freebsd-dev/sys/dev/e1000/if_em.h
Marcel Moolenaar 9e11529015 Convert em(4) to use the driver API.
Submitted by:   Anuranjan Shukla <anshukla@juniper.net>
Obtained from:  Juniper Networks, Inc.
2014-06-02 18:52:03 +00:00

505 lines
16 KiB
C

/******************************************************************************
Copyright (c) 2001-2011, Intel Corporation
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AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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******************************************************************************/
/*$FreeBSD$*/
#ifndef _EM_H_DEFINED_
#define _EM_H_DEFINED_
/* Tunables */
/*
* EM_TXD: Maximum number of Transmit Descriptors
* Valid Range: 80-256 for 82542 and 82543-based adapters
* 80-4096 for others
* Default Value: 256
* This value is the number of transmit descriptors allocated by the driver.
* Increasing this value allows the driver to queue more transmits. Each
* descriptor is 16 bytes.
* Since TDLEN should be multiple of 128bytes, the number of transmit
* desscriptors should meet the following condition.
* (num_tx_desc * sizeof(struct e1000_tx_desc)) % 128 == 0
*/
#define EM_MIN_TXD 80
#define EM_MAX_TXD 4096
#define EM_DEFAULT_TXD 1024
/*
* EM_RXD - Maximum number of receive Descriptors
* Valid Range: 80-256 for 82542 and 82543-based adapters
* 80-4096 for others
* Default Value: 256
* This value is the number of receive descriptors allocated by the driver.
* Increasing this value allows the driver to buffer more incoming packets.
* Each descriptor is 16 bytes. A receive buffer is also allocated for each
* descriptor. The maximum MTU size is 16110.
* Since TDLEN should be multiple of 128bytes, the number of transmit
* desscriptors should meet the following condition.
* (num_tx_desc * sizeof(struct e1000_tx_desc)) % 128 == 0
*/
#define EM_MIN_RXD 80
#define EM_MAX_RXD 4096
#define EM_DEFAULT_RXD 1024
/*
* EM_TIDV - Transmit Interrupt Delay Value
* Valid Range: 0-65535 (0=off)
* Default Value: 64
* This value delays the generation of transmit interrupts in units of
* 1.024 microseconds. Transmit interrupt reduction can improve CPU
* efficiency if properly tuned for specific network traffic. If the
* system is reporting dropped transmits, this value may be set too high
* causing the driver to run out of available transmit descriptors.
*/
#define EM_TIDV 64
/*
* EM_TADV - Transmit Absolute Interrupt Delay Value
* (Not valid for 82542/82543/82544)
* Valid Range: 0-65535 (0=off)
* Default Value: 64
* This value, in units of 1.024 microseconds, limits the delay in which a
* transmit interrupt is generated. Useful only if EM_TIDV is non-zero,
* this value ensures that an interrupt is generated after the initial
* packet is sent on the wire within the set amount of time. Proper tuning,
* along with EM_TIDV, may improve traffic throughput in specific
* network conditions.
*/
#define EM_TADV 64
/*
* EM_RDTR - Receive Interrupt Delay Timer (Packet Timer)
* Valid Range: 0-65535 (0=off)
* Default Value: 0
* This value delays the generation of receive interrupts in units of 1.024
* microseconds. Receive interrupt reduction can improve CPU efficiency if
* properly tuned for specific network traffic. Increasing this value adds
* extra latency to frame reception and can end up decreasing the throughput
* of TCP traffic. If the system is reporting dropped receives, this value
* may be set too high, causing the driver to run out of available receive
* descriptors.
*
* CAUTION: When setting EM_RDTR to a value other than 0, adapters
* may hang (stop transmitting) under certain network conditions.
* If this occurs a WATCHDOG message is logged in the system
* event log. In addition, the controller is automatically reset,
* restoring the network connection. To eliminate the potential
* for the hang ensure that EM_RDTR is set to 0.
*/
#define EM_RDTR 0
/*
* Receive Interrupt Absolute Delay Timer (Not valid for 82542/82543/82544)
* Valid Range: 0-65535 (0=off)
* Default Value: 64
* This value, in units of 1.024 microseconds, limits the delay in which a
* receive interrupt is generated. Useful only if EM_RDTR is non-zero,
* this value ensures that an interrupt is generated after the initial
* packet is received within the set amount of time. Proper tuning,
* along with EM_RDTR, may improve traffic throughput in specific network
* conditions.
*/
#define EM_RADV 64
/*
* This parameter controls the max duration of transmit watchdog.
*/
#define EM_WATCHDOG (10 * hz)
/*
* This parameter controls when the driver calls the routine to reclaim
* transmit descriptors.
*/
#define EM_TX_CLEANUP_THRESHOLD (adapter->num_tx_desc / 8)
/*
* This parameter controls whether or not autonegotation is enabled.
* 0 - Disable autonegotiation
* 1 - Enable autonegotiation
*/
#define DO_AUTO_NEG 1
/*
* This parameter control whether or not the driver will wait for
* autonegotiation to complete.
* 1 - Wait for autonegotiation to complete
* 0 - Don't wait for autonegotiation to complete
*/
#define WAIT_FOR_AUTO_NEG_DEFAULT 0
/* Tunables -- End */
#define AUTONEG_ADV_DEFAULT (ADVERTISE_10_HALF | ADVERTISE_10_FULL | \
ADVERTISE_100_HALF | ADVERTISE_100_FULL | \
ADVERTISE_1000_FULL)
#define AUTO_ALL_MODES 0
/* PHY master/slave setting */
#define EM_MASTER_SLAVE e1000_ms_hw_default
/*
* Micellaneous constants
*/
#define EM_VENDOR_ID 0x8086
#define EM_FLASH 0x0014
#define EM_JUMBO_PBA 0x00000028
#define EM_DEFAULT_PBA 0x00000030
#define EM_SMARTSPEED_DOWNSHIFT 3
#define EM_SMARTSPEED_MAX 15
#define EM_MAX_LOOP 10
#define MAX_NUM_MULTICAST_ADDRESSES 128
#define PCI_ANY_ID (~0U)
#define ETHER_ALIGN 2
#define EM_FC_PAUSE_TIME 0x0680
#define EM_EEPROM_APME 0x400;
#define EM_82544_APME 0x0004;
#define EM_QUEUE_IDLE 0
#define EM_QUEUE_WORKING 1
#define EM_QUEUE_HUNG 2
/*
* TDBA/RDBA should be aligned on 16 byte boundary. But TDLEN/RDLEN should be
* multiple of 128 bytes. So we align TDBA/RDBA on 128 byte boundary. This will
* also optimize cache line size effect. H/W supports up to cache line size 128.
*/
#define EM_DBA_ALIGN 128
#define SPEED_MODE_BIT (1<<21) /* On PCI-E MACs only */
/* PCI Config defines */
#define EM_BAR_TYPE(v) ((v) & EM_BAR_TYPE_MASK)
#define EM_BAR_TYPE_MASK 0x00000001
#define EM_BAR_TYPE_MMEM 0x00000000
#define EM_BAR_TYPE_FLASH 0x0014
#define EM_BAR_MEM_TYPE(v) ((v) & EM_BAR_MEM_TYPE_MASK)
#define EM_BAR_MEM_TYPE_MASK 0x00000006
#define EM_BAR_MEM_TYPE_32BIT 0x00000000
#define EM_BAR_MEM_TYPE_64BIT 0x00000004
#define EM_MSIX_BAR 3 /* On 82575 */
/* More backward compatibility */
#if __FreeBSD_version < 900000
#define SYSCTL_ADD_UQUAD SYSCTL_ADD_QUAD
#endif
/* Defines for printing debug information */
#define DEBUG_INIT 0
#define DEBUG_IOCTL 0
#define DEBUG_HW 0
#define INIT_DEBUGOUT(S) if (DEBUG_INIT) printf(S "\n")
#define INIT_DEBUGOUT1(S, A) if (DEBUG_INIT) printf(S "\n", A)
#define INIT_DEBUGOUT2(S, A, B) if (DEBUG_INIT) printf(S "\n", A, B)
#define IOCTL_DEBUGOUT(S) if (DEBUG_IOCTL) printf(S "\n")
#define IOCTL_DEBUGOUT1(S, A) if (DEBUG_IOCTL) printf(S "\n", A)
#define IOCTL_DEBUGOUT2(S, A, B) if (DEBUG_IOCTL) printf(S "\n", A, B)
#define HW_DEBUGOUT(S) if (DEBUG_HW) printf(S "\n")
#define HW_DEBUGOUT1(S, A) if (DEBUG_HW) printf(S "\n", A)
#define HW_DEBUGOUT2(S, A, B) if (DEBUG_HW) printf(S "\n", A, B)
#define EM_MAX_SCATTER 32
#define EM_VFTA_SIZE 128
#define EM_TSO_SIZE (65535 + sizeof(struct ether_vlan_header))
#define EM_TSO_SEG_SIZE 4096 /* Max dma segment size */
#define EM_MSIX_MASK 0x01F00000 /* For 82574 use */
#define EM_MSIX_LINK 0x01000000 /* For 82574 use */
#define ETH_ZLEN 60
#define ETH_ADDR_LEN 6
#define CSUM_OFFLOAD 7 /* Offload bits in mbuf flag */
/*
* 82574 has a nonstandard address for EIAC
* and since its only used in MSIX, and in
* the em driver only 82574 uses MSIX we can
* solve it just using this define.
*/
#define EM_EIAC 0x000DC
/*
* Bus dma allocation structure used by
* e1000_dma_malloc and e1000_dma_free.
*/
struct em_dma_alloc {
bus_addr_t dma_paddr;
caddr_t dma_vaddr;
bus_dma_tag_t dma_tag;
bus_dmamap_t dma_map;
bus_dma_segment_t dma_seg;
int dma_nseg;
};
struct adapter;
struct em_int_delay_info {
struct adapter *adapter; /* Back-pointer to the adapter struct */
int offset; /* Register offset to read/write */
int value; /* Current value in usecs */
};
/*
* The transmit ring, one per tx queue
*/
struct tx_ring {
struct adapter *adapter;
struct mtx tx_mtx;
char mtx_name[16];
u32 me;
u32 msix;
u32 ims;
int queue_status;
int watchdog_time;
struct em_dma_alloc txdma;
struct e1000_tx_desc *tx_base;
struct task tx_task;
struct taskqueue *tq;
u32 next_avail_desc;
u32 next_to_clean;
struct em_buffer *tx_buffers;
volatile u16 tx_avail;
u32 tx_tso; /* last tx was tso */
u16 last_hw_offload;
u8 last_hw_ipcso;
u8 last_hw_ipcss;
u8 last_hw_tucso;
u8 last_hw_tucss;
#if __FreeBSD_version >= 800000
struct buf_ring *br;
#endif
/* Interrupt resources */
bus_dma_tag_t txtag;
void *tag;
struct resource *res;
unsigned long tx_irq;
unsigned long no_desc_avail;
};
/*
* The Receive ring, one per rx queue
*/
struct rx_ring {
struct adapter *adapter;
u32 me;
u32 msix;
u32 ims;
struct mtx rx_mtx;
char mtx_name[16];
u32 payload;
struct task rx_task;
struct taskqueue *tq;
struct e1000_rx_desc *rx_base;
struct em_dma_alloc rxdma;
u32 next_to_refresh;
u32 next_to_check;
struct em_buffer *rx_buffers;
struct mbuf *fmp;
struct mbuf *lmp;
/* Interrupt resources */
void *tag;
struct resource *res;
bus_dma_tag_t rxtag;
bool discard;
/* Soft stats */
unsigned long rx_irq;
unsigned long rx_discarded;
unsigned long rx_packets;
unsigned long rx_bytes;
};
/* Our adapter structure */
struct adapter {
if_t ifp;
struct e1000_hw hw;
/* FreeBSD operating-system-specific structures. */
struct e1000_osdep osdep;
struct device *dev;
struct cdev *led_dev;
struct resource *memory;
struct resource *flash;
struct resource *msix_mem;
struct resource *res;
void *tag;
u32 linkvec;
u32 ivars;
struct ifmedia media;
struct callout timer;
int msix;
int if_flags;
int max_frame_size;
int min_frame_size;
int pause_frames;
struct mtx core_mtx;
int em_insert_vlan_header;
u32 ims;
bool in_detach;
/* Task for FAST handling */
struct task link_task;
struct task que_task;
struct taskqueue *tq; /* private task queue */
eventhandler_tag vlan_attach;
eventhandler_tag vlan_detach;
u16 num_vlans;
u16 num_queues;
/*
* Transmit rings:
* Allocated at run time, an array of rings.
*/
struct tx_ring *tx_rings;
int num_tx_desc;
u32 txd_cmd;
/*
* Receive rings:
* Allocated at run time, an array of rings.
*/
struct rx_ring *rx_rings;
int num_rx_desc;
u32 rx_process_limit;
u32 rx_mbuf_sz;
/* Management and WOL features */
u32 wol;
bool has_manage;
bool has_amt;
/* Multicast array memory */
u8 *mta;
/*
** Shadow VFTA table, this is needed because
** the real vlan filter table gets cleared during
** a soft reset and the driver needs to be able
** to repopulate it.
*/
u32 shadow_vfta[EM_VFTA_SIZE];
/* Info about the interface */
u16 link_active;
u16 fc;
u16 link_speed;
u16 link_duplex;
u32 smartspeed;
struct em_int_delay_info tx_int_delay;
struct em_int_delay_info tx_abs_int_delay;
struct em_int_delay_info rx_int_delay;
struct em_int_delay_info rx_abs_int_delay;
struct em_int_delay_info tx_itr;
/* Misc stats maintained by the driver */
unsigned long dropped_pkts;
unsigned long mbuf_alloc_failed;
unsigned long mbuf_cluster_failed;
unsigned long no_tx_map_avail;
unsigned long no_tx_dma_setup;
unsigned long rx_overruns;
unsigned long watchdog_events;
unsigned long link_irq;
struct e1000_hw_stats stats;
};
/********************************************************************************
* vendor_info_array
*
* This array contains the list of Subvendor/Subdevice IDs on which the driver
* should load.
*
********************************************************************************/
typedef struct _em_vendor_info_t {
unsigned int vendor_id;
unsigned int device_id;
unsigned int subvendor_id;
unsigned int subdevice_id;
unsigned int index;
} em_vendor_info_t;
struct em_buffer {
int next_eop; /* Index of the desc to watch */
struct mbuf *m_head;
bus_dmamap_t map; /* bus_dma map for packet */
};
/*
** Find the number of unrefreshed RX descriptors
*/
static inline u16
e1000_rx_unrefreshed(struct rx_ring *rxr)
{
struct adapter *adapter = rxr->adapter;
if (rxr->next_to_check > rxr->next_to_refresh)
return (rxr->next_to_check - rxr->next_to_refresh - 1);
else
return ((adapter->num_rx_desc + rxr->next_to_check) -
rxr->next_to_refresh - 1);
}
#define EM_CORE_LOCK_INIT(_sc, _name) \
mtx_init(&(_sc)->core_mtx, _name, "EM Core Lock", MTX_DEF)
#define EM_TX_LOCK_INIT(_sc, _name) \
mtx_init(&(_sc)->tx_mtx, _name, "EM TX Lock", MTX_DEF)
#define EM_RX_LOCK_INIT(_sc, _name) \
mtx_init(&(_sc)->rx_mtx, _name, "EM RX Lock", MTX_DEF)
#define EM_CORE_LOCK_DESTROY(_sc) mtx_destroy(&(_sc)->core_mtx)
#define EM_TX_LOCK_DESTROY(_sc) mtx_destroy(&(_sc)->tx_mtx)
#define EM_RX_LOCK_DESTROY(_sc) mtx_destroy(&(_sc)->rx_mtx)
#define EM_CORE_LOCK(_sc) mtx_lock(&(_sc)->core_mtx)
#define EM_TX_LOCK(_sc) mtx_lock(&(_sc)->tx_mtx)
#define EM_TX_TRYLOCK(_sc) mtx_trylock(&(_sc)->tx_mtx)
#define EM_RX_LOCK(_sc) mtx_lock(&(_sc)->rx_mtx)
#define EM_CORE_UNLOCK(_sc) mtx_unlock(&(_sc)->core_mtx)
#define EM_TX_UNLOCK(_sc) mtx_unlock(&(_sc)->tx_mtx)
#define EM_RX_UNLOCK(_sc) mtx_unlock(&(_sc)->rx_mtx)
#define EM_CORE_LOCK_ASSERT(_sc) mtx_assert(&(_sc)->core_mtx, MA_OWNED)
#define EM_TX_LOCK_ASSERT(_sc) mtx_assert(&(_sc)->tx_mtx, MA_OWNED)
#define EM_RX_LOCK_ASSERT(_sc) mtx_assert(&(_sc)->rx_mtx, MA_OWNED)
#endif /* _EM_H_DEFINED_ */