma_addr; + + if (tcb->skb) { + stats->tx_bytes += tcb->skb->len; + + /* Iterate through the TX descriptors on the ring + * corresponding to this packet and umap the fragments + * they point to + */ + do { + desc = tx_ring->tx_desc_ring + + INDEX10(tcb->index_start); + + dma_addr = desc->addr_lo; + dma_addr |= (u64)desc->addr_hi << 32; + + dma_unmap_single(&adapter->pdev->dev, + dma_addr, + desc->len_vlan, DMA_TO_DEVICE); + + add_10bit(&tcb->index_start, 1); + if (INDEX10(tcb->index_start) >= + NUM_DESC_PER_RING_TX) { + tcb->index_start &= ~ET_DMA10_MASK; + tcb->index_start ^= ET_DMA10_WRAP; + } + } while (desc != tx_ring->tx_desc_ring + INDEX10(tcb->index)); + + dev_kfree_skb_any(tcb->skb); + } + + memset(tcb, 0, sizeof(struct tcb)); + + /* Add the TCB to the Ready Q */ + spin_lock_irqsave(&adapter->tcb_ready_qlock, flags); + + stats->tx_packets++; + + if (tx_ring->tcb_qtail) + tx_ring->tcb_qtail->next = tcb; + else /* Apparently ready Q is empty. */ + tx_ring->tcb_qhead = tcb; + + tx_ring->tcb_qtail = tcb; + + spin_unlock_irqrestore(&adapter->tcb_ready_qlock, flags); + WARN_ON(tx_ring->used < 0); +} + +/* et131x_free_busy_send_packets - Free and complete the stopped active sends */ +static void et131x_free_busy_send_packets(struct et131x_adapter *adapter) +{ + struct tcb *tcb; + unsigned long flags; + u32 freed = 0; + struct tx_ring *tx_ring = &adapter->tx_ring; + + /* Any packets being sent? Check the first TCB on the send list */ + spin_lock_irqsave(&adapter->tcb_send_qlock, flags); + + tcb = tx_ring->send_head; + + while (tcb != NULL && freed < NUM_TCB) { + struct tcb *next = tcb->next; + + tx_ring->send_head = next; + + if (next == NULL) + tx_ring->send_tail = NULL; + + tx_ring->used--; + + spin_unlock_irqrestore(&adapter->tcb_send_qlock, flags); + + freed++; + free_send_packet(adapter, tcb); + + spin_lock_irqsave(&adapter->tcb_send_qlock, flags); + + tcb = tx_ring->send_head; + } + + WARN_ON(freed == NUM_TCB); + + spin_unlock_irqrestore(&adapter->tcb_send_qlock, flags); + + tx_ring->used = 0; +} + +/* et131x_handle_send_pkts + * + * Re-claim the send resources, complete sends and get more to send from + * the send wait queue. + */ +static void et131x_handle_send_pkts(struct et131x_adapter *adapter) +{ + unsigned long flags; + u32 serviced; + struct tcb *tcb; + u32 index; + struct tx_ring *tx_ring = &adapter->tx_ring; + + serviced = readl(&adapter->regs->txdma.new_service_complete); + index = INDEX10(serviced); + + /* Has the ring wrapped? Process any descriptors that do not have + * the same "wrap" indicator as the current completion indicator + */ + spin_lock_irqsave(&adapter->tcb_send_qlock, flags); + + tcb = tx_ring->send_head; + + while (tcb && + ((serviced ^ tcb->index) & ET_DMA10_WRAP) && + index < INDEX10(tcb->index)) { + tx_ring->used--; + tx_ring->send_head = tcb->next; + if (tcb->next == NULL) + tx_ring->send_tail = NULL; + + spin_unlock_irqrestore(&adapter->tcb_send_qlock, flags); + free_send_packet(adapter, tcb); + spin_lock_irqsave(&adapter->tcb_send_qlock, flags); + + /* Goto the next packet */ + tcb = tx_ring->send_head; + } + while (tcb && + !((serviced ^ tcb->index) & ET_DMA10_WRAP) && + index > (tcb->index & ET_DMA10_MASK)) { + tx_ring->used--; + tx_ring->send_head = tcb->next; + if (tcb->next == NULL) + tx_ring->send_tail = NULL; + + spin_unlock_irqrestore(&adapter->tcb_send_qlock, flags); + free_send_packet(adapter, tcb); + spin_lock_irqsave(&adapter->tcb_send_qlock, flags); + + /* Goto the next packet */ + tcb = tx_ring->send_head; + } + + /* Wake up the queue when we hit a low-water mark */ + if (tx_ring->used <= NUM_TCB / 3) + netif_wake_queue(adapter->netdev); + + spin_unlock_irqrestore(&adapter->tcb_send_qlock, flags); +} + +static int et131x_get_regs_len(struct net_device *netdev) +{ +#define ET131X_REGS_LEN 256 + return ET131X_REGS_LEN * sizeof(u32); +} + +static void et131x_get_regs(struct net_device *netdev, + struct ethtool_regs *regs, void *regs_data) +{ + struct et131x_adapter *adapter = netdev_priv(netdev); + struct address_map __iomem *aregs = adapter->regs; + u32 *regs_buff = regs_data; + u32 num = 0; + u16 tmp; + + memset(regs_data, 0, et131x_get_regs_len(netdev)); + + regs->version = (1 << 24) | (adapter->pdev->revision << 16) | + adapter->pdev->device; + + /* PHY regs */ + et131x_mii_read(adapter, MII_BMCR, &tmp); + regs_buff[num++] = tmp; + et131x_mii_read(adapter, MII_BMSR, &tmp); + regs_buff[num++] = tmp; + et131x_mii_read(adapter, MII_PHYSID1, &tmp); + regs_buff[num++] = tmp; + et131x_mii_read(adapter, MII_PHYSID2, &tmp); + regs_buff[num++] = tmp; + et131x_mii_read(adapter, MII_ADVERTISE, &tmp); + regs_buff[num++] = tmp; + et131x_mii_read(adapter, MII_LPA, &tmp); + regs_buff[num++] = tmp; + et131x_mii_read(adapter, MII_EXPANSION, &tmp); + regs_buff[num++] = tmp; + /* Autoneg next page transmit reg */ + et131x_mii_read(adapter, 0x07, &tmp); + regs_buff[num++] = tmp; + /* Link partner next page reg */ + et131x_mii_read(adapter, 0x08, &tmp); + regs_buff[num++] = tmp; + et131x_mii_read(adapter, MII_CTRL1000, &tmp); + regs_buff[num++] = tmp; + et131x_mii_read(adapter, MII_STAT1000, &tmp); + regs_buff[num++] = tmp; + et131x_mii_read(adapter, 0x0b, &tmp); + regs_buff[num++] = tmp; + et131x_mii_read(adapter, 0x0c, &tmp); + regs_buff[num++] = tmp; + et131x_mii_read(adapter, MII_MMD_CTRL, &tmp); + regs_buff[num++] = tmp; + et131x_mii_read(adapter, MII_MMD_DATA, &tmp); + regs_buff[num++] = tmp; + et131x_mii_read(adapter, MII_ESTATUS, &tmp); + regs_buff[num++] = tmp; + + et131x_mii_read(adapter, PHY_INDEX_REG, &tmp); + regs_buff[num++] = tmp; + et131x_mii_read(adapter, PHY_DATA_REG, &tmp); + regs_buff[num++] = tmp; + et131x_mii_read(adapter, PHY_MPHY_CONTROL_REG, &tmp); + regs_buff[num++] = tmp; + et131x_mii_read(adapter, PHY_LOOPBACK_CONTROL, &tmp); + regs_buff[num++] = tmp; + et131x_mii_read(adapter, PHY_LOOPBACK_CONTROL + 1, &tmp); + regs_buff[num++] = tmp; + + et131x_mii_read(adapter, PHY_REGISTER_MGMT_CONTROL, &tmp); + regs_buff[num++] = tmp; + et131x_mii_read(adapter, PHY_CONFIG, &tmp); + regs_buff[num++] = tmp; + et131x_mii_read(adapter, PHY_PHY_CONTROL, &tmp); + regs_buff[num++] = tmp; + et131x_mii_read(adapter, PHY_INTERRUPT_MASK, &tmp); + regs_buff[num++] = tmp; + et131x_mii_read(adapter, PHY_INTERRUPT_STATUS, &tmp); + regs_buff[num++] = tmp; + et131x_mii_read(adapter, PHY_PHY_STATUS, &tmp); + regs_buff[num++] = tmp; + et131x_mii_read(adapter, PHY_LED_1, &tmp); + regs_buff[num++] = tmp; + et131x_mii_read(adapter, PHY_LED_2, &tmp); + regs_buff[num++] = tmp; + + /* Global regs */ + regs_buff[num++] = readl(&aregs->global.txq_start_addr); + regs_buff[num++] = readl(&aregs->global.txq_end_addr); + regs_buff[num++] = readl(&aregs->global.rxq_start_addr); + regs_buff[num++] = readl(&aregs->global.rxq_end_addr); + regs_buff[num++] = readl(&aregs->global.pm_csr); + regs_buff[num++] = adapter->stats.interrupt_status; + regs_buff[num++] = readl(&aregs->global.int_mask); + regs_buff[num++] = readl(&aregs->global.int_alias_clr_en); + regs_buff[num++] = readl(&aregs->global.int_status_alias); + regs_buff[num++] = readl(&aregs->global.sw_reset); + regs_buff[num++] = readl(&aregs->global.slv_timer); + regs_buff[num++] = readl(&aregs->global.msi_config); + regs_buff[num++] = readl(&aregs->global.loopback); + regs_buff[num++] = readl(&aregs->global.watchdog_timer); + + /* TXDMA regs */ + regs_buff[num++] = readl(&aregs->txdma.csr); + regs_buff[num++] = readl(&aregs->txdma.pr_base_hi); + regs_buff[num++] = readl(&aregs->txdma.pr_base_lo); + regs_buff[num++] = readl(&aregs->txdma.pr_num_des); + regs_buff[num++] = readl(&aregs->txdma.txq_wr_addr); + regs_buff[num++] = readl(&aregs->txdma.txq_wr_addr_ext); + regs_buff[num++] = readl(&aregs->txdma.txq_rd_addr); + regs_buff[num++] = readl(&aregs->txdma.dma_wb_base_hi); + regs_buff[num++] = readl(&aregs->txdma.dma_wb_base_lo); + regs_buff[num++] = readl(&aregs->txdma.service_request); + regs_buff[num++] = readl(&aregs->txdma.service_complete); + regs_buff[num++] = readl(&aregs->txdma.cache_rd_index); + regs_buff[num++] = readl(&aregs->txdma.cache_wr_index); + regs_buff[num++] = readl(&aregs->txdma.tx_dma_error); + regs_buff[num++] = readl(&aregs->txdma.desc_abort_cnt); + regs_buff[num++] = readl(&aregs->txdma.payload_abort_cnt); + regs_buff[num++] = readl(&aregs->txdma.writeback_abort_cnt); + regs_buff[num++] = readl(&aregs->txdma.desc_timeout_cnt); + regs_buff[num++] = readl(&aregs->txdma.payload_timeout_cnt); + regs_buff[num++] = readl(&aregs->txdma.writeback_timeout_cnt); + regs_buff[num++] = readl(&aregs->txdma.desc_error_cnt); + regs_buff[num++] = readl(&aregs->txdma.payload_error_cnt); + regs_buff[num++] = readl(&aregs->txdma.writeback_error_cnt); + regs_buff[num++] = readl(&aregs->txdma.dropped_tlp_cnt); + regs_buff[num++] = readl(&aregs->txdma.new_service_complete); + regs_buff[num++] = readl(&aregs->txdma.ethernet_packet_cnt); + + /* RXDMA regs */ + regs_buff[num++] = readl(&aregs->rxdma.csr); + regs_buff[num++] = readl(&aregs->rxdma.dma_wb_base_hi); + regs_buff[num++] = readl(&aregs->rxdma.dma_wb_base_lo); + regs_buff[num++] = readl(&aregs->rxdma.num_pkt_done); + regs_buff[num++] = readl(&aregs->rxdma.max_pkt_time); + regs_buff[num++] = readl(&aregs->rxdma.rxq_rd_addr); + regs_buff[num++] = readl(&aregs->rxdma.rxq_rd_addr_ext); + regs_buff[num++] = readl(&aregs->rxdma.rxq_wr_addr); + regs_buff[num++] = readl(&aregs->rxdma.psr_base_hi); + regs_buff[num++] = readl(&aregs->rxdma.psr_base_lo); + regs_buff[num++] = readl(&aregs->rxdma.psr_num_des); + regs_buff[num++] = readl(&aregs->rxdma.psr_avail_offset); + regs_buff[num++] = readl(&aregs->rxdma.psr_full_offset); + regs_buff[num++] = readl(&aregs->rxdma.psr_access_index); + regs_buff[num++] = readl(&aregs->rxdma.psr_min_des); + regs_buff[num++] = readl(&aregs->rxdma.fbr0_base_lo); + regs_buff[num++] = readl(&aregs->rxdma.fbr0_base_hi); + regs_buff[num++] = readl(&aregs->rxdma.fbr0_num_des); + regs_buff[num++] = readl(&aregs->rxdma.fbr0_avail_offset); + regs_buff[num++] = readl(&aregs->rxdma.fbr0_full_offset); + regs_buff[num++] = readl(&aregs->rxdma.fbr0_rd_index); + regs_buff[num++] = readl(&aregs->rxdma.fbr0_min_des); + regs_buff[num++] = readl(&aregs->rxdma.fbr1_base_lo); + regs_buff[num++] = readl(&aregs->rxdma.fbr1_base_hi); + regs_buff[num++] = readl(&aregs->rxdma.fbr1_num_des); + regs_buff[num++] = readl(&aregs->rxdma.fbr1_avail_offset); + regs_buff[num++] = readl(&aregs->rxdma.fbr1_full_offset); + regs_buff[num++] = readl(&aregs->rxdma.fbr1_rd_index); + regs_buff[num++] = readl(&aregs->rxdma.fbr1_min_des); +} + +static void et131x_get_drvinfo(struct net_device *netdev, + struct ethtool_drvinfo *info) +{ + struct et131x_adapter *adapter = netdev_priv(netdev); + + strscpy(info->driver, DRIVER_NAME, sizeof(info->driver)); + strscpy(info->bus_info, pci_name(adapter->pdev), + sizeof(info->bus_info)); +} + +static const struct ethtool_ops et131x_ethtool_ops = { + .get_drvinfo = et131x_get_drvinfo, + .get_regs_len = et131x_get_regs_len, + .get_regs = et131x_get_regs, + .get_link = ethtool_op_get_link, + .get_link_ksettings = phy_ethtool_get_link_ksettings, + .set_link_ksettings = phy_ethtool_set_link_ksettings, +}; + +/* et131x_hwaddr_init - set up the MAC Address */ +static void et131x_hwaddr_init(struct et131x_adapter *adapter) +{ + /* If have our default mac from init and no mac address from + * EEPROM then we need to generate the last octet and set it on the + * device + */ + if (is_zero_ether_addr(adapter->rom_addr)) { + /* We need to randomly generate the last octet so we + * decrease our chances of setting the mac address to + * same as another one of our cards in the system + */ + get_random_bytes(&adapter->addr[5], 1); + /* We have the default value in the register we are + * working with so we need to copy the current + * address into the permanent address + */ + ether_addr_copy(adapter->rom_addr, adapter->addr); + } else { + /* We do not have an override address, so set the + * current address to the permanent address and add + * it to the device + */ + ether_addr_copy(adapter->addr, adapter->rom_addr); + } +} + +static int et131x_pci_init(struct et131x_adapter *adapter, + struct pci_dev *pdev) +{ + u16 max_payload; + int i, rc; + + rc = et131x_init_eeprom(adapter); + if (rc < 0) + goto out; + + if (!pci_is_pcie(pdev)) { + dev_err(&pdev->dev, "Missing PCIe capabilities\n"); + goto err_out; + } + + /* Program the Ack/Nak latency and replay timers */ + max_payload = pdev->pcie_mpss; + + if (max_payload < 2) { + static const u16 acknak[2] = { 0x76, 0xD0 }; + static const u16 replay[2] = { 0x1E0, 0x2ED }; + + if (pci_write_config_word(pdev, ET1310_PCI_ACK_NACK, + acknak[max_payload])) { + dev_err(&pdev->dev, + "Could not write PCI config space for ACK/NAK\n"); + goto err_out; + } + if (pci_write_config_word(pdev, ET1310_PCI_REPLAY, + replay[max_payload])) { + dev_err(&pdev->dev, + "Could not write PCI config space for Replay Timer\n"); + goto err_out; + } + } + + /* l0s and l1 latency timers. We are using default values. + * Representing 001 for L0s and 010 for L1 + */ + if (pci_write_config_byte(pdev, ET1310_PCI_L0L1LATENCY, 0x11)) { + dev_err(&pdev->dev, + "Could not write PCI config space for Latency Timers\n"); + goto err_out; + } + + /* Change the max read size to 2k */ + if (pcie_set_readrq(pdev, 2048)) { + dev_err(&pdev->dev, + "Couldn't change PCI config space for Max read size\n"); + goto err_out; + } + + /* Get MAC address from config space if an eeprom exists, otherwise + * the MAC address there will not be valid + */ + if (!adapter->has_eeprom) { + et131x_hwaddr_init(adapter); + return 0; + } + + for (i = 0; i < ETH_ALEN; i++) { + if (pci_read_config_byte(pdev, ET1310_PCI_MAC_ADDRESS + i, + adapter->rom_addr + i)) { + dev_err(&pdev->dev, "Could not read PCI config space for MAC address\n"); + goto err_out; + } + } + ether_addr_copy(adapter->addr, adapter->rom_addr); +out: + return rc; +err_out: + rc = -EIO; + goto out; +} + +/* et131x_error_timer_handler + * @data: timer-specific variable; here a pointer to our adapter structure + * + * The routine called when the error timer expires, to track the number of + * recurring errors. + */ +static void et131x_error_timer_handler(struct timer_list *t) +{ + struct et131x_adapter *adapter = from_timer(adapter, t, error_timer); + struct phy_device *phydev = adapter->netdev->phydev; + + if (et1310_in_phy_coma(adapter)) { + /* Bring the device immediately out of coma, to + * prevent it from sleeping indefinitely, this + * mechanism could be improved! + */ + et1310_disable_phy_coma(adapter); + adapter->boot_coma = 20; + } else { + et1310_update_macstat_host_counters(adapter); + } + + if (!phydev->link && adapter->boot_coma < 11) + adapter->boot_coma++; + + if (adapter->boot_coma == 10) { + if (!phydev->link) { + if (!et1310_in_phy_coma(adapter)) { + /* NOTE - This was originally a 'sync with + * interrupt'. How to do that under Linux? + */ + et131x_enable_interrupts(adapter); + et1310_enable_phy_coma(adapter); + } + } + } + + /* This is a periodic timer, so reschedule */ + mod_timer(&adapter->error_timer, jiffies + + msecs_to_jiffies(TX_ERROR_PERIOD)); +} + +static void et131x_adapter_memory_free(struct et131x_adapter *adapter) +{ + et131x_tx_dma_memory_free(adapter); + et131x_rx_dma_memory_free(adapter); +} + +static int et131x_adapter_memory_alloc(struct et131x_adapter *adapter) +{ + int status; + + status = et131x_tx_dma_memory_alloc(adapter); + if (status) { + dev_err(&adapter->pdev->dev, + "et131x_tx_dma_memory_alloc FAILED\n"); + et131x_tx_dma_memory_free(adapter); + return status; + } + + status = et131x_rx_dma_memory_alloc(adapter); + if (status) { + dev_err(&adapter->pdev->dev, + "et131x_rx_dma_memory_alloc FAILED\n"); + et131x_adapter_memory_free(adapter); + return status; + } + + status = et131x_init_recv(adapter); + if (status) { + dev_err(&adapter->pdev->dev, "et131x_init_recv FAILED\n"); + et131x_adapter_memory_free(adapter); + } + return status; +} + +static void et131x_adjust_link(struct net_device *netdev) +{ + struct et131x_adapter *adapter = netdev_priv(netdev); + struct phy_device *phydev = netdev->phydev; + + if (!phydev) + return; + if (phydev->link == adapter->link) + return; + + /* Check to see if we are in coma mode and if + * so, disable it because we will not be able + * to read PHY values until we are out. + */ + if (et1310_in_phy_coma(adapter)) + et1310_disable_phy_coma(adapter); + + adapter->link = phydev->link; + phy_print_status(phydev); + + if (phydev->link) { + adapter->boot_coma = 20; + if (phydev->speed == SPEED_10) { + u16 register18; + + et131x_mii_read(adapter, PHY_MPHY_CONTROL_REG, + ®ister18); + et131x_mii_write(adapter, phydev->mdio.addr, + PHY_MPHY_CONTROL_REG, + register18 | 0x4); + et131x_mii_write(adapter, phydev->mdio.addr, + PHY_INDEX_REG, register18 | 0x8402); + et131x_mii_write(adapter, phydev->mdio.addr, + PHY_DATA_REG, register18 | 511); + et131x_mii_write(adapter, phydev->mdio.addr, + PHY_MPHY_CONTROL_REG, register18); + } + + et1310_config_flow_control(adapter); + + if (phydev->speed == SPEED_1000 && + adapter->registry_jumbo_packet > 2048) { + u16 reg; + + et131x_mii_read(adapter, PHY_CONFIG, ®); + reg &= ~ET_PHY_CONFIG_TX_FIFO_DEPTH; + reg |= ET_PHY_CONFIG_FIFO_DEPTH_32; + et131x_mii_write(adapter, phydev->mdio.addr, + PHY_CONFIG, reg); + } + + et131x_set_rx_dma_timer(adapter); + et1310_config_mac_regs2(adapter); + } else { + adapter->boot_coma = 0; + + if (phydev->speed == SPEED_10) { + u16 register18; + + et131x_mii_read(adapter, PHY_MPHY_CONTROL_REG, + ®ister18); + et131x_mii_write(adapter, phydev->mdio.addr, + PHY_MPHY_CONTROL_REG, + register18 | 0x4); + et131x_mii_write(adapter, phydev->mdio.addr, + PHY_INDEX_REG, register18 | 0x8402); + et131x_mii_write(adapter, phydev->mdio.addr, + PHY_DATA_REG, register18 | 511); + et131x_mii_write(adapter, phydev->mdio.addr, + PHY_MPHY_CONTROL_REG, register18); + } + + et131x_free_busy_send_packets(adapter); + et131x_init_send(adapter); + + /* Bring the device back to the state it was during + * init prior to autonegotiation being complete. This + * way, when we get the auto-neg complete interrupt, + * we can complete init by calling config_mac_regs2. + */ + et131x_soft_reset(adapter); + + et131x_adapter_setup(adapter); + + et131x_disable_txrx(netdev); + et131x_enable_txrx(netdev); + } +} + +static int et131x_mii_probe(struct net_device *netdev) +{ + struct et131x_adapter *adapter = netdev_priv(netdev); + struct phy_device *phydev = NULL; + + phydev = phy_find_first(adapter->mii_bus); + if (!phydev) { + dev_err(&adapter->pdev->dev, "no PHY found\n"); + return -ENODEV; + } + + phydev = phy_connect(netdev, phydev_name(phydev), + &et131x_adjust_link, PHY_INTERFACE_MODE_MII); + + if (IS_ERR(phydev)) { + dev_err(&adapter->pdev->dev, "Could not attach to PHY\n"); + return PTR_ERR(phydev); + } + + phy_set_max_speed(phydev, SPEED_100); + + if (adapter->pdev->device != ET131X_PCI_DEVICE_ID_FAST) + phy_set_max_speed(phydev, SPEED_1000); + + phydev->autoneg = AUTONEG_ENABLE; + + phy_attached_info(phydev); + + return 0; +} + +static struct et131x_adapter *et131x_adapter_init(struct net_device *netdev, + struct pci_dev *pdev) +{ + static const u8 default_mac[] = { 0x00, 0x05, 0x3d, 0x00, 0x02, 0x00 }; + + struct et131x_adapter *adapter; + + adapter = netdev_priv(netdev); + adapter->pdev = pci_dev_get(pdev); + adapter->netdev = netdev; + + spin_lock_init(&adapter->tcb_send_qlock); + spin_lock_init(&adapter->tcb_ready_qlock); + spin_lock_init(&adapter->rcv_lock); + + adapter->registry_jumbo_packet = 1514; /* 1514-9216 */ + + ether_addr_copy(adapter->addr, default_mac); + + return adapter; +} + +static void et131x_pci_remove(struct pci_dev *pdev) +{ + struct net_device *netdev = pci_get_drvdata(pdev); + struct et131x_adapter *adapter = netdev_priv(netdev); + + unregister_netdev(netdev); + netif_napi_del(&adapter->napi); + phy_disconnect(netdev->phydev); + mdiobus_unregister(adapter->mii_bus); + mdiobus_free(adapter->mii_bus); + + et131x_adapter_memory_free(adapter); + iounmap(adapter->regs); + pci_dev_put(pdev); + + free_netdev(netdev); + pci_release_regions(pdev); + pci_disable_device(pdev); +} + +static void et131x_up(struct net_device *netdev) +{ + et131x_enable_txrx(netdev); + phy_start(netdev->phydev); +} + +static void et131x_down(struct net_device *netdev) +{ + /* Save the timestamp for the TX watchdog, prevent a timeout */ + netif_trans_update(netdev); + + phy_stop(netdev->phydev); + et131x_disable_txrx(netdev); +} + +#ifdef CONFIG_PM_SLEEP +static int et131x_suspend(struct device *dev) +{ + struct pci_dev *pdev = to_pci_dev(dev); + struct net_device *netdev = pci_get_drvdata(pdev); + + if (netif_running(netdev)) { + netif_device_detach(netdev); + et131x_down(netdev); + pci_save_state(pdev); + } + + return 0; +} + +static int et131x_resume(struct device *dev) +{ + struct pci_dev *pdev = to_pci_dev(dev); + struct net_device *netdev = pci_get_drvdata(pdev); + + if (netif_running(netdev)) { + pci_restore_state(pdev); + et131x_up(netdev); + netif_device_attach(netdev); + } + + return 0; +} +#endif + +static SIMPLE_DEV_PM_OPS(et131x_pm_ops, et131x_suspend, et131x_resume); + +static irqreturn_t et131x_isr(int irq, void *dev_id) +{ + bool handled = true; + bool enable_interrupts = true; + struct net_device *netdev = dev_id; + struct et131x_adapter *adapter = netdev_priv(netdev); + struct address_map __iomem *iomem = adapter->regs; + struct rx_ring *rx_ring = &adapter->rx_ring; + struct tx_ring *tx_ring = &adapter->tx_ring; + u32 status; + + if (!netif_device_present(netdev)) { + handled = false; + enable_interrupts = false; + goto out; + } + + et131x_disable_interrupts(adapter); + + status = readl(&adapter->regs->global.int_status); + + if (adapter->flow == FLOW_TXONLY || adapter->flow == FLOW_BOTH) + status &= ~INT_MASK_ENABLE; + else + status &= ~INT_MASK_ENABLE_NO_FLOW; + + /* Make sure this is our interrupt */ + if (!status) { + handled = false; + et131x_enable_interrupts(adapter); + goto out; + } + + /* This is our interrupt, so process accordingly */ + if (status & ET_INTR_WATCHDOG) { + struct tcb *tcb = tx_ring->send_head; + + if (tcb) + if (++tcb->stale > 1) + status |= ET_INTR_TXDMA_ISR; + + if (rx_ring->unfinished_receives) + status |= ET_INTR_RXDMA_XFR_DONE; + else if (tcb == NULL) + writel(0, &adapter->regs->global.watchdog_timer); + + status &= ~ET_INTR_WATCHDOG; + } + + if (status & (ET_INTR_RXDMA_XFR_DONE | ET_INTR_TXDMA_ISR)) { + enable_interrupts = false; + napi_schedule(&adapter->napi); + } + + status &= ~(ET_INTR_TXDMA_ISR | ET_INTR_RXDMA_XFR_DONE); + + if (!status) + goto out; + + if (status & ET_INTR_TXDMA_ERR) { + /* Following read also clears the register (COR) */ + u32 txdma_err = readl(&iomem->txdma.tx_dma_error); + + dev_warn(&adapter->pdev->dev, + "TXDMA_ERR interrupt, error = %d\n", + txdma_err); + } + + if (status & (ET_INTR_RXDMA_FB_R0_LOW | ET_INTR_RXDMA_FB_R1_LOW)) { + /* This indicates the number of unused buffers in RXDMA free + * buffer ring 0 is <= the limit you programmed. Free buffer + * resources need to be returned. Free buffers are consumed as + * packets are passed from the network to the host. The host + * becomes aware of the packets from the contents of the packet + * status ring. This ring is queried when the packet done + * interrupt occurs. Packets are then passed to the OS. When + * the OS is done with the packets the resources can be + * returned to the ET1310 for re-use. This interrupt is one + * method of returning resources. + */ + + /* If the user has flow control on, then we will + * send a pause packet, otherwise just exit + */ + if (adapter->flow == FLOW_TXONLY || adapter->flow == FLOW_BOTH) { + /* Tell the device to send a pause packet via the back + * pressure register (bp req and bp xon/xoff) + */ + if (!et1310_in_phy_coma(adapter)) + writel(3, &iomem->txmac.bp_ctrl); + } + } + + /* Handle Packet Status Ring Low Interrupt */ + if (status & ET_INTR_RXDMA_STAT_LOW) { + /* Same idea as with the two Free Buffer Rings. Packets going + * from the network to the host each consume a free buffer + * resource and a packet status resource. These resources are + * passed to the OS. When the OS is done with the resources, + * they need to be returned to the ET1310. This is one method + * of returning the resources. + */ + } + + if (status & ET_INTR_RXDMA_ERR) { + /* The rxdma_error interrupt is sent when a time-out on a + * request issued by the JAGCore has occurred or a completion is + * returned with an un-successful status. In both cases the + * request is considered complete. The JAGCore will + * automatically re-try the request in question. Normally + * information on events like these are sent to the host using + * the "Advanced Error Reporting" capability. This interrupt is + * another way of getting similar information. The only thing + * required is to clear the interrupt by reading the ISR in the + * global resources. The JAGCore will do a re-try on the + * request. Normally you should never see this interrupt. If + * you start to see this interrupt occurring frequently then + * something bad has occurred. A reset might be the thing to do. + */ + /* TRAP();*/ + + dev_warn(&adapter->pdev->dev, "RxDMA_ERR interrupt, error %x\n", + readl(&iomem->txmac.tx_test)); + } + + /* Handle the Wake on LAN Event */ + if (status & ET_INTR_WOL) { + /* This is a secondary interrupt for wake on LAN. The driver + * should never see this, if it does, something serious is + * wrong. + */ + dev_err(&adapter->pdev->dev, "WAKE_ON_LAN interrupt\n"); + } + + if (status & ET_INTR_TXMAC) { + u32 err = readl(&iomem->txmac.err); + + /* When any of the errors occur and TXMAC generates an + * interrupt to report these errors, it usually means that + * TXMAC has detected an error in the data stream retrieved + * from the on-chip Tx Q. All of these errors are catastrophic + * and TXMAC won't be able to recover data when these errors + * occur. In a nutshell, the whole Tx path will have to be reset + * and re-configured afterwards. + */ + dev_warn(&adapter->pdev->dev, "TXMAC interrupt, error 0x%08x\n", + err); + + /* If we are debugging, we want to see this error, otherwise we + * just want the device to be reset and continue + */ + } + + if (status & ET_INTR_RXMAC) { + /* These interrupts are catastrophic to the device, what we need + * to do is disable the interrupts and set the flag to cause us + * to reset so we can solve this issue. + */ + dev_warn(&adapter->pdev->dev, + "RXMAC interrupt, error 0x%08x. Requesting reset\n", + readl(&iomem->rxmac.err_reg)); + + dev_warn(&adapter->pdev->dev, + "Enable 0x%08x, Diag 0x%08x\n", + readl(&iomem->rxmac.ctrl), + readl(&iomem->rxmac.rxq_diag)); + + /* If we are debugging, we want to see this error, otherwise we + * just want the device to be reset and continue + */ + } + + if (status & ET_INTR_MAC_STAT) { + /* This means at least one of the un-masked counters in the + * MAC_STAT block has rolled over. Use this to maintain the top, + * software managed bits of the counter(s). + */ + et1310_handle_macstat_interrupt(adapter); + } + + if (status & ET_INTR_SLV_TIMEOUT) { + /* This means a timeout has occurred on a read or write request + * to one of the JAGCore registers. The Global Resources block + * has terminated the request and on a read request, returned a + * "fake" value. The most likely reasons are: Bad Address or the + * addressed module is in a power-down state and can't respond. + */ + } + +out: + if (enable_interrupts) + et131x_enable_interrupts(adapter); + + return IRQ_RETVAL(handled); +} + +static int et131x_poll(struct napi_struct *napi, int budget) +{ + struct et131x_adapter *adapter = + container_of(napi, struct et131x_adapter, napi); + int work_done = et131x_handle_recv_pkts(adapter, budget); + + et131x_handle_send_pkts(adapter); + + if (work_done < budget) { + napi_complete_done(&adapter->napi, work_done); + et131x_enable_interrupts(adapter); + } + + return work_done; +} + +/* et131x_stats - Return the current device statistics */ +static struct net_device_stats *et131x_stats(struct net_device *netdev) +{ + struct et131x_adapter *adapter = netdev_priv(netdev); + struct net_device_stats *stats = &adapter->netdev->stats; + struct ce_stats *devstat = &adapter->stats; + + stats->rx_errors = devstat->rx_length_errs + + devstat->rx_align_errs + + devstat->rx_crc_errs + + devstat->rx_code_violations + + devstat->rx_other_errs; + stats->tx_errors = devstat->tx_max_pkt_errs; + stats->multicast = devstat->multicast_pkts_rcvd; + stats->collisions = devstat->tx_collisions; + + stats->rx_length_errors = devstat->rx_length_errs; + stats->rx_over_errors = devstat->rx_overflows; + stats->rx_crc_errors = devstat->rx_crc_errs; + stats->rx_dropped = devstat->rcvd_pkts_dropped; + + /* NOTE: Not used, can't find analogous statistics */ + /* stats->rx_frame_errors = devstat->; */ + /* stats->rx_fifo_errors = devstat->; */ + /* stats->rx_missed_errors = devstat->; */ + + /* stats->tx_aborted_errors = devstat->; */ + /* stats->tx_carrier_errors = devstat->; */ + /* stats->tx_fifo_errors = devstat->; */ + /* stats->tx_heartbeat_errors = devstat->; */ + /* stats->tx_window_errors = devstat->; */ + return stats; +} + +static int et131x_open(struct net_device *netdev) +{ + struct et131x_adapter *adapter = netdev_priv(netdev); + struct pci_dev *pdev = adapter->pdev; + unsigned int irq = pdev->irq; + int result; + + /* Start the timer to track NIC errors */ + timer_setup(&adapter->error_timer, et131x_error_timer_handler, 0); + adapter->error_timer.expires = jiffies + + msecs_to_jiffies(TX_ERROR_PERIOD); + add_timer(&adapter->error_timer); + + result = request_irq(irq, et131x_isr, + IRQF_SHARED, netdev->name, netdev); + if (result) { + dev_err(&pdev->dev, "could not register IRQ %d\n", irq); + return result; + } + + adapter->flags |= FMP_ADAPTER_INTERRUPT_IN_USE; + + napi_enable(&adapter->napi); + + et131x_up(netdev); + + return result; +} + +static int et131x_close(struct net_device *netdev) +{ + struct et131x_adapter *adapter = netdev_priv(netdev); + + et131x_down(netdev); + napi_disable(&adapter->napi); + + adapter->flags &= ~FMP_ADAPTER_INTERRUPT_IN_USE; + free_irq(adapter->pdev->irq, netdev); + + /* Stop the error timer */ + return del_timer_sync(&adapter->error_timer); +} + +/* et131x_set_packet_filter - Configures the Rx Packet filtering */ +static int et131x_set_packet_filter(struct et131x_adapter *adapter) +{ + int filter = adapter->packet_filter; + u32 ctrl; + u32 pf_ctrl; + + ctrl = readl(&adapter->regs->rxmac.ctrl); + pf_ctrl = readl(&adapter->regs->rxmac.pf_ctrl); + + /* Default to disabled packet filtering */ + ctrl |= 0x04; + + /* Set us to be in promiscuous mode so we receive everything, this + * is also true when we get a packet filter of 0 + */ + if ((filter & ET131X_PACKET_TYPE_PROMISCUOUS) || filter == 0) + pf_ctrl &= ~7; /* Clear filter bits */ + else { + /* Set us up with Multicast packet filtering. Three cases are + * possible - (1) we have a multi-cast list, (2) we receive ALL + * multicast entries or (3) we receive none. + */ + if (filter & ET131X_PACKET_TYPE_ALL_MULTICAST) + pf_ctrl &= ~2; /* Multicast filter bit */ + else { + et1310_setup_device_for_multicast(adapter); + pf_ctrl |= 2; + ctrl &= ~0x04; + } + + /* Set us up with Unicast packet filtering */ + if (filter & ET131X_PACKET_TYPE_DIRECTED) { + et1310_setup_device_for_unicast(adapter); + pf_ctrl |= 4; + ctrl &= ~0x04; + } + + /* Set us up with Broadcast packet filtering */ + if (filter & ET131X_PACKET_TYPE_BROADCAST) { + pf_ctrl |= 1; /* Broadcast filter bit */ + ctrl &= ~0x04; + } else { + pf_ctrl &= ~1; + } + + /* Setup the receive mac configuration registers - Packet + * Filter control + the enable / disable for packet filter + * in the control reg. + */ + writel(pf_ctrl, &adapter->regs->rxmac.pf_ctrl); + writel(ctrl, &adapter->regs->rxmac.ctrl); + } + return 0; +} + +static void et131x_multicast(struct net_device *netdev) +{ + struct et131x_adapter *adapter = netdev_priv(netdev); + int packet_filter; + struct netdev_hw_addr *ha; + int i; + + /* Before we modify the platform-independent filter flags, store them + * locally. This allows us to determine if anything's changed and if + * we even need to bother the hardware + */ + packet_filter = adapter->packet_filter; + + /* Clear the 'multicast' flag locally; because we only have a single + * flag to check multicast, and multiple multicast addresses can be + * set, this is the easiest way to determine if more than one + * multicast address is being set. + */ + packet_filter &= ~ET131X_PACKET_TYPE_MULTICAST; + + /* Check the net_device flags and set the device independent flags + * accordingly + */ + if (netdev->flags & IFF_PROMISC) + adapter->packet_filter |= ET131X_PACKET_TYPE_PROMISCUOUS; + else + adapter->packet_filter &= ~ET131X_PACKET_TYPE_PROMISCUOUS; + + if ((netdev->flags & IFF_ALLMULTI) || + (netdev_mc_count(netdev) > NIC_MAX_MCAST_LIST)) + adapter->packet_filter |= ET131X_PACKET_TYPE_ALL_MULTICAST; + + if (netdev_mc_count(netdev) < 1) { + adapter->packet_filter &= ~ET131X_PACKET_TYPE_ALL_MULTICAST; + adapter->packet_filter &= ~ET131X_PACKET_TYPE_MULTICAST; + } else { + adapter->packet_filter |= ET131X_PACKET_TYPE_MULTICAST; + } + + /* Set values in the private adapter struct */ + i = 0; + netdev_for_each_mc_addr(ha, netdev) { + if (i == NIC_MAX_MCAST_LIST) + break; + ether_addr_copy(adapter->multicast_list[i++], ha->addr); + } + adapter->multicast_addr_count = i; + + /* Are the new flags different from the previous ones? If not, then no + * action is required + * + * NOTE - This block will always update the multicast_list with the + * hardware, even if the addresses aren't the same. + */ + if (packet_filter != adapter->packet_filter) + et131x_set_packet_filter(adapter); +} + +static netdev_tx_t et131x_tx(struct sk_buff *skb, struct net_device *netdev) +{ + struct et131x_adapter *adapter = netdev_priv(netdev); + struct tx_ring *tx_ring = &adapter->tx_ring; + + /* This driver does not support TSO, it is very unlikely + * this condition is true. + */ + if (unlikely(skb_shinfo(skb)->nr_frags > MAX_TX_DESC_PER_PKT - 2)) { + if (skb_linearize(skb)) + goto drop_err; + } + /* stop the queue if it's getting full */ + if (tx_ring->used >= NUM_TCB - 1 && !netif_queue_stopped(netdev)) + netif_stop_queue(netdev); + + /* Save the timestamp for the TX timeout watchdog */ + netif_trans_update(netdev); + + /* TCB is not available */ + if (tx_ring->used >= NUM_TCB) + goto drop_err; + + if ((adapter->flags & FMP_ADAPTER_FAIL_SEND_MASK) || + !netif_carrier_ok(netdev)) + goto drop_err; + + if (send_packet(skb, adapter)) + goto drop_err; + + return NETDEV_TX_OK; + +drop_err: + dev_kfree_skb_any(skb); + adapter->netdev->stats.tx_dropped++; + return NETDEV_TX_OK; +} + +/* et131x_tx_timeout - Timeout handler + * + * The handler called when a Tx request times out. The timeout period is + * specified by the 'tx_timeo" element in the net_device structure (see + * et131x_alloc_device() to see how this value is set). + */ +static void et131x_tx_timeout(struct net_device *netdev, unsigned int txqueue) +{ + struct et131x_adapter *adapter = netdev_priv(netdev); + struct tx_ring *tx_ring = &adapter->tx_ring; + struct tcb *tcb; + unsigned long flags; + + /* If the device is closed, ignore the timeout */ + if (!(adapter->flags & FMP_ADAPTER_INTERRUPT_IN_USE)) + return; + + /* Any nonrecoverable hardware error? + * Checks adapter->flags for any failure in phy reading + */ + if (adapter->flags & FMP_ADAPTER_NON_RECOVER_ERROR) + return; + + /* Hardware failure? */ + if (adapter->flags & FMP_ADAPTER_HARDWARE_ERROR) { + dev_err(&adapter->pdev->dev, "hardware error - reset\n"); + return; + } + + /* Is send stuck? */ + spin_lock_irqsave(&adapter->tcb_send_qlock, flags); + tcb = tx_ring->send_head; + spin_unlock_irqrestore(&adapter->tcb_send_qlock, flags); + + if (tcb) { + tcb->count++; + + if (tcb->count > NIC_SEND_HANG_THRESHOLD) { + dev_warn(&adapter->pdev->dev, + "Send stuck - reset. tcb->WrIndex %x\n", + tcb->index); + + adapter->netdev->stats.tx_errors++; + + /* perform reset of tx/rx */ + et131x_disable_txrx(netdev); + et131x_enable_txrx(netdev); + } + } +} + +static int et131x_change_mtu(struct net_device *netdev, int new_mtu) +{ + int result = 0; + struct et131x_adapter *adapter = netdev_priv(netdev); + + et131x_disable_txrx(netdev); + + netdev->mtu = new_mtu; + + et131x_adapter_memory_free(adapter); + + /* Set the config parameter for Jumbo Packet support */ + adapter->registry_jumbo_packet = new_mtu + 14; + et131x_soft_reset(adapter); + + result = et131x_adapter_memory_alloc(adapter); + if (result != 0) { + dev_warn(&adapter->pdev->dev, + "Change MTU failed; couldn't re-alloc DMA memory\n"); + return result; + } + + et131x_init_send(adapter); + et131x_hwaddr_init(adapter); + eth_hw_addr_set(netdev, adapter->addr); + + /* Init the device with the new settings */ + et131x_adapter_setup(adapter); + et131x_enable_txrx(netdev); + + return result; +} + +static const struct net_device_ops et131x_netdev_ops = { + .ndo_open = et131x_open, + .ndo_stop = et131x_close, + .ndo_start_xmit = et131x_tx, + .ndo_set_rx_mode = et131x_multicast, + .ndo_tx_timeout = et131x_tx_timeout, + .ndo_change_mtu = et131x_change_mtu, + .ndo_set_mac_address = eth_mac_addr, + .ndo_validate_addr = eth_validate_addr, + .ndo_get_stats = et131x_stats, + .ndo_eth_ioctl = phy_do_ioctl, +}; + +static int et131x_pci_setup(struct pci_dev *pdev, + const struct pci_device_id *ent) +{ + struct net_device *netdev; + struct et131x_adapter *adapter; + int rc; + + rc = pci_enable_device(pdev); + if (rc < 0) { + dev_err(&pdev->dev, "pci_enable_device() failed\n"); + goto out; + } + + /* Perform some basic PCI checks */ + if (!(pci_resource_flags(pdev, 0) & IORESOURCE_MEM)) { + dev_err(&pdev->dev, "Can't find PCI device's base address\n"); + rc = -ENODEV; + goto err_disable; + } + + rc = pci_request_regions(pdev, DRIVER_NAME); + if (rc < 0) { + dev_err(&pdev->dev, "Can't get PCI resources\n"); + goto err_disable; + } + + pci_set_master(pdev); + + /* Check the DMA addressing support of this device */ + rc = dma_set_mask_and_coherent(&pdev->dev, DMA_BIT_MASK(64)); + if (rc) { + dev_err(&pdev->dev, "No usable DMA addressing method\n"); + goto err_release_res; + } + + netdev = alloc_etherdev(sizeof(struct et131x_adapter)); + if (!netdev) { + dev_err(&pdev->dev, "Couldn't alloc netdev struct\n"); + rc = -ENOMEM; + goto err_release_res; + } + + netdev->watchdog_timeo = ET131X_TX_TIMEOUT; + netdev->netdev_ops = &et131x_netdev_ops; + netdev->min_mtu = ET131X_MIN_MTU; + netdev->max_mtu = ET131X_MAX_MTU; + + SET_NETDEV_DEV(netdev, &pdev->dev); + netdev->ethtool_ops = &et131x_ethtool_ops; + + adapter = et131x_adapter_init(netdev, pdev); + + rc = et131x_pci_init(adapter, pdev); + if (rc < 0) + goto err_free_dev; + + /* Map the bus-relative registers to system virtual memory */ + adapter->regs = pci_ioremap_bar(pdev, 0); + if (!adapter->regs) { + dev_err(&pdev->dev, "Cannot map device registers\n"); + rc = -ENOMEM; + goto err_free_dev; + } + + /* If Phy COMA mode was enabled when we went down, disable it here. */ + writel(ET_PMCSR_INIT, &adapter->regs->global.pm_csr); + + et131x_soft_reset(adapter); + et131x_disable_interrupts(adapter); + + rc = et131x_adapter_memory_alloc(adapter); + if (rc < 0) { + dev_err(&pdev->dev, "Could not alloc adapter memory (DMA)\n"); + goto err_iounmap; + } + + et131x_init_send(adapter); + + netif_napi_add(netdev, &adapter->napi, et131x_poll); + + eth_hw_addr_set(netdev, adapter->addr); + + rc = -ENOMEM; + + adapter->mii_bus = mdiobus_alloc(); + if (!adapter->mii_bus) { + dev_err(&pdev->dev, "Alloc of mii_bus struct failed\n"); + goto err_mem_free; + } + + adapter->mii_bus->name = "et131x_eth_mii"; + snprintf(adapter->mii_bus->id, MII_BUS_ID_SIZE, "%x", pci_dev_id(adapter->pdev)); + adapter->mii_bus->priv = netdev; + adapter->mii_bus->read = et131x_mdio_read; + adapter->mii_bus->write = et131x_mdio_write; + + rc = mdiobus_register(adapter->mii_bus); + if (rc < 0) { + dev_err(&pdev->dev, "failed to register MII bus\n"); + goto err_mdio_free; + } + + rc = et131x_mii_probe(netdev); + if (rc < 0) { + dev_err(&pdev->dev, "failed to probe MII bus\n"); + goto err_mdio_unregister; + } + + et131x_adapter_setup(adapter); + + /* Init variable for counting how long we do not have link status */ + adapter->boot_coma = 0; + et1310_disable_phy_coma(adapter); + + /* We can enable interrupts now + * + * NOTE - Because registration of interrupt handler is done in the + * device's open(), defer enabling device interrupts to that + * point + */ + + rc = register_netdev(netdev); + if (rc < 0) { + dev_err(&pdev->dev, "register_netdev() failed\n"); + goto err_phy_disconnect; + } + + /* Register the net_device struct with the PCI subsystem. Save a copy + * of the PCI config space for this device now that the device has + * been initialized, just in case it needs to be quickly restored. + */ + pci_set_drvdata(pdev, netdev); +out: + return rc; + +err_phy_disconnect: + phy_disconnect(netdev->phydev); +err_mdio_unregister: + mdiobus_unregister(adapter->mii_bus); +err_mdio_free: + mdiobus_free(adapter->mii_bus); +err_mem_free: + et131x_adapter_memory_free(adapter); +err_iounmap: + iounmap(adapter->regs); +err_free_dev: + pci_dev_put(pdev); + free_netdev(netdev); +err_release_res: + pci_release_regions(pdev); +err_disable: + pci_disable_device(pdev); + goto out; +} + +static const struct pci_device_id et131x_pci_table[] = { + { PCI_VDEVICE(ATT, ET131X_PCI_DEVICE_ID_GIG), 0UL}, + { PCI_VDEVICE(ATT, ET131X_PCI_DEVICE_ID_FAST), 0UL}, + { 0,} +}; +MODULE_DEVICE_TABLE(pci, et131x_pci_table); + +static struct pci_driver et131x_driver = { + .name = DRIVER_NAME, + .id_table = et131x_pci_table, + .probe = et131x_pci_setup, + .remove = et131x_pci_remove, + .driver.pm = &et131x_pm_ops, +}; + +module_pci_driver(et131x_driver); |