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|
/*
* Copyright (C) 2018 Michael Brown <mbrown@fensystems.co.uk>.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation; either version 2 of the
* License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
* 02110-1301, USA.
*
* You can also choose to distribute this program under the terms of
* the Unmodified Binary Distribution Licence (as given in the file
* COPYING.UBDL), provided that you have satisfied its requirements.
*/
FILE_LICENCE ( GPL2_OR_LATER_OR_UBDL );
#include <stdint.h>
#include <string.h>
#include <unistd.h>
#include <errno.h>
#include <byteswap.h>
#include <ipxe/netdevice.h>
#include <ipxe/ethernet.h>
#include <ipxe/if_ether.h>
#include <ipxe/iobuf.h>
#include <ipxe/malloc.h>
#include <ipxe/pci.h>
#include "ena.h"
/** @file
*
* Amazon ENA network driver
*
*/
/**
* Get direction name (for debugging)
*
* @v direction Direction
* @ret name Direction name
*/
static const char * ena_direction ( unsigned int direction ) {
switch ( direction ) {
case ENA_SQ_TX: return "TX";
case ENA_SQ_RX: return "RX";
default: return "<UNKNOWN>";
}
}
/******************************************************************************
*
* Device reset
*
******************************************************************************
*/
/**
* Reset hardware
*
* @v ena ENA device
* @ret rc Return status code
*/
static int ena_reset ( struct ena_nic *ena ) {
uint32_t stat;
unsigned int i;
/* Trigger reset */
writel ( ENA_CTRL_RESET, ( ena->regs + ENA_CTRL ) );
/* Wait for reset to complete */
for ( i = 0 ; i < ENA_RESET_MAX_WAIT_MS ; i++ ) {
/* Check if device is ready */
stat = readl ( ena->regs + ENA_STAT );
if ( stat & ENA_STAT_READY )
return 0;
/* Delay */
mdelay ( 1 );
}
DBGC ( ena, "ENA %p timed out waiting for reset (status %#08x)\n",
ena, stat );
return -ETIMEDOUT;
}
/******************************************************************************
*
* Admin queue
*
******************************************************************************
*/
/**
* Set queue base address
*
* @v ena ENA device
* @v offset Register offset
* @v address Base address
*/
static inline void ena_set_base ( struct ena_nic *ena, unsigned int offset,
void *base ) {
physaddr_t phys = virt_to_bus ( base );
/* Program base address registers */
writel ( ( phys & 0xffffffffUL ),
( ena->regs + offset + ENA_BASE_LO ) );
if ( sizeof ( phys ) > sizeof ( uint32_t ) ) {
writel ( ( ( ( uint64_t ) phys ) >> 32 ),
( ena->regs + offset + ENA_BASE_HI ) );
} else {
writel ( 0, ( ena->regs + offset + ENA_BASE_HI ) );
}
}
/**
* Set queue capabilities
*
* @v ena ENA device
* @v offset Register offset
* @v count Number of entries
* @v size Size of each entry
*/
static inline __attribute__ (( always_inline )) void
ena_set_caps ( struct ena_nic *ena, unsigned int offset, unsigned int count,
size_t size ) {
/* Program capabilities register */
writel ( ENA_CAPS ( count, size ), ( ena->regs + offset ) );
}
/**
* Clear queue capabilities
*
* @v ena ENA device
* @v offset Register offset
*/
static inline __attribute__ (( always_inline )) void
ena_clear_caps ( struct ena_nic *ena, unsigned int offset ) {
/* Clear capabilities register */
writel ( 0, ( ena->regs + offset ) );
}
/**
* Create admin queues
*
* @v ena ENA device
* @ret rc Return status code
*/
static int ena_create_admin ( struct ena_nic *ena ) {
size_t aq_len = ( ENA_AQ_COUNT * sizeof ( ena->aq.req[0] ) );
size_t acq_len = ( ENA_ACQ_COUNT * sizeof ( ena->acq.rsp[0] ) );
int rc;
/* Allocate admin completion queue */
ena->acq.rsp = malloc_dma ( acq_len, acq_len );
if ( ! ena->acq.rsp ) {
rc = -ENOMEM;
goto err_alloc_acq;
}
memset ( ena->acq.rsp, 0, acq_len );
/* Allocate admin queue */
ena->aq.req = malloc_dma ( aq_len, aq_len );
if ( ! ena->aq.req ) {
rc = -ENOMEM;
goto err_alloc_aq;
}
memset ( ena->aq.req, 0, aq_len );
/* Program queue addresses and capabilities */
ena_set_base ( ena, ENA_ACQ_BASE, ena->acq.rsp );
ena_set_caps ( ena, ENA_ACQ_CAPS, ENA_ACQ_COUNT,
sizeof ( ena->acq.rsp[0] ) );
ena_set_base ( ena, ENA_AQ_BASE, ena->aq.req );
ena_set_caps ( ena, ENA_AQ_CAPS, ENA_AQ_COUNT,
sizeof ( ena->aq.req[0] ) );
DBGC ( ena, "ENA %p AQ [%08lx,%08lx) ACQ [%08lx,%08lx)\n",
ena, virt_to_phys ( ena->aq.req ),
( virt_to_phys ( ena->aq.req ) + aq_len ),
virt_to_phys ( ena->acq.rsp ),
( virt_to_phys ( ena->acq.rsp ) + acq_len ) );
return 0;
ena_clear_caps ( ena, ENA_AQ_CAPS );
ena_clear_caps ( ena, ENA_ACQ_CAPS );
free_dma ( ena->aq.req, aq_len );
err_alloc_aq:
free_dma ( ena->acq.rsp, acq_len );
err_alloc_acq:
return rc;
}
/**
* Destroy admin queues
*
* @v ena ENA device
*/
static void ena_destroy_admin ( struct ena_nic *ena ) {
size_t aq_len = ( ENA_AQ_COUNT * sizeof ( ena->aq.req[0] ) );
size_t acq_len = ( ENA_ACQ_COUNT * sizeof ( ena->acq.rsp[0] ) );
/* Clear queue capabilities */
ena_clear_caps ( ena, ENA_AQ_CAPS );
ena_clear_caps ( ena, ENA_ACQ_CAPS );
wmb();
/* Free queues */
free_dma ( ena->aq.req, aq_len );
free_dma ( ena->acq.rsp, acq_len );
DBGC ( ena, "ENA %p AQ and ACQ destroyed\n", ena );
}
/**
* Get next available admin queue request
*
* @v ena ENA device
* @ret req Admin queue request
*/
static union ena_aq_req * ena_admin_req ( struct ena_nic *ena ) {
union ena_aq_req *req;
unsigned int index;
/* Get next request */
index = ( ena->aq.prod % ENA_AQ_COUNT );
req = &ena->aq.req[index];
/* Initialise request */
memset ( ( ( ( void * ) req ) + sizeof ( req->header ) ), 0,
( sizeof ( *req ) - sizeof ( req->header ) ) );
req->header.id = ena->aq.prod;
/* Increment producer counter */
ena->aq.prod++;
return req;
}
/**
* Issue admin queue request
*
* @v ena ENA device
* @v req Admin queue request
* @v rsp Admin queue response to fill in
* @ret rc Return status code
*/
static int ena_admin ( struct ena_nic *ena, union ena_aq_req *req,
union ena_acq_rsp **rsp ) {
unsigned int index;
unsigned int i;
int rc;
/* Locate response */
index = ( ena->acq.cons % ENA_ACQ_COUNT );
*rsp = &ena->acq.rsp[index];
/* Mark request as ready */
req->header.flags ^= ENA_AQ_PHASE;
wmb();
DBGC2 ( ena, "ENA %p admin request %#x:\n",
ena, le16_to_cpu ( req->header.id ) );
DBGC2_HDA ( ena, virt_to_phys ( req ), req, sizeof ( *req ) );
/* Ring doorbell */
writel ( ena->aq.prod, ( ena->regs + ENA_AQ_DB ) );
/* Wait for response */
for ( i = 0 ; i < ENA_ADMIN_MAX_WAIT_MS ; i++ ) {
/* Check for response */
if ( ( (*rsp)->header.flags ^ ena->acq.phase ) & ENA_ACQ_PHASE){
mdelay ( 1 );
continue;
}
DBGC2 ( ena, "ENA %p admin response %#x:\n",
ena, le16_to_cpu ( (*rsp)->header.id ) );
DBGC2_HDA ( ena, virt_to_phys ( *rsp ), *rsp, sizeof ( **rsp ));
/* Increment consumer counter */
ena->acq.cons++;
if ( ( ena->acq.cons % ENA_ACQ_COUNT ) == 0 )
ena->acq.phase ^= ENA_ACQ_PHASE;
/* Check command identifier */
if ( (*rsp)->header.id != req->header.id ) {
DBGC ( ena, "ENA %p admin response %#x mismatch:\n",
ena, le16_to_cpu ( (*rsp)->header.id ) );
rc = -EILSEQ;
goto err;
}
/* Check status */
if ( (*rsp)->header.status != 0 ) {
DBGC ( ena, "ENA %p admin response %#x status %d:\n",
ena, le16_to_cpu ( (*rsp)->header.id ),
(*rsp)->header.status );
rc = -EIO;
goto err;
}
/* Success */
return 0;
}
rc = -ETIMEDOUT;
DBGC ( ena, "ENA %p timed out waiting for admin request %#x:\n",
ena, le16_to_cpu ( req->header.id ) );
err:
DBGC_HDA ( ena, virt_to_phys ( req ), req, sizeof ( *req ) );
DBGC_HDA ( ena, virt_to_phys ( *rsp ), *rsp, sizeof ( **rsp ) );
return rc;
}
/**
* Create submission queue
*
* @v ena ENA device
* @v sq Submission queue
* @v cq Corresponding completion queue
* @ret rc Return status code
*/
static int ena_create_sq ( struct ena_nic *ena, struct ena_sq *sq,
struct ena_cq *cq ) {
union ena_aq_req *req;
union ena_acq_rsp *rsp;
int rc;
/* Allocate submission queue entries */
sq->sqe.raw = malloc_dma ( sq->len, ENA_ALIGN );
if ( ! sq->sqe.raw ) {
rc = -ENOMEM;
goto err_alloc;
}
memset ( sq->sqe.raw, 0, sq->len );
/* Construct request */
req = ena_admin_req ( ena );
req->header.opcode = ENA_CREATE_SQ;
req->create_sq.direction = sq->direction;
req->create_sq.policy = cpu_to_le16 ( ENA_SQ_HOST_MEMORY |
ENA_SQ_CONTIGUOUS );
req->create_sq.cq_id = cpu_to_le16 ( cq->id );
req->create_sq.count = cpu_to_le16 ( sq->count );
req->create_sq.address = cpu_to_le64 ( virt_to_bus ( sq->sqe.raw ) );
/* Issue request */
if ( ( rc = ena_admin ( ena, req, &rsp ) ) != 0 )
goto err_admin;
/* Parse response */
sq->id = le16_to_cpu ( rsp->create_sq.id );
sq->doorbell = le32_to_cpu ( rsp->create_sq.doorbell );
/* Reset producer counter and phase */
sq->prod = 0;
sq->phase = ENA_SQE_PHASE;
DBGC ( ena, "ENA %p %s SQ%d at [%08lx,%08lx) db +%04x CQ%d\n",
ena, ena_direction ( sq->direction ), sq->id,
virt_to_phys ( sq->sqe.raw ),
( virt_to_phys ( sq->sqe.raw ) + sq->len ),
sq->doorbell, cq->id );
return 0;
err_admin:
free_dma ( sq->sqe.raw, sq->len );
err_alloc:
return rc;
}
/**
* Destroy submission queue
*
* @v ena ENA device
* @v sq Submission queue
* @ret rc Return status code
*/
static int ena_destroy_sq ( struct ena_nic *ena, struct ena_sq *sq ) {
union ena_aq_req *req;
union ena_acq_rsp *rsp;
int rc;
/* Construct request */
req = ena_admin_req ( ena );
req->header.opcode = ENA_DESTROY_SQ;
req->destroy_sq.id = cpu_to_le16 ( sq->id );
req->destroy_sq.direction = sq->direction;
/* Issue request */
if ( ( rc = ena_admin ( ena, req, &rsp ) ) != 0 )
return rc;
/* Free submission queue entries */
free_dma ( sq->sqe.raw, sq->len );
DBGC ( ena, "ENA %p %s SQ%d destroyed\n",
ena, ena_direction ( sq->direction ), sq->id );
return 0;
}
/**
* Create completion queue
*
* @v ena ENA device
* @v cq Completion queue
* @ret rc Return status code
*/
static int ena_create_cq ( struct ena_nic *ena, struct ena_cq *cq ) {
union ena_aq_req *req;
union ena_acq_rsp *rsp;
int rc;
/* Allocate completion queue entries */
cq->cqe.raw = malloc_dma ( cq->len, ENA_ALIGN );
if ( ! cq->cqe.raw ) {
rc = -ENOMEM;
goto err_alloc;
}
memset ( cq->cqe.raw, 0, cq->len );
/* Construct request */
req = ena_admin_req ( ena );
req->header.opcode = ENA_CREATE_CQ;
req->create_cq.size = cq->size;
req->create_cq.count = cpu_to_le16 ( cq->requested );
req->create_cq.address = cpu_to_le64 ( virt_to_bus ( cq->cqe.raw ) );
/* Issue request */
if ( ( rc = ena_admin ( ena, req, &rsp ) ) != 0 )
goto err_admin;
/* Parse response */
cq->id = le16_to_cpu ( rsp->create_cq.id );
cq->actual = le16_to_cpu ( rsp->create_cq.count );
cq->doorbell = le32_to_cpu ( rsp->create_cq.doorbell );
cq->mask = ( cq->actual - 1 );
if ( cq->actual != cq->requested ) {
DBGC ( ena, "ENA %p CQ%d requested %d actual %d\n",
ena, cq->id, cq->requested, cq->actual );
}
/* Reset consumer counter and phase */
cq->cons = 0;
cq->phase = ENA_CQE_PHASE;
DBGC ( ena, "ENA %p CQ%d at [%08lx,%08lx) db +%04x\n",
ena, cq->id, virt_to_phys ( cq->cqe.raw ),
( virt_to_phys ( cq->cqe.raw ) + cq->len ), cq->doorbell );
return 0;
err_admin:
free_dma ( cq->cqe.raw, cq->len );
err_alloc:
return rc;
}
/**
* Destroy completion queue
*
* @v ena ENA device
* @v cq Completion queue
* @ret rc Return status code
*/
static int ena_destroy_cq ( struct ena_nic *ena, struct ena_cq *cq ) {
union ena_aq_req *req;
union ena_acq_rsp *rsp;
int rc;
/* Construct request */
req = ena_admin_req ( ena );
req->header.opcode = ENA_DESTROY_CQ;
req->destroy_cq.id = cpu_to_le16 ( cq->id );
/* Issue request */
if ( ( rc = ena_admin ( ena, req, &rsp ) ) != 0 )
return rc;
/* Free completion queue entries */
free_dma ( cq->cqe.raw, cq->len );
DBGC ( ena, "ENA %p CQ%d destroyed\n", ena, cq->id );
return 0;
}
/**
* Create queue pair
*
* @v ena ENA device
* @v qp Queue pair
* @ret rc Return status code
*/
static int ena_create_qp ( struct ena_nic *ena, struct ena_qp *qp ) {
int rc;
/* Create completion queue */
if ( ( rc = ena_create_cq ( ena, &qp->cq ) ) != 0 )
goto err_create_cq;
/* Create submission queue */
if ( ( rc = ena_create_sq ( ena, &qp->sq, &qp->cq ) ) != 0 )
goto err_create_sq;
return 0;
ena_destroy_sq ( ena, &qp->sq );
err_create_sq:
ena_destroy_cq ( ena, &qp->cq );
err_create_cq:
return rc;
}
/**
* Destroy queue pair
*
* @v ena ENA device
* @v qp Queue pair
* @ret rc Return status code
*/
static int ena_destroy_qp ( struct ena_nic *ena, struct ena_qp *qp ) {
/* Destroy submission queue */
ena_destroy_sq ( ena, &qp->sq );
/* Destroy completion queue */
ena_destroy_cq ( ena, &qp->cq );
return 0;
}
/**
* Get device attributes
*
* @v netdev Network device
* @ret rc Return status code
*/
static int ena_get_device_attributes ( struct net_device *netdev ) {
struct ena_nic *ena = netdev->priv;
union ena_aq_req *req;
union ena_acq_rsp *rsp;
union ena_feature *feature;
int rc;
/* Construct request */
req = ena_admin_req ( ena );
req->header.opcode = ENA_GET_FEATURE;
req->get_feature.id = ENA_DEVICE_ATTRIBUTES;
/* Issue request */
if ( ( rc = ena_admin ( ena, req, &rsp ) ) != 0 )
return rc;
/* Parse response */
feature = &rsp->get_feature.feature;
memcpy ( netdev->hw_addr, feature->device.mac, ETH_ALEN );
netdev->max_pkt_len = le32_to_cpu ( feature->device.mtu );
netdev->mtu = ( netdev->max_pkt_len - ETH_HLEN );
DBGC ( ena, "ENA %p MAC %s MTU %zd\n",
ena, eth_ntoa ( netdev->hw_addr ), netdev->max_pkt_len );
return 0;
}
/**
* Get statistics (for debugging)
*
* @v ena ENA device
* @ret rc Return status code
*/
static int ena_get_stats ( struct ena_nic *ena ) {
union ena_aq_req *req;
union ena_acq_rsp *rsp;
struct ena_get_stats_rsp *stats;
int rc;
/* Do nothing unless debug messages are enabled */
if ( ! DBG_LOG )
return 0;
/* Construct request */
req = ena_admin_req ( ena );
req->header.opcode = ENA_GET_STATS;
req->get_stats.type = ENA_STATS_TYPE_BASIC;
req->get_stats.scope = ENA_STATS_SCOPE_ETH;
req->get_stats.device = ENA_DEVICE_MINE;
/* Issue request */
if ( ( rc = ena_admin ( ena, req, &rsp ) ) != 0 )
return rc;
/* Parse response */
stats = &rsp->get_stats;
DBGC ( ena, "ENA %p TX bytes %#llx packets %#llx\n", ena,
( ( unsigned long long ) le64_to_cpu ( stats->tx_bytes ) ),
( ( unsigned long long ) le64_to_cpu ( stats->tx_packets ) ) );
DBGC ( ena, "ENA %p RX bytes %#llx packets %#llx drops %#llx\n", ena,
( ( unsigned long long ) le64_to_cpu ( stats->rx_bytes ) ),
( ( unsigned long long ) le64_to_cpu ( stats->rx_packets ) ),
( ( unsigned long long ) le64_to_cpu ( stats->rx_drops ) ) );
return 0;
}
/******************************************************************************
*
* Network device interface
*
******************************************************************************
*/
/**
* Refill receive queue
*
* @v netdev Network device
*/
static void ena_refill_rx ( struct net_device *netdev ) {
struct ena_nic *ena = netdev->priv;
struct io_buffer *iobuf;
struct ena_rx_sqe *sqe;
unsigned int index;
physaddr_t address;
size_t len = netdev->max_pkt_len;
unsigned int refilled = 0;
/* Refill queue */
while ( ( ena->rx.sq.prod - ena->rx.cq.cons ) < ENA_RX_COUNT ) {
/* Allocate I/O buffer */
iobuf = alloc_iob ( len );
if ( ! iobuf ) {
/* Wait for next refill */
break;
}
/* Get next submission queue entry */
index = ( ena->rx.sq.prod % ENA_RX_COUNT );
sqe = &ena->rx.sq.sqe.rx[index];
/* Construct submission queue entry */
address = virt_to_bus ( iobuf->data );
sqe->len = cpu_to_le16 ( len );
sqe->id = cpu_to_le16 ( ena->rx.sq.prod );
sqe->address = cpu_to_le64 ( address );
wmb();
sqe->flags = ( ENA_SQE_FIRST | ENA_SQE_LAST | ENA_SQE_CPL |
ena->rx.sq.phase );
/* Increment producer counter */
ena->rx.sq.prod++;
if ( ( ena->rx.sq.prod % ENA_RX_COUNT ) == 0 )
ena->rx.sq.phase ^= ENA_SQE_PHASE;
/* Record I/O buffer */
assert ( ena->rx_iobuf[index] == NULL );
ena->rx_iobuf[index] = iobuf;
DBGC2 ( ena, "ENA %p RX %d at [%08llx,%08llx)\n", ena, sqe->id,
( ( unsigned long long ) address ),
( ( unsigned long long ) address + len ) );
refilled++;
}
/* Ring doorbell, if applicable */
if ( refilled ) {
wmb();
writel ( ena->rx.sq.prod, ( ena->regs + ena->rx.sq.doorbell ) );
}
}
/**
* Discard unused receive I/O buffers
*
* @v ena ENA device
*/
static void ena_empty_rx ( struct ena_nic *ena ) {
unsigned int i;
for ( i = 0 ; i < ENA_RX_COUNT ; i++ ) {
if ( ena->rx_iobuf[i] )
free_iob ( ena->rx_iobuf[i] );
ena->rx_iobuf[i] = NULL;
}
}
/**
* Open network device
*
* @v netdev Network device
* @ret rc Return status code
*/
static int ena_open ( struct net_device *netdev ) {
struct ena_nic *ena = netdev->priv;
int rc;
/* Create transmit queue pair */
if ( ( rc = ena_create_qp ( ena, &ena->tx ) ) != 0 )
goto err_create_tx;
/* Create receive queue pair */
if ( ( rc = ena_create_qp ( ena, &ena->rx ) ) != 0 )
goto err_create_rx;
/* Refill receive queue */
ena_refill_rx ( netdev );
return 0;
ena_destroy_qp ( ena, &ena->rx );
err_create_rx:
ena_destroy_qp ( ena, &ena->tx );
err_create_tx:
return rc;
}
/**
* Close network device
*
* @v netdev Network device
*/
static void ena_close ( struct net_device *netdev ) {
struct ena_nic *ena = netdev->priv;
/* Dump statistics (for debugging) */
ena_get_stats ( ena );
/* Destroy receive queue pair */
ena_destroy_qp ( ena, &ena->rx );
/* Discard any unused receive buffers */
ena_empty_rx ( ena );
/* Destroy transmit queue pair */
ena_destroy_qp ( ena, &ena->tx );
}
/**
* Transmit packet
*
* @v netdev Network device
* @v iobuf I/O buffer
* @ret rc Return status code
*/
static int ena_transmit ( struct net_device *netdev, struct io_buffer *iobuf ) {
struct ena_nic *ena = netdev->priv;
struct ena_tx_sqe *sqe;
unsigned int index;
physaddr_t address;
size_t len;
/* Get next submission queue entry */
if ( ( ena->tx.sq.prod - ena->tx.cq.cons ) >= ENA_TX_COUNT ) {
DBGC ( ena, "ENA %p out of transmit descriptors\n", ena );
return -ENOBUFS;
}
index = ( ena->tx.sq.prod % ENA_TX_COUNT );
sqe = &ena->tx.sq.sqe.tx[index];
/* Construct submission queue entry */
address = virt_to_bus ( iobuf->data );
len = iob_len ( iobuf );
sqe->len = cpu_to_le16 ( len );
sqe->id = ena->tx.sq.prod;
sqe->address = cpu_to_le64 ( address );
wmb();
sqe->flags = ( ENA_SQE_FIRST | ENA_SQE_LAST | ENA_SQE_CPL |
ena->tx.sq.phase );
wmb();
/* Increment producer counter */
ena->tx.sq.prod++;
if ( ( ena->tx.sq.prod % ENA_TX_COUNT ) == 0 )
ena->tx.sq.phase ^= ENA_SQE_PHASE;
/* Ring doorbell */
writel ( ena->tx.sq.prod, ( ena->regs + ena->tx.sq.doorbell ) );
DBGC2 ( ena, "ENA %p TX %d at [%08llx,%08llx)\n", ena, sqe->id,
( ( unsigned long long ) address ),
( ( unsigned long long ) address + len ) );
return 0;
}
/**
* Poll for completed transmissions
*
* @v netdev Network device
*/
static void ena_poll_tx ( struct net_device *netdev ) {
struct ena_nic *ena = netdev->priv;
struct ena_tx_cqe *cqe;
unsigned int index;
/* Check for completed packets */
while ( ena->tx.cq.cons != ena->tx.sq.prod ) {
/* Get next completion queue entry */
index = ( ena->tx.cq.cons & ena->tx.cq.mask );
cqe = &ena->tx.cq.cqe.tx[index];
/* Stop if completion queue entry is empty */
if ( ( cqe->flags ^ ena->tx.cq.phase ) & ENA_CQE_PHASE )
return;
DBGC2 ( ena, "ENA %p TX %d complete\n", ena,
( le16_to_cpu ( cqe->id ) >> 2 /* Don't ask */ ) );
/* Increment consumer counter */
ena->tx.cq.cons++;
if ( ! ( ena->tx.cq.cons & ena->tx.cq.mask ) )
ena->tx.cq.phase ^= ENA_CQE_PHASE;
/* Complete transmit */
netdev_tx_complete_next ( netdev );
}
}
/**
* Poll for received packets
*
* @v netdev Network device
*/
static void ena_poll_rx ( struct net_device *netdev ) {
struct ena_nic *ena = netdev->priv;
struct ena_rx_cqe *cqe;
struct io_buffer *iobuf;
unsigned int index;
size_t len;
/* Check for received packets */
while ( ena->rx.cq.cons != ena->rx.sq.prod ) {
/* Get next completion queue entry */
index = ( ena->rx.cq.cons % ENA_RX_COUNT );
cqe = &ena->rx.cq.cqe.rx[index];
/* Stop if completion queue entry is empty */
if ( ( cqe->flags ^ ena->rx.cq.phase ) & ENA_CQE_PHASE )
return;
/* Increment consumer counter */
ena->rx.cq.cons++;
if ( ! ( ena->rx.cq.cons & ena->rx.cq.mask ) )
ena->rx.cq.phase ^= ENA_CQE_PHASE;
/* Populate I/O buffer */
iobuf = ena->rx_iobuf[index];
ena->rx_iobuf[index] = NULL;
len = le16_to_cpu ( cqe->len );
iob_put ( iobuf, len );
/* Hand off to network stack */
DBGC2 ( ena, "ENA %p RX %d complete (length %zd)\n",
ena, le16_to_cpu ( cqe->id ), len );
netdev_rx ( netdev, iobuf );
}
}
/**
* Poll for completed and received packets
*
* @v netdev Network device
*/
static void ena_poll ( struct net_device *netdev ) {
/* Poll for transmit completions */
ena_poll_tx ( netdev );
/* Poll for receive completions */
ena_poll_rx ( netdev );
/* Refill receive ring */
ena_refill_rx ( netdev );
}
/** ENA network device operations */
static struct net_device_operations ena_operations = {
.open = ena_open,
.close = ena_close,
.transmit = ena_transmit,
.poll = ena_poll,
};
/******************************************************************************
*
* PCI interface
*
******************************************************************************
*/
/**
* Probe PCI device
*
* @v pci PCI device
* @ret rc Return status code
*/
static int ena_probe ( struct pci_device *pci ) {
struct net_device *netdev;
struct ena_nic *ena;
int rc;
/* Allocate and initialise net device */
netdev = alloc_etherdev ( sizeof ( *ena ) );
if ( ! netdev ) {
rc = -ENOMEM;
goto err_alloc;
}
netdev_init ( netdev, &ena_operations );
ena = netdev->priv;
pci_set_drvdata ( pci, netdev );
netdev->dev = &pci->dev;
memset ( ena, 0, sizeof ( *ena ) );
ena->acq.phase = ENA_ACQ_PHASE;
ena_cq_init ( &ena->tx.cq, ENA_TX_COUNT,
sizeof ( ena->tx.cq.cqe.tx[0] ) );
ena_sq_init ( &ena->tx.sq, ENA_SQ_TX, ENA_TX_COUNT,
sizeof ( ena->tx.sq.sqe.tx[0] ) );
ena_cq_init ( &ena->rx.cq, ENA_RX_COUNT,
sizeof ( ena->rx.cq.cqe.rx[0] ) );
ena_sq_init ( &ena->rx.sq, ENA_SQ_RX, ENA_RX_COUNT,
sizeof ( ena->rx.sq.sqe.rx[0] ) );
/* Fix up PCI device */
adjust_pci_device ( pci );
/* Map registers */
ena->regs = ioremap ( pci->membase, ENA_BAR_SIZE );
if ( ! ena->regs ) {
rc = -ENODEV;
goto err_ioremap;
}
/* Reset the NIC */
if ( ( rc = ena_reset ( ena ) ) != 0 )
goto err_reset;
/* Create admin queues */
if ( ( rc = ena_create_admin ( ena ) ) != 0 )
goto err_create_admin;
/* Fetch MAC address */
if ( ( rc = ena_get_device_attributes ( netdev ) ) != 0 )
goto err_get_device_attributes;
/* Register network device */
if ( ( rc = register_netdev ( netdev ) ) != 0 )
goto err_register_netdev;
/* Mark as link up, since we have no way to test link state on
* this hardware.
*/
netdev_link_up ( netdev );
return 0;
unregister_netdev ( netdev );
err_register_netdev:
err_get_device_attributes:
ena_destroy_admin ( ena );
err_create_admin:
ena_reset ( ena );
err_reset:
iounmap ( ena->regs );
err_ioremap:
netdev_nullify ( netdev );
netdev_put ( netdev );
err_alloc:
return rc;
}
/**
* Remove PCI device
*
* @v pci PCI device
*/
static void ena_remove ( struct pci_device *pci ) {
struct net_device *netdev = pci_get_drvdata ( pci );
struct ena_nic *ena = netdev->priv;
/* Unregister network device */
unregister_netdev ( netdev );
/* Destroy admin queues */
ena_destroy_admin ( ena );
/* Reset card */
ena_reset ( ena );
/* Free network device */
iounmap ( ena->regs );
netdev_nullify ( netdev );
netdev_put ( netdev );
}
/** ENA PCI device IDs */
static struct pci_device_id ena_nics[] = {
PCI_ROM ( 0x1d0f, 0xec20, "ena-vf", "ENA VF", 0 ),
PCI_ROM ( 0x1d0f, 0xec21, "ena-vf-llq", "ENA VF (LLQ)", 0 ),
};
/** ENA PCI driver */
struct pci_driver ena_driver __pci_driver = {
.ids = ena_nics,
.id_count = ( sizeof ( ena_nics ) / sizeof ( ena_nics[0] ) ),
.probe = ena_probe,
.remove = ena_remove,
};
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