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authorMithlesh Thukral2009-01-05 16:43:23 +0100
committerGreg Kroah-Hartman2009-04-03 23:53:08 +0200
commit1323e5f14a4c85375977b76fad3546e678a6e6b1 (patch)
treed25c380c91cc987e52fee8d9456d8b9d22a74bd1 /drivers/staging/sxg
parentStaging: slicoss: slichw.h cleanup (diff)
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Staging: sxg: New SXG_SGL design and MAC Header changes
* This patch introduces the new SXG_SGL design. * Related changes to sxg_scatter_gather structure. * Introduced PSXG_X64_SGL changes which are x64 friendly * Setting the MAC HEADER pointer properly in skb before giving to higher layers. Signed-off-by: Michael Miles <mmiles@alacritech.com> Signed-off-by: LinSysSoft Sahara Team <saharaproj@linsyssoft.com> Signed-off-by: Christopher Harrer <charrer@alacritech.com> Signed-off-by: Greg Kroah-Hartman <gregkh@suse.de>
Diffstat (limited to 'drivers/staging/sxg')
-rw-r--r--drivers/staging/sxg/sxg.c194
-rw-r--r--drivers/staging/sxg/sxg.h31
-rw-r--r--drivers/staging/sxg/sxgdbg.h3
-rw-r--r--drivers/staging/sxg/sxghif.h251
-rw-r--r--drivers/staging/sxg/sxghw.h177
5 files changed, 464 insertions, 192 deletions
diff --git a/drivers/staging/sxg/sxg.c b/drivers/staging/sxg/sxg.c
index 1e0cfcd7f0f3..b110f56ce266 100644
--- a/drivers/staging/sxg/sxg.c
+++ b/drivers/staging/sxg/sxg.c
@@ -97,7 +97,7 @@ static int sxg_entry_halt(p_net_device dev);
static int sxg_ioctl(p_net_device dev, struct ifreq *rq, int cmd);
static int sxg_send_packets(struct sk_buff *skb, p_net_device dev);
static int sxg_transmit_packet(struct adapter_t *adapter, struct sk_buff *skb);
-static void sxg_dumb_sgl(struct SCATTER_GATHER_LIST *pSgl, struct SXG_SCATTER_GATHER *SxgSgl);
+static void sxg_dumb_sgl(struct SXG_X64_SGL *pSgl, struct SXG_SCATTER_GATHER *SxgSgl);
static void sxg_handle_interrupt(struct adapter_t *adapter);
static int sxg_process_isr(struct adapter_t *adapter, u32 MessageId);
@@ -114,10 +114,8 @@ static struct net_device_stats *sxg_get_stats(p_net_device dev);
#define XXXTODO 0
-#if XXXTODO
static int sxg_mac_set_address(p_net_device dev, void *ptr);
static void sxg_mcast_set_list(p_net_device dev);
-#endif
static void sxg_adapter_set_hwaddr(struct adapter_t *adapter);
@@ -622,6 +620,66 @@ static void sxg_config_pci(struct pci_dev *pcidev)
}
}
+static unsigned char temp_mac_address[6] = { 0x00, 0xab, 0xcd, 0xef, 0x12, 0x69 };
+/*
+ * sxg_read_config
+ * @adapter : Pointer to the adapter structure for the card
+ * This function will read the configuration data from EEPROM/FLASH
+ */
+static inline int sxg_read_config(struct adapter_t *adapter)
+{
+ //struct sxg_config data;
+ struct SW_CFG_DATA *data;
+ dma_addr_t p_addr;
+ unsigned long status;
+ unsigned long i;
+
+ data = pci_alloc_consistent(adapter->pcidev, sizeof(struct SW_CFG_DATA), &p_addr);
+ if(!data) {
+ /* We cant get even this much memory. Raise a hell
+ * Get out of here
+ */
+ printk(KERN_ERR"%s : Could not allocate memory for reading EEPROM\n", __FUNCTION__);
+ return -ENOMEM;
+ }
+
+ WRITE_REG(adapter->UcodeRegs[0].ConfigStat, SXG_CFG_TIMEOUT, TRUE);
+
+ WRITE_REG64(adapter, adapter->UcodeRegs[0].Config, p_addr, 0);
+ for(i=0; i<1000; i++) {
+ READ_REG(adapter->UcodeRegs[0].ConfigStat, status);
+ if (status != SXG_CFG_TIMEOUT)
+ break;
+ mdelay(1); /* Do we really need this */
+ }
+
+ switch(status) {
+ case SXG_CFG_LOAD_EEPROM: /*Config read from EEPROM succeeded */
+ case SXG_CFG_LOAD_FLASH: /* onfig read from Flash succeeded */
+ /* Copy the MAC address to adapter structure */
+ memcpy(temp_mac_address, data->MacAddr[0].MacAddr, 6);
+ /* TODO: We are not doing the remaining part : FRU, etc */
+ break;
+
+ case SXG_CFG_TIMEOUT:
+ case SXG_CFG_LOAD_INVALID:
+ case SXG_CFG_LOAD_ERROR:
+ default: /* Fix default handler later */
+ printk(KERN_WARNING"%s : We could not read the config word."
+ "Status = %ld\n", __FUNCTION__, status);
+ break;
+ }
+ pci_free_consistent(adapter->pcidev, sizeof(struct SW_CFG_DATA), data, p_addr);
+ if (adapter->netdev) {
+ memcpy(adapter->netdev->dev_addr, adapter->currmacaddr, 6);
+ memcpy(adapter->netdev->perm_addr, adapter->currmacaddr, 6);
+ }
+ printk("LINSYS : These are the new MAC address\n");
+ sxg_dbg_macaddrs(adapter);
+
+ return status;
+}
+
static int sxg_entry_probe(struct pci_dev *pcidev,
const struct pci_device_id *pci_tbl_entry)
{
@@ -774,16 +832,13 @@ static int sxg_entry_probe(struct pci_dev *pcidev,
adapter->vendid = pci_tbl_entry->vendor;
adapter->devid = pci_tbl_entry->device;
adapter->subsysid = pci_tbl_entry->subdevice;
- adapter->busnumber = pcidev->bus->number;
adapter->slotnumber = ((pcidev->devfn >> 3) & 0x1F);
adapter->functionnumber = (pcidev->devfn & 0x7);
adapter->memorylength = pci_resource_len(pcidev, 0);
adapter->irq = pcidev->irq;
adapter->next_netdevice = head_netdevice;
head_netdevice = netdev;
-/* adapter->chipid = chip_idx; */
adapter->port = 0; /*adapter->functionnumber; */
- adapter->cardindex = adapter->port;
/* Allocate memory and other resources */
DBG_ERROR("sxg: %s ENTER sxg_allocate_resources\n", __func__);
@@ -798,6 +853,7 @@ static int sxg_entry_probe(struct pci_dev *pcidev,
if (sxg_download_microcode(adapter, SXG_UCODE_SAHARA)) {
DBG_ERROR("sxg: %s ENTER sxg_adapter_set_hwaddr\n",
__func__);
+ sxg_read_config(adapter);
sxg_adapter_set_hwaddr(adapter);
} else {
adapter->state = ADAPT_FAIL;
@@ -816,8 +872,8 @@ static int sxg_entry_probe(struct pci_dev *pcidev,
#if SLIC_GET_STATS_ENABLED
netdev->get_stats = sxg_get_stats;
#endif
- netdev->set_multicast_list = sxg_mcast_set_list;
#endif
+ netdev->set_multicast_list = sxg_mcast_set_list;
strcpy(netdev->name, "eth%d");
/* strcpy(netdev->name, pci_name(pcidev)); */
@@ -992,12 +1048,14 @@ static irqreturn_t sxg_isr(int irq, void *dev_id)
return IRQ_HANDLED;
}
+int debug_inthandler = 0;
+
static void sxg_handle_interrupt(struct adapter_t *adapter)
{
/* unsigned char RssId = 0; */
u32 NewIsr;
- if (adapter->Stats.RcvNoBuffer < 5) {
+ if (++debug_inthandler < 20) {
DBG_ERROR("Enter sxg_handle_interrupt ISR[%x]\n",
adapter->IsrCopy[0]);
}
@@ -1033,7 +1091,7 @@ static void sxg_handle_interrupt(struct adapter_t *adapter)
SXG_TRACE(TRACE_SXG, SxgTraceBuffer, TRACE_NOISY, "ClearIsr",
adapter, NewIsr, 0, 0);
- if (adapter->Stats.RcvNoBuffer < 5) {
+ if (debug_inthandler < 20) {
DBG_ERROR
("Exit sxg_handle_interrupt2 after enabling interrupt\n");
}
@@ -1205,14 +1263,12 @@ static u32 sxg_process_event_queue(struct adapter_t *adapter, u32 RssId)
#else
/* CHECK skb_pull(skb, INIC_RCVBUF_HEADSIZE); */
rx_bytes = Event->Length; /* (rcvbuf->length & IRHDDR_FLEN_MSK); */
- skb_put(skb, rx_bytes);
adapter->stats.rx_packets++;
adapter->stats.rx_bytes += rx_bytes;
#if SXG_OFFLOAD_IP_CHECKSUM
skb->ip_summed = CHECKSUM_UNNECESSARY;
#endif
skb->dev = adapter->netdev;
- skb->protocol = eth_type_trans(skb, skb->dev);
netif_rx(skb);
#endif
}
@@ -1321,12 +1377,16 @@ static void sxg_complete_slow_send(struct adapter_t *adapter)
case SXG_SGL_DUMB:
{
struct sk_buff *skb;
+ struct SXG_SCATTER_GATHER *SxgSgl = (struct SXG_SCATTER_GATHER *)ContextType;
+
/* Dumb-nic send. Command context is the dumb-nic SGL */
skb = (struct sk_buff *)ContextType;
+ skb = SxgSgl->DumbPacket;
/* Complete the send */
SXG_TRACE(TRACE_SXG, SxgTraceBuffer,
TRACE_IMPORTANT, "DmSndCmp", skb, 0,
0, 0);
+ printk("ASK:sxg_complete_slow_send: freeing an skb [%p]\n", skb);
ASSERT(adapter->Stats.XmtQLen);
adapter->Stats.XmtQLen--; /* within XmtZeroLock */
adapter->Stats.XmtOk++;
@@ -1363,12 +1423,14 @@ static struct sk_buff *sxg_slow_receive(struct adapter_t *adapter, struct SXG_EV
{
struct SXG_RCV_DATA_BUFFER_HDR *RcvDataBufferHdr;
struct sk_buff *Packet;
+ unsigned char*data;
+ int i;
+ char dstr[128];
+ char *dptr = dstr;
RcvDataBufferHdr = (struct SXG_RCV_DATA_BUFFER_HDR*) Event->HostHandle;
ASSERT(RcvDataBufferHdr);
ASSERT(RcvDataBufferHdr->State == SXG_BUFFER_ONCARD);
- ASSERT(SXG_RECEIVE_DATA_LOCATION(RcvDataBufferHdr) ==
- RcvDataBufferHdr->VirtualAddress);
SXG_TRACE(TRACE_SXG, SxgTraceBuffer, TRACE_IMPORTANT, "SlowRcv", Event,
RcvDataBufferHdr, RcvDataBufferHdr->State,
RcvDataBufferHdr->VirtualAddress);
@@ -1385,6 +1447,13 @@ static struct sk_buff *sxg_slow_receive(struct adapter_t *adapter, struct SXG_EV
goto drop;
}
+ printk("ASK:sxg_slow_receive: event host handle %p\n", RcvDataBufferHdr);
+ data = SXG_RECEIVE_DATA_LOCATION(RcvDataBufferHdr);
+ for (i = 0; i < 32; i++)
+ dptr += sprintf(dptr, "%02x ", (unsigned)data[i]);
+ printk("ASK:sxg_slow_receive: data %s\n", dstr);
+ //memcpy(SXG_RECEIVE_DATA_LOCATION(RcvDataBufferHdr), RcvDataBufferHdr->VirtualAddress, Event->Length);
+
/* Change buffer state to UPSTREAM */
RcvDataBufferHdr->State = SXG_BUFFER_UPSTREAM;
if (Event->Status & EVENT_STATUS_RCVERR) {
@@ -1415,24 +1484,28 @@ static struct sk_buff *sxg_slow_receive(struct adapter_t *adapter, struct SXG_EV
/* */
/* Dumb-nic frame. See if it passes our mac filter and update stats */
/* */
- if (!sxg_mac_filter(adapter, (struct ether_header*)
+ /* ASK if (!sxg_mac_filter(adapter,
SXG_RECEIVE_DATA_LOCATION(RcvDataBufferHdr),
Event->Length)) {
SXG_TRACE(TRACE_SXG, SxgTraceBuffer, TRACE_NOISY, "RcvFiltr",
Event, SXG_RECEIVE_DATA_LOCATION(RcvDataBufferHdr),
Event->Length, 0);
goto drop;
- }
+ } */
Packet = RcvDataBufferHdr->SxgDumbRcvPacket;
+ SXG_ADJUST_RCV_PACKET(Packet, RcvDataBufferHdr, Event);
+ Packet->protocol = eth_type_trans(Packet, adapter->netdev);
+ printk("ASK:sxg_slow_receive: protocol %x\n", (unsigned) Packet->protocol);
SXG_TRACE(TRACE_SXG, SxgTraceBuffer, TRACE_IMPORTANT, "DumbRcv",
RcvDataBufferHdr, Packet, Event->Length, 0);
/* */
/* Lastly adjust the receive packet length. */
/* */
- SXG_ADJUST_RCV_PACKET(Packet, RcvDataBufferHdr, Event);
+ RcvDataBufferHdr->SxgDumbRcvPacket = NULL;
+ SXG_FREE_RCV_DATA_BUFFER(adapter, RcvDataBufferHdr);
return (Packet);
drop:
@@ -1666,9 +1739,9 @@ static int sxg_if_init(struct adapter_t *adapter)
p_net_device dev = adapter->netdev;
int status = 0;
- DBG_ERROR("sxg: %s (%s) ENTER states[%d:%d:%d] flags[%x]\n",
+ DBG_ERROR("sxg: %s (%s) ENTER states[%d:%d] flags[%x]\n",
__func__, adapter->netdev->name,
- adapter->queues_initialized, adapter->state,
+ adapter->state,
adapter->linkstate, dev->flags);
/* adapter should be down at this point */
@@ -1871,8 +1944,10 @@ static int sxg_send_packets(struct sk_buff *skb, p_net_device dev)
struct adapter_t *adapter = (struct adapter_t *) netdev_priv(dev);
u32 status = STATUS_SUCCESS;
- DBG_ERROR("sxg: %s ENTER sxg_send_packets skb[%p]\n", __func__,
- skb);
+ //DBG_ERROR("sxg: %s ENTER sxg_send_packets skb[%p]\n", __FUNCTION__,
+ // skb);
+ printk("ASK:sxg_send_packets: skb[%p]\n", skb);
+
/* Check the adapter state */
switch (adapter->State) {
case SXG_STATE_INITIALIZING:
@@ -1936,8 +2011,8 @@ static int sxg_send_packets(struct sk_buff *skb, p_net_device dev)
*/
static int sxg_transmit_packet(struct adapter_t *adapter, struct sk_buff *skb)
{
- struct SCATTER_GATHER_LIST *pSgl;
- struct SXG_SCATTER_GATHER *SxgSgl;
+ struct SXG_X64_SGL *pSgl;
+ struct SXG_SCATTER_GATHER *SxgSgl;
void *SglBuffer;
u32 SglBufferLength;
@@ -1980,7 +2055,7 @@ static int sxg_transmit_packet(struct adapter_t *adapter, struct sk_buff *skb)
* Return Value:
* None.
*/
-static void sxg_dumb_sgl(struct SCATTER_GATHER_LIST *pSgl, struct SXG_SCATTER_GATHER *SxgSgl)
+static void sxg_dumb_sgl(struct SXG_X64_SGL *pSgl, struct SXG_SCATTER_GATHER *SxgSgl)
{
struct adapter_t *adapter = SxgSgl->adapter;
struct sk_buff *skb = SxgSgl->DumbPacket;
@@ -1993,15 +2068,23 @@ static void sxg_dumb_sgl(struct SCATTER_GATHER_LIST *pSgl, struct SXG_SCATTER_GA
/* unsigned int BufLen; */
/* u32 SglOffset; */
u64 phys_addr;
+ unsigned char*data;
+ int i;
+ char dstr[128];
+ char *dptr = dstr;
SXG_TRACE(TRACE_SXG, SxgTraceBuffer, TRACE_NOISY, "DumbSgl",
pSgl, SxgSgl, 0, 0);
+ data = skb->data;
+ for (i = 0; i < 32; i++)
+ dptr += sprintf(dptr, "%02x ", (unsigned)data[i]);
+ printk("ASK:sxg_dumb_sgl: data %s\n", dstr);
/* Set aside a pointer to the sgl */
SxgSgl->pSgl = pSgl;
/* Sanity check that our SGL format is as we expect. */
- ASSERT(sizeof(SXG_X64_SGE) == sizeof(SCATTER_GATHER_ELEMENT));
+ ASSERT(sizeof(struct SXG_X64_SGE) == sizeof(struct SXG_X64_SGE));
/* Shouldn't be a vlan tag on this frame */
ASSERT(SxgSgl->VlanTag.VlanTci == 0);
ASSERT(SxgSgl->VlanTag.VlanTpid == 0);
@@ -2050,25 +2133,14 @@ static void sxg_dumb_sgl(struct SCATTER_GATHER_LIST *pSgl, struct SXG_SCATTER_GA
phys_addr =
pci_map_single(adapter->pcidev, skb->data, skb->len,
PCI_DMA_TODEVICE);
- XmtCmd->Buffer.FirstSgeAddress = SXG_GET_ADDR_HIGH(phys_addr);
- XmtCmd->Buffer.FirstSgeAddress = XmtCmd->Buffer.FirstSgeAddress << 32;
- XmtCmd->Buffer.FirstSgeAddress =
- XmtCmd->Buffer.FirstSgeAddress | SXG_GET_ADDR_LOW(phys_addr);
-/* XmtCmd->Buffer.FirstSgeAddress = SxgSgl->Sgl.Elements[Index].Address; */
-/* XmtCmd->Buffer.FirstSgeAddress.LowPart += MdlOffset; */
+ memset(XmtCmd, '\0', sizeof(*XmtCmd));
+ XmtCmd->Buffer.FirstSgeAddress = phys_addr;
XmtCmd->Buffer.FirstSgeLength = DataLength;
- /* Set a pointer to the remaining SGL entries */
-/* XmtCmd->Sgl = SxgSgl->PhysicalAddress; */
- /* Advance the physical address of the SxgSgl structure to */
- /* the second SGE */
-/* SglOffset = (u32)((u32 *)(&SxgSgl->Sgl.Elements[Index+1]) - */
-/* (u32 *)SxgSgl); */
-/* XmtCmd->Sgl.LowPart += SglOffset; */
XmtCmd->Buffer.SgeOffset = 0;
- /* Note - TotalLength might be overwritten with MSS below.. */
XmtCmd->Buffer.TotalLength = DataLength;
- XmtCmd->SgEntries = 1; /*(ushort)(SxgSgl->Sgl.NumberOfElements - Index); */
+ XmtCmd->SgEntries = 1;
XmtCmd->Flags = 0;
+ printk("ASK:sxg_dumb_sgl: wrote to xmit register\n");
/* */
/* Advance transmit cmd descripter by 1. */
/* NOTE - See comments in SxgTcpOutput where we write */
@@ -2144,11 +2216,11 @@ static int sxg_initialize_link(struct adapter_t *adapter)
/* XXXTODO - This assumes the MAC address (0a:0b:0c:0d:0e:0f) */
/* is stored with the first nibble (0a) in the byte 0 */
/* of the Mac address. Possibly reverse? */
- Value = *(u32 *) adapter->MacAddr;
+ Value = *(u32 *) adapter->macaddr;
WRITE_REG(HwRegs->LinkAddress0Low, Value, TRUE);
/* also write the MAC address to the MAC. Endian is reversed. */
WRITE_REG(HwRegs->MacAddressLow, ntohl(Value), TRUE);
- Value = (*(u16 *) & adapter->MacAddr[4] & 0x0000FFFF);
+ Value = (*(u16 *) & adapter->macaddr[4] & 0x0000FFFF);
WRITE_REG(HwRegs->LinkAddress0High, Value | LINK_ADDRESS_ENABLE, TRUE);
/* endian swap for the MAC (put high bytes in bits [31:16], swapped) */
Value = ntohl(Value);
@@ -2208,6 +2280,7 @@ static int sxg_initialize_link(struct adapter_t *adapter)
status = sxg_read_mdio_reg(adapter, MIIM_DEV_PHY_PMA, /* PHY PMA/PMD module */
PHY_PMA_CONTROL1, /* PMA/PMD control register */
&Value);
+ DBG_ERROR("After sxg_read_mdio_reg Value[%x] fail=%x\n", Value, (Value & PMA_CONTROL1_RESET));
if (status != STATUS_SUCCESS)
return (STATUS_FAILURE);
if (Value & PMA_CONTROL1_RESET) /* reset complete if bit is 0 */
@@ -2600,7 +2673,7 @@ static int sxg_read_mdio_reg(struct adapter_t *adapter,
SXG_TRACE(TRACE_SXG, SxgTraceBuffer, TRACE_NOISY, "WrtMDIO",
adapter, 0, 0, 0);
-/* DBG_ERROR("ENTER %s\n", __func__); */
+ DBG_ERROR("ENTER %s\n", __FUNCTION__);
/* Ensure values don't exceed field width */
DevAddr &= 0x001F; /* 5-bit field */
@@ -2636,6 +2709,8 @@ static int sxg_read_mdio_reg(struct adapter_t *adapter,
udelay(100); /* Timeout in 100us units */
READ_REG(HwRegs->MacAmiimIndicator, ValueRead);
if (--Timeout == 0) {
+ DBG_ERROR("EXIT %s with STATUS_FAILURE 1\n", __FUNCTION__);
+
return (STATUS_FAILURE);
}
} while (ValueRead & AXGMAC_AMIIM_INDC_BUSY);
@@ -2655,6 +2730,8 @@ static int sxg_read_mdio_reg(struct adapter_t *adapter,
udelay(100); /* Timeout in 100us units */
READ_REG(HwRegs->MacAmiimIndicator, ValueRead);
if (--Timeout == 0) {
+ DBG_ERROR("EXIT %s with STATUS_FAILURE 2\n", __FUNCTION__);
+
return (STATUS_FAILURE);
}
} while (ValueRead & AXGMAC_AMIIM_INDC_BUSY);
@@ -2663,7 +2740,7 @@ static int sxg_read_mdio_reg(struct adapter_t *adapter,
READ_REG(HwRegs->MacAmiimField, *pValue);
*pValue &= 0xFFFF; /* data is in the lower 16 bits */
-/* DBG_ERROR("EXIT %s\n", __func__); */
+ DBG_ERROR("EXIT %s\n", __FUNCTION__);
return (STATUS_SUCCESS);
}
@@ -2705,7 +2782,6 @@ static void sxg_mcast_init_crc32(void)
}
}
-#if XXXTODO
static u32 sxg_crc_init; /* Is table initialized */
/*
* Return the MAC hast as described above.
@@ -2777,7 +2853,7 @@ static void sxg_mcast_set_mask(struct adapter_t *adapter)
*/
static int sxg_mcast_add_list(struct adapter_t *adapter, char *address)
{
- p_mcast_address_t mcaddr, mlist;
+ struct mcast_address_t *mcaddr, *mlist;
bool equaladdr;
/* Check to see if it already exists */
@@ -2791,7 +2867,7 @@ static int sxg_mcast_add_list(struct adapter_t *adapter, char *address)
}
/* Doesn't already exist. Allocate a structure to hold it */
- mcaddr = kmalloc(sizeof(mcast_address_t), GFP_ATOMIC);
+ mcaddr = kmalloc(sizeof(struct mcast_address_t), GFP_ATOMIC);
if (mcaddr == NULL)
return 1;
@@ -2829,6 +2905,13 @@ static void sxg_mcast_set_list(p_net_device dev)
int mc_count = dev->mc_count;
ASSERT(adapter);
+ if (dev->flags & IFF_PROMISC) {
+ adapter->MacFilter |= MAC_PROMISC;
+ }
+ //XXX handle other flags as well
+ sxg_mcast_set_mask(adapter);
+
+#if 0
for (i = 1; i <= mc_count; i++) {
addresses = (char *)&mc_list->dmi_addr;
@@ -2873,8 +2956,8 @@ static void sxg_mcast_set_list(p_net_device dev)
}
}
return;
-}
#endif
+}
static void sxg_unmap_mmio_space(struct adapter_t *adapter)
{
@@ -3133,12 +3216,16 @@ static void sxg_allocate_rcvblock_complete(struct adapter_t *adapter,
SXG_RCV_DATA_BUFFER_HDR_OFFSET
(BufferSize));
RcvDataBufferHdr->VirtualAddress = RcvDataBuffer;
- RcvDataBufferHdr->PhysicalAddress = Paddr;
RcvDataBufferHdr->State = SXG_BUFFER_UPSTREAM; /* For FREE macro assertion */
RcvDataBufferHdr->Size =
SXG_RCV_BUFFER_DATA_SIZE(BufferSize);
SXG_ALLOCATE_RCV_PACKET(adapter, RcvDataBufferHdr);
+ //ASK hardcoded 2048
+ RcvDataBufferHdr->PhysicalAddress = pci_map_single(adapter->pcidev,
+ RcvDataBufferHdr->SxgDumbRcvPacket->data,
+ 2048,
+ PCI_DMA_FROMDEVICE);
if (RcvDataBufferHdr->SxgDumbRcvPacket == NULL)
goto fail;
@@ -3240,8 +3327,6 @@ static void sxg_allocate_sgl_buffer_complete(struct adapter_t *adapter,
adapter, SxgSgl, Length, 0);
}
-static unsigned char temp_mac_address[6] =
- { 0x00, 0xab, 0xcd, 0xef, 0x12, 0x69 };
static void sxg_adapter_set_hwaddr(struct adapter_t *adapter)
{
@@ -3262,6 +3347,7 @@ static void sxg_adapter_set_hwaddr(struct adapter_t *adapter)
}
if (adapter->netdev) {
memcpy(adapter->netdev->dev_addr, adapter->currmacaddr, 6);
+ memcpy(adapter->netdev->perm_addr, adapter->currmacaddr, 6);
}
/* DBG_ERROR ("%s EXIT port %d\n", __func__, adapter->port); */
sxg_dbg_macaddrs(adapter);
@@ -3395,6 +3481,7 @@ static int sxg_initialize_adapter(struct adapter_t *adapter)
/* SlicCheckForHang or SlicDumpThread will take it from here. */
adapter->Dead = FALSE;
adapter->PingOutstanding = FALSE;
+ adapter->State = SXG_STATE_RUNNING;
SXG_TRACE(TRACE_SXG, SxgTraceBuffer, TRACE_NOISY, "XInit",
adapter, 0, 0, 0);
@@ -3448,10 +3535,16 @@ static int sxg_fill_descriptor_block(struct adapter_t *adapter,
for (i = 0; i < SXG_RCV_DESCRIPTORS_PER_BLOCK; i++) {
SXG_GET_RCV_DATA_BUFFER(adapter, RcvDataBufferHdr);
ASSERT(RcvDataBufferHdr);
+ ASSERT(RcvDataBufferHdr->SxgDumbRcvPacket);
SXG_REINIATIALIZE_PACKET(RcvDataBufferHdr->SxgDumbRcvPacket);
RcvDataBufferHdr->State = SXG_BUFFER_ONCARD;
RcvDescriptorBlock->Descriptors[i].VirtualAddress =
(void *)RcvDataBufferHdr;
+ if (i == 0)
+ printk("ASK:sxg_fill_descriptor_block: first virt address %p\n", RcvDataBufferHdr);
+ if (i == (SXG_RCV_DESCRIPTORS_PER_BLOCK - 1))
+ printk("ASK:sxg_fill_descriptor_block: last virt address %p\n", RcvDataBufferHdr);
+
RcvDescriptorBlock->Descriptors[i].PhysicalAddress =
RcvDataBufferHdr->PhysicalAddress;
}
@@ -3503,6 +3596,7 @@ static void sxg_stock_rcv_buffers(struct adapter_t *adapter)
ReceiveBufferSize),
SXG_BUFFER_TYPE_RCV);
}
+ printk("ASK:sxg_stock_rcv_buffers: RcvBuffersOnCard %d\n", adapter->RcvBuffersOnCard);
/* Now grab the RcvQLock lock and proceed */
spin_lock(&adapter->RcvQLock);
while (adapter->RcvBuffersOnCard < SXG_RCV_DATA_BUFFERS) {
diff --git a/drivers/staging/sxg/sxg.h b/drivers/staging/sxg/sxg.h
index 653cf3ba0c4c..77a689ed5d72 100644
--- a/drivers/staging/sxg/sxg.h
+++ b/drivers/staging/sxg/sxg.h
@@ -141,7 +141,7 @@ struct SXG_STATS {
#define SXG_ALLOCATE_RCV_PACKET(_pAdapt, _RcvDataBufferHdr) { \
struct sk_buff * skb; \
- skb = alloc_skb(2048, GFP_ATOMIC); \
+ skb = netdev_alloc_skb(_pAdapt->netdev, 2048); \
if (skb) { \
(_RcvDataBufferHdr)->skb = skb; \
skb->next = NULL; \
@@ -207,7 +207,7 @@ struct SXG_STATS {
(_RcvDataBufferHdr), (_Packet), \
(_Event)->Status, 0); \
ASSERT((_Event)->Length <= (_RcvDataBufferHdr)->Size); \
- Packet->len = (_Event)->Length; \
+ skb_put(Packet, (_Event)->Length); \
}
///////////////////////////////////////////////////////////////////////////////
@@ -503,10 +503,6 @@ struct adapter_t {
unsigned int port;
struct physcard_t *physcard;
unsigned int physport;
- unsigned int cardindex;
- unsigned int card_size;
- unsigned int chipid;
- unsigned int busnumber;
unsigned int slotnumber;
unsigned int functionnumber;
ushort vendid;
@@ -514,25 +510,15 @@ struct adapter_t {
ushort subsysid;
u32 irq;
- void * sxg_adapter;
- u32 nBusySend;
-
void __iomem * base_addr;
u32 memorylength;
u32 drambase;
u32 dramlength;
- unsigned int queues_initialized;
- unsigned int allocated;
unsigned int activated;
u32 intrregistered;
unsigned int isp_initialized;
- unsigned int gennumber;
- u32 curaddrupper;
- u32 isrcopy;
unsigned char state;
unsigned char linkstate;
- unsigned char linkspeed;
- unsigned char linkduplex;
unsigned int flags;
unsigned char macaddr[6];
unsigned char currmacaddr[6];
@@ -581,8 +567,6 @@ struct adapter_t {
u32 PowerState; // NDIS power state
struct adapter_t *Next; // Linked list
ushort AdapterID; // 1..n
- unsigned char MacAddr[6]; // Our permanent HW mac address
- unsigned char CurrMacAddr[6]; // Our Current mac address
p_net_device netdev;
p_net_device next_netdevice;
struct pci_dev * pcidev;
@@ -597,17 +581,11 @@ struct adapter_t {
struct SXG_HW_REGS *HwRegs; // Sahara HW Register Memory (BAR0/1)
struct SXG_UCODE_REGS *UcodeRegs; // Microcode Register Memory (BAR2/3)
struct SXG_TCB_REGS *TcbRegs; // Same as Ucode regs - See sxghw.h
- ushort ResetDpcCount; // For timeout
- ushort RssDpcCount; // For timeout
- ushort VendorID; // Vendor ID
- ushort DeviceID; // Device ID
- ushort SubSystemID; // Sub-System ID
- ushort FrameSize; // Maximum frame size
+ ushort FrameSize; // Maximum frame size
u32 * DmaHandle; // NDIS DMA handle
u32 * PacketPoolHandle; // Used with NDIS 5.2 only. Don't ifdef out
u32 * BufferPoolHandle; // Used with NDIS 5.2 only. Don't ifdef out
u32 MacFilter; // NDIS MAC Filter
- ushort IpId; // For slowpath
struct SXG_EVENT_RING *EventRings; // Host event rings. 1/CPU to 16 max
dma_addr_t PEventRings; // Physical address
u32 NextEvent[SXG_MAX_RSS]; // Current location in ring
@@ -690,9 +668,6 @@ struct adapter_t {
// Put preprocessor-conditional fields at the end so we don't
// have to recompile sxgdbg everytime we reconfigure the driver
/////////////////////////////////////////////////////////////////////
- void * PendingSetRss; // Pending RSS parameter change
- u32 IPv4HdrSize; // Shared 5.2/6.0 encap param
- unsigned char * InterruptInfo; // Allocated by us during AddDevice
#if defined(CONFIG_X86)
u32 AddrUpper; // Upper 32 bits of 64-bit register
#endif
diff --git a/drivers/staging/sxg/sxgdbg.h b/drivers/staging/sxg/sxgdbg.h
index bb58ddf39f30..ce9e3cd13d87 100644
--- a/drivers/staging/sxg/sxgdbg.h
+++ b/drivers/staging/sxg/sxgdbg.h
@@ -46,12 +46,13 @@
#define ATKDBG 1
#define ATK_TRACE_ENABLED 1
-#define DBG_ERROR(n, args...) printk(KERN_EMERG n, ##args)
+#define DBG_ERROR(n, args...) printk(KERN_WARNING n, ##args)
#ifdef ASSERT
#undef ASSERT
#endif
+#define SXG_ASSERT_ENABLED
#ifdef SXG_ASSERT_ENABLED
#ifndef ASSERT
#define ASSERT(a) \
diff --git a/drivers/staging/sxg/sxghif.h b/drivers/staging/sxg/sxghif.h
index a4e94685c544..56378f1973fe 100644
--- a/drivers/staging/sxg/sxghif.h
+++ b/drivers/staging/sxg/sxghif.h
@@ -22,7 +22,9 @@ struct SXG_UCODE_REGS {
u32 RsvdReg5; // Code = 5 - TOE -NA
u32 CardUp; // Code = 6 - Microcode initialized when 1
u32 RsvdReg7; // Code = 7 - TOE -NA
- u32 CodeNotUsed[8]; // Codes 8-15 not used. ExCode = 0
+ u32 ConfigStat; // Code = 8 - Configuration data load status
+ u32 RsvdReg9; // Code = 9 - TOE -NA
+ u32 CodeNotUsed[6]; // Codes 10-15 not used. ExCode = 0
// This brings us to ExCode 1 at address 0x40 = Interrupt status pointer
u32 Isp; // Code = 0 (extended), ExCode = 1
u32 PadEx1[15]; // Codes 1-15 not used with extended codes
@@ -53,7 +55,7 @@ struct SXG_UCODE_REGS {
// ExCode 10 = Receive ring size
u32 RcvSize; // Code = 0 (extended), ExCode = 10
u32 PadEx10[15];
- // ExCode 11 = Read EEPROM Config
+ // ExCode 11 = Read EEPROM/Flash Config
u32 Config; // Code = 0 (extended), ExCode = 11
u32 PadEx11[15];
// ExCode 12 = Multicast bits 31:0
@@ -77,15 +79,16 @@ struct SXG_UCODE_REGS {
// ExCode 18 = Slowpath Send Index Address
u32 SPSendIndex; // Code = 0 (extended), ExCode = 18
u32 PadEx18[15];
- u32 RsvdXF; // Code = 0 (extended), ExCode = 19
+ // ExCode 19 = Get ucode statistics
+ u32 GetUcodeStats; // Code = 0 (extended), ExCode = 19
u32 PadEx19[15];
- // ExCode 20 = Aggregation
+ // ExCode 20 = Aggregation - See sxgmisc.c:SxgSetInterruptAggregation
u32 Aggregation; // Code = 0 (extended), ExCode = 20
u32 PadEx20[15];
// ExCode 21 = Receive MDL push timer
u32 PushTicks; // Code = 0 (extended), ExCode = 21
u32 PadEx21[15];
- // ExCode 22 = TOE NA
+ // ExCode 22 = ACK Frequency
u32 AckFrequency; // Code = 0 (extended), ExCode = 22
u32 PadEx22[15];
// ExCode 23 = TOE NA
@@ -139,8 +142,14 @@ struct SXG_UCODE_REGS {
((((_MessageId) << SXG_ICR_MSGID_SHIFT) & \
SXG_ICR_MSGID_MASK) | (_Data))
-// The Microcode supports up to 16 RSS queues
-#define SXG_MAX_RSS 16
+#define SXG_MIN_AGG_DEFAULT 0x0010 // Minimum aggregation default
+#define SXG_MAX_AGG_DEFAULT 0x0040 // Maximum aggregation default
+#define SXG_MAX_AGG_SHIFT 16 // Maximum in top 16 bits of register
+#define SXG_AGG_XMT_DISABLE 0x80000000 // Disable interrupt aggregation on xmt
+
+// The Microcode supports up to 8 RSS queues
+#define SXG_MAX_RSS 8
+
#define SXG_MAX_RSS_TABLE_SIZE 256 // 256-byte max
#define SXG_RSS_TCP6 0x00000001 // RSS TCP over IPv6
@@ -156,11 +165,15 @@ struct SXG_UCODE_REGS {
#define SXG_XMT_CPUID_SHIFT 16
-#if VPCI
-#define SXG_CHECK_FOR_HANG_TIME 3000
-#else
+// Status returned by ucode in the ConfigStat reg (see above) when attempted
+// to load configuration data from the EEPROM/Flash.
+#define SXG_CFG_TIMEOUT 1 // init value - timeout if unchanged
+#define SXG_CFG_LOAD_EEPROM 2 // config data loaded from EEPROM
+#define SXG_CFG_LOAD_FLASH 3 // config data loaded from flash
+#define SXG_CFG_LOAD_INVALID 4 // no valid config data found
+#define SXG_CFG_LOAD_ERROR 5 // hardware error
+
#define SXG_CHECK_FOR_HANG_TIME 5
-#endif
/*
* TCB registers - This is really the same register memory area as UCODE_REGS
@@ -176,10 +189,11 @@ struct SXG_TCB_REGS {
u32 Rsvd1; /* Code = 3 - TOE NA */
u32 Rsvd2; /* Code = 4 - TOE NA */
u32 Rsvd3; /* Code = 5 - TOE NA */
- u32 Invalid; /* Code = 6 - Reserved for "CardUp" see above */
+ u32 Invalid1; /* Code = 6 - Reserved for "CardUp" see above */
u32 Rsvd4; /* Code = 7 - TOE NA */
- u32 Rsvd5; /* Code = 8 - TOE NA */
- u32 Pad[7]; /* Codes 8-15 - Not used. */
+ u32 Invalid2; /* Code = 8 - Reserved for "ConfigStat" see above */
+ u32 Rsvd5; /* Code = 9 - TOE NA */
+ u32 Pad[6]; /* Codes 10-15 - Not used. */
};
/***************************************************************************
@@ -319,7 +333,7 @@ struct SXG_EVENT {
// Size must be power of 2, between 128 and 16k
#define EVENT_RING_SIZE 4096 // ??
#define EVENT_RING_BATCH 16 // Hand entries back 16 at a time.
-#define EVENT_BATCH_LIMIT 256 // Stop processing events after 256 (16 * 16)
+#define EVENT_BATCH_LIMIT 256 // Stop processing events after 4096 (256 * 16)
struct SXG_EVENT_RING {
struct SXG_EVENT Ring[EVENT_RING_SIZE];
@@ -664,23 +678,22 @@ enum SXG_BUFFER_TYPE {
* => Total = ~1282k/block
*
***************************************************************************/
-#define SXG_RCV_DATA_BUFFERS 4096 // Amount to give to the card
-#define SXG_INITIAL_RCV_DATA_BUFFERS 8192 // Initial pool of buffers
-#define SXG_MIN_RCV_DATA_BUFFERS 2048 // Minimum amount and when to get more
-#define SXG_MAX_RCV_BLOCKS 128 // = 16384 receive buffers
+#define SXG_RCV_DATA_BUFFERS 8192 // Amount to give to the card
+#define SXG_INITIAL_RCV_DATA_BUFFERS 16384 // Initial pool of buffers
+#define SXG_MIN_RCV_DATA_BUFFERS 4096 // Minimum amount and when to get more
+#define SXG_MAX_RCV_BLOCKS 256 // = 32k receive buffers
// Receive buffer header
struct SXG_RCV_DATA_BUFFER_HDR {
dma_addr_t PhysicalAddress; // Buffer physical address
// Note - DO NOT USE the VirtualAddress field to locate data.
// Use the sxg.h:SXG_RECEIVE_DATA_LOCATION macro instead.
- void *VirtualAddress; // Start of buffer
- struct LIST_ENTRY FreeList; // Free queue of buffers
+ void *VirtualAddress; // Start of buffer
+ u32 Size; // Buffer size
struct SXG_RCV_DATA_BUFFER_HDR *Next; // Fastpath data buffer queue
- u32 Size; // Buffer size
- u32 ByteOffset; // See SXG_RESTORE_MDL_OFFSET
- unsigned char State; // See SXG_BUFFER state above
- unsigned char Status; // Event status (to log PUSH)
+ struct LIST_ENTRY FreeList; // Free queue of buffers
+ unsigned char State; // See SXG_BUFFER state above
+ unsigned char Status; // Event status (to log PUSH)
struct sk_buff *skb; // Double mapped (nbl and pkt)
};
@@ -744,15 +757,6 @@ struct SXG_RCV_BLOCK_HDR {
(sizeof(struct SXG_RCV_DESCRIPTOR_BLOCK)) + \
(sizeof(struct SXG_RCV_DESCRIPTOR_BLOCK_HDR)))
-// Use the miniport reserved portion of the NBL to locate
-// our SXG_RCV_DATA_BUFFER_HDR structure.
-struct SXG_RCV_NBL_RESERVED {
- struct SXG_RCV_DATA_BUFFER_HDR *RcvDataBufferHdr;
- void *Available;
-};
-
-#define SXG_RCV_NBL_BUFFER_HDR(_NBL) (((PSXG_RCV_NBL_RESERVED)NET_BUFFER_LIST_MINIPORT_RESERVED(_NBL))->RcvDataBufferHdr)
-
/***************************************************************************
* Scatter gather list buffer
***************************************************************************/
@@ -760,6 +764,102 @@ struct SXG_RCV_NBL_RESERVED {
#define SXG_MIN_SGL_BUFFERS 2048 // Minimum amount and when to get more
#define SXG_MAX_SGL_BUFFERS 16384 // Maximum to allocate (note ADAPT:ushort)
+// SXG_SGL_POOL_PROPERTIES - This structure is used to define a pool of SGL buffers.
+// These buffers are allocated out of shared memory and used to
+// contain a physical scatter gather list structure that is shared
+// with the card.
+//
+// We split our SGL buffers into multiple pools based on size. The motivation
+// is that some applications perform very large I/Os (1MB for example), so
+// we need to be able to allocate an SGL to accommodate such a request.
+// But such an SGL would require 256 24-byte SG entries - ~6k.
+// Given that the vast majority of I/Os are much smaller than 1M, allocating
+// a single pool of SGL buffers would be a horribly inefficient use of
+// memory.
+//
+// The following structure includes two fields relating to its size.
+// The NBSize field specifies the largest NET_BUFFER that can be handled
+// by the particular pool. The SGEntries field defines the size, in
+// entries, of the SGL for that pool. The SGEntries is determined by
+// dividing the NBSize by the expected page size (4k), and then padding
+// it by some appropriate amount as insurance (20% or so..??).
+typedef struct _SXG_SGL_POOL_PROPERTIES {
+ u32 NBSize; // Largest NET_BUFFER size for this pool
+ ushort SGEntries; // Number of entries in SGL
+ ushort InitialBuffers; // Number to allocate at initializationtime
+ ushort MinBuffers; // When to get more
+ ushort MaxBuffers; // When to stop
+ ushort PerCpuThreshold;// See sxgh.h:SXG_RESOURCES
+} SXG_SGL_POOL_PROPERTIES, *PSXG_SGL_POOL_PROPERTIES;
+
+// At the moment I'm going to statically initialize 4 pools:
+// 100k buffer pool: The vast majority of the expected buffers are expected to
+// be less than or equal to 100k. At 30 entries per and
+// 8k initial buffers amounts to ~4MB of memory
+// NOTE - This used to be 64K with 20 entries, but during
+// WHQL NDIS 6.0 Testing (2c_mini6stress) MS does their
+// best to send absurd NBL's with ridiculous SGLs, we
+// have received 400byte sends contained in SGL's that
+// have 28 entries
+// 1M buffer pool: Buffers between 64k and 1M. Allocate 256 initial buffers
+// with 300 entries each => ~2MB of memory
+// 5M buffer pool: Not expected often, if at all. 32 initial buffers
+// at 1500 entries each => ~1MB of memory
+// 10M buffer pool: Not expected at all, except under pathelogical conditions.
+// Allocate one at initialization time.
+// Note - 10M is the current limit of what we can
+// realistically support due to the sahara SGL
+// bug described in the SAHARA SGL WORKAROUND below
+//
+// We will likely adjust the number of pools and/or pool properties over time..
+#define SXG_NUM_SGL_POOLS 4
+#define INITIALIZE_SGL_POOL_PROPERTIES \
+SXG_SGL_POOL_PROPERTIES SxgSglPoolProperties[SXG_NUM_SGL_POOLS] = \
+{ \
+ { 102400, 30, 8192, 2048, 16384, 256}, \
+ { 1048576, 300, 256, 128, 1024, 16}, \
+ { 5252880, 1500, 32, 16, 512, 0}, \
+ {10485760, 2700, 2, 4, 32, 0}, \
+};
+
+extern SXG_SGL_POOL_PROPERTIES SxgSglPoolProperties[];
+
+#define SXG_MAX_SGL_BUFFER_SIZE \
+ SxgSglPoolProperties[SXG_NUM_SGL_POOLS - 1].NBSize
+
+// SAHARA SGL WORKAROUND!!
+// The current Sahara card uses a 16-bit counter when advancing
+// SGL address locations. This means that if an SGL crosses
+// a 64k boundary, the hardware will actually skip back to
+// the start of the previous 64k boundary, with obviously
+// undesirable results.
+//
+// We currently workaround this issue by allocating SGL buffers
+// in 64k blocks and skipping over buffers that straddle the boundary.
+#define SXG_INVALID_SGL(_SxgSgl) \
+ (((_SxgSgl)->PhysicalAddress.LowPart & 0xFFFF0000) != \
+ (((_SxgSgl)->PhysicalAddress.LowPart + \
+ SXG_SGL_SIZE((_SxgSgl)->Pool)) & 0xFFFF0000))
+
+// Allocate SGLs in blocks so we can skip over invalid entries.
+// We allocation 64k worth of SGL buffers, including the
+// SXG_SGL_BLOCK_HDR, plus one for padding
+#define SXG_SGL_BLOCK_SIZE 65536
+#define SXG_SGL_ALLOCATION_SIZE(_Pool) SXG_SGL_BLOCK_SIZE + SXG_SGL_SIZE(_Pool)
+
+typedef struct _SXG_SGL_BLOCK_HDR {
+ ushort Pool; // Associated SGL pool
+ struct LIST_ENTRY List; // SXG_SCATTER_GATHER blocks
+ dma64_addr_t PhysicalAddress;// physical address
+} SXG_SGL_BLOCK_HDR, *PSXG_SGL_BLOCK_HDR;
+
+
+// The following definition denotes the maximum block of memory that the
+// card can DMA to. It is specified in the call to NdisMRegisterScatterGatherDma.
+// For now, use the same value as used in the Slic/Oasis driver, which
+// is 128M. That should cover any expected MDL that I can think of.
+#define SXG_MAX_PHYS_MAP (1024 * 1024 * 128)
+
// Self identifying structure type
enum SXG_SGL_TYPE {
SXG_SGL_DUMB, // Dumb NIC SGL
@@ -767,32 +867,6 @@ enum SXG_SGL_TYPE {
SXG_SGL_CHIMNEY // Chimney offload SGL
};
-// Note - the description below is Microsoft specific
-//
-// The following definition specifies the amount of shared memory to allocate
-// for the SCATTER_GATHER_LIST portion of the SXG_SCATTER_GATHER data structure.
-// The following considerations apply when setting this value:
-// - First, the Sahara card is designed to read the Microsoft SGL structure
-// straight out of host memory. This means that the SGL must reside in
-// shared memory. If the length here is smaller than the SGL for the
-// NET_BUFFER, then NDIS will allocate its own buffer. The buffer
-// that NDIS allocates is not in shared memory, so when this happens,
-// the SGL will need to be copied to a set of SXG_SCATTER_GATHER buffers.
-// In other words.. we don't want this value to be too small.
-// - On the other hand.. we're allocating up to 16k of these things. If
-// we make this too big, we start to consume a ton of memory..
-// At the moment, I'm going to limit the number of SG entries to 150.
-// If each entry maps roughly 4k, then this should cover roughly 600kB
-// NET_BUFFERs. Furthermore, since each entry is 24 bytes, the total
-// SGE portion of the structure consumes 3600 bytes, which should allow
-// the entire SXG_SCATTER_GATHER structure to reside comfortably within
-// a 4k block, providing the remaining fields stay under 500 bytes.
-//
-// So with 150 entries, the SXG_SCATTER_GATHER structure becomes roughly
-// 4k. At 16k of them, that amounts to 64M of shared memory. A ton, but
-// manageable.
-#define SXG_SGL_ENTRIES 150
-
// The ucode expects an NDIS SGL structure that
// is formatted for an x64 system. When running
// on an x64 system, we can simply hand the NDIS SGL
@@ -806,31 +880,19 @@ struct SXG_X64_SGE {
u64 Reserved; // u32 * in wdm.h. Force to 8 bytes
};
-struct SCATTER_GATHER_ELEMENT {
- dma64_addr_t Address; // same as wdm.h
- u32 Length; // same as wdm.h
- u32 CompilerPad; // The compiler pads to 8-bytes
- u64 Reserved; // u32 * in wdm.h. Force to 8 bytes
-};
-
-struct SCATTER_GATHER_LIST {
- u32 NumberOfElements;
- u32 *Reserved;
- struct SCATTER_GATHER_ELEMENT Elements[];
-};
-
-// The card doesn't care about anything except elements, so
-// we can leave the u32 * reserved field alone in the following
-// SGL structure. But redefine from wdm.h:SCATTER_GATHER_LIST so
-// we can specify SXG_X64_SGE and define a fixed number of elements
+// Our SGL structure - Essentially the same as
+// wdm.h:SCATTER_GATHER_LIST. Note the variable number of
+// elements based on the pool specified above
struct SXG_X64_SGL {
u32 NumberOfElements;
u32 *Reserved;
- struct SXG_X64_SGE Elements[SXG_SGL_ENTRIES];
+ struct SXG_X64_SGE Elements[1]; // Variable
};
struct SXG_SCATTER_GATHER {
enum SXG_SGL_TYPE Type; // FIRST! Dumb-nic or offload
+ ushort Pool; // Associated SGL pool
+ ushort Entries; // SGL total entries
void *adapter; // Back pointer to adapter
struct LIST_ENTRY FreeList; // Free SXG_SCATTER_GATHER blocks
struct LIST_ENTRY AllList; // All SXG_SCATTER_GATHER blocks
@@ -842,17 +904,40 @@ struct SXG_SCATTER_GATHER {
u32 CurOffset; // Current SGL offset
u32 SglRef; // SGL reference count
struct VLAN_HDR VlanTag; // VLAN tag to be inserted into SGL
- struct SCATTER_GATHER_LIST *pSgl; // SGL Addr. Possibly &Sgl
- struct SXG_X64_SGL Sgl; // SGL handed to card
+ struct SXG_X64_SGL *pSgl; // SGL Addr. Possibly &Sgl
+ struct SXG_X64_SGL Sgl; // SGL handed to card
};
+// Note - the "- 1" is because SXG_SCATTER_GATHER=>SXG_X64_SGL includes 1 SGE..
+#define SXG_SGL_SIZE(_Pool) \
+ (sizeof(struct SXG_SCATTER_GATHER) + \
+ ((SxgSglPoolProperties[_Pool].SGEntries - 1) * sizeof(struct SXG_X64_SGE)))
+
#if defined(CONFIG_X86_64)
-#define SXG_SGL_BUFFER(_SxgSgl) (&_SxgSgl->Sgl)
-#define SXG_SGL_BUF_SIZE sizeof(struct SXG_X64_SGL)
+#define SXG_SGL_BUFFER(_SxgSgl) (&_SxgSgl->Sgl)
+#define SXG_SGL_BUFFER_LENGTH(_SxgSgl) ((_SxgSgl)->Entries * sizeof(struct SXG_X64_SGE))
+#define SXG_SGL_BUF_SIZE sizeof(struct SXG_X64_SGL)
#elif defined(CONFIG_X86)
// Force NDIS to give us it's own buffer so we can reformat to our own
-#define SXG_SGL_BUFFER(_SxgSgl) NULL
+#define SXG_SGL_BUFFER(_SxgSgl) NULL
+#define SXG_SGL_BUFFER_LENGTH(_SxgSgl) 0
#define SXG_SGL_BUF_SIZE 0
#else
#error staging: sxg: driver is for X86 only!
#endif
+
+/***************************************************************************
+ * Microcode statistics
+ ***************************************************************************/
+typedef struct _SXG_UCODE_STATS {
+ u32 RPDQOflow; // PDQ overflow (unframed ie dq & drop 1st)
+ u32 XDrops; // Xmt drops due to no xmt buffer
+ u32 ERDrops; // Rcv drops due to ER full
+ u32 NBDrops; // Rcv drops due to out of host buffers
+ u32 PQDrops; // Rcv drops due to PDQ full
+ u32 BFDrops; // Rcv drops due to bad frame: no link addr match, frlen > max
+ u32 UPDrops; // Rcv drops due to UPFq full
+ u32 XNoBufs; // Xmt drop due to no DRAM Xmit buffer or PxyBuf
+} SXG_UCODE_STATS, *PSXG_UCODE_STATS;
+
+
diff --git a/drivers/staging/sxg/sxghw.h b/drivers/staging/sxg/sxghw.h
index b0efff9ff117..bac0cdf24ab0 100644
--- a/drivers/staging/sxg/sxghw.h
+++ b/drivers/staging/sxg/sxghw.h
@@ -11,7 +11,7 @@
/*******************************************************************************
- * Configuration space
+ * PCI Configuration space
*******************************************************************************/
/* PCI Vendor ID */
#define SXG_VENDOR_ID 0x139A /* Alacritech's Vendor ID */
@@ -214,6 +214,11 @@ struct SXG_HW_REGS {
#define RCV_CONFIG_TZIPV4 0x00800000 // Include TCP port w/ IPv4 toeplitz
#define RCV_CONFIG_FLUSH 0x00400000 // Flush buffers
#define RCV_CONFIG_PRIORITY_MASK 0x00300000 // Priority level
+#define RCV_CONFIG_CONN_MASK 0x000C0000 // Number of connections
+#define RCV_CONFIG_CONN_4K 0x00000000 // 4k connections
+#define RCV_CONFIG_CONN_2K 0x00040000 // 2k connections
+#define RCV_CONFIG_CONN_1K 0x00080000 // 1k connections
+#define RCV_CONFIG_CONN_512 0x000C0000 // 512 connections
#define RCV_CONFIG_HASH_MASK 0x00030000 // Hash depth
#define RCV_CONFIG_HASH_8 0x00000000 // Hash depth 8
#define RCV_CONFIG_HASH_16 0x00010000 // Hash depth 16
@@ -526,6 +531,21 @@ struct PHY_UCODE {
/*****************************************************************************
+ * Slow Bus Register Definitions
+ *****************************************************************************/
+
+// Module 0 registers
+#define GPIO_L_IN 0x15 // GPIO input (low)
+#define GPIO_L_OUT 0x16 // GPIO output (low)
+#define GPIO_L_DIR 0x17 // GPIO direction (low)
+#define GPIO_H_IN 0x19 // GPIO input (high)
+#define GPIO_H_OUT 0x1A // GPIO output (high)
+#define GPIO_H_DIR 0x1B // GPIO direction (high)
+
+// Definitions for other slow bus registers can be added as needed
+
+
+/*****************************************************************************
* Transmit Sequencer Command Descriptor definitions
*****************************************************************************/
@@ -613,8 +633,8 @@ struct RCV_BUF_HDR {
ushort SktHash; // Socket hash
unsigned char TcpHdrOffset; // TCP header offset into packet
unsigned char IpHdrOffset; // IP header offset into packet
- u32 TpzHash; // Toeplitz hash
- ushort Reserved; // Reserved
+ u32 TpzHash; // Toeplitz hash
+ ushort Reserved; // Reserved
};
#pragma pack(pop)
@@ -662,26 +682,43 @@ struct RCV_BUF_HDR {
/*****************************************************************************
* SXG EEPROM/Flash Configuration Definitions
*****************************************************************************/
-#pragma pack(push, 1)
+// Location of configuration data in EEPROM or Flash
+#define EEPROM_CONFIG_START_ADDR 0x00 // start addr for config info in EEPROM
+#define FLASH_CONFIG_START_ADDR 0x80 // start addr for config info in Flash
+
+// Configuration data section defines
+#define HW_CFG_SECTION_SIZE 512 // size of H/W section
+#define HW_CFG_SECTION_SIZE_A 256 // size of H/W section (Sahara rev A)
+#define SW_CFG_SECTION_START 512 // starting location (offset) of S/W section
+#define SW_CFG_SECTION_START_A 256 // starting location (offset) of S/W section (Sahara rev A)
+#define SW_CFG_SECTION_SIZE 128 // size of S/W section
+
+#define HW_CFG_MAGIC_WORD 0xA5A5 // H/W configuration data magic word
+// Goes in Addr field of first HW_CFG_DATA entry
+#define HW_CFG_TERMINATOR 0xFFFF // H/W configuration data terminator
+// Goes in Addr field of last HW_CFG_DATA entry
+#define SW_CFG_MAGIC_WORD 0x5A5A // S/W configuration data magic word
-/* */
+#pragma pack(push, 1)
+// Structure for an element of H/W configuration data.
+// Read by the Sahara hardware
struct HW_CFG_DATA {
ushort Addr;
- union {
- ushort Data;
- ushort Checksum;
- };
+ ushort Data;
};
-/* */
-#define NUM_HW_CFG_ENTRIES ((128/sizeof(struct HW_CFG_DATA)) - 4)
+// Number of HW_CFG_DATA structures to put in the configuration data
+// data structure (SXG_CONFIG or SXG_CONFIG_A). The number is computed
+// to fill the entire H/W config section of the structure.
+#define NUM_HW_CFG_ENTRIES (HW_CFG_SECTION_SIZE / sizeof(struct HW_CFG_DATA))
+#define NUM_HW_CFG_ENTRIES_A (HW_CFG_SECTION_SIZE_A / sizeof(struct HW_CFG_DATA))
-/* MAC address */
+/* MAC address structure */
struct SXG_CONFIG_MAC {
unsigned char MacAddr[6]; /* MAC Address */
};
-/* */
+/* FRU data structure */
struct ATK_FRU {
unsigned char PartNum[6];
unsigned char Revision[2];
@@ -697,31 +734,110 @@ struct ATK_FRU {
#define EMC_FRU_FORMAT 0x0005
#define NO_FRU_FORMAT 0xFFFF
+#define ATK_OEM_ASSY_SIZE 10 // assy num is 9 chars plus \0
+
+// OEM FRU structure for Alacritech
+struct ATK_OEM {
+ unsigned char Assy[ATK_OEM_ASSY_SIZE];
+};
+
+#define OEM_EEPROM_FRUSIZE 74 // size of OEM fru info - size
+// chosen to fill out the S/W section
+
+union OEM_FRU { // OEM FRU information
+ unsigned char OemFru[OEM_EEPROM_FRUSIZE];
+ struct ATK_OEM AtkOem;
+};
+
+// Structure to hold the S/W configuration data.
+struct SW_CFG_DATA {
+ ushort MagicWord; // Magic word for section 2
+ ushort Version; // Format version
+ struct SXG_CONFIG_MAC MacAddr[4]; // space for 4 MAC addresses
+ struct ATK_FRU AtkFru; // FRU information
+ ushort OemFruFormat; // OEM FRU format type
+ union OEM_FRU OemFru; // OEM FRU information
+ ushort Checksum; // Checksum of section 2
+};
+
+
/* EEPROM/Flash Format */
struct SXG_CONFIG {
- /* */
- /* Section 1 (128 bytes) */
- /* */
- ushort MagicWord; /* EEPROM/FLASH Magic code 'A5A5' */
- ushort SpiClks; /* SPI bus clock dividers */
+ /*
+ * H/W Section - Read by Sahara hardware (512 bytes)
+ */
struct HW_CFG_DATA HwCfg[NUM_HW_CFG_ENTRIES];
- /* */
- /* */
- /* */
- ushort Version; /* EEPROM format version */
- struct SXG_CONFIG_MAC MacAddr[4]; /* space for 4 MAC addresses */
- struct ATK_FRU AtkFru; /* FRU information */
- ushort OemFruFormat; /* OEM FRU format type */
- unsigned char OemFru[76]; /* OEM FRU information (optional) */
- ushort Checksum; /* Checksum of section 2 */
- /* CS info XXXTODO */
+ /*
+ * S/W Section - Other configuration data (128 bytes)
+ */
+ struct SW_CFG_DATA SwCfg;
+};
+
+// EEPROM/Flash Format (Sahara rev A)
+struct SXG_CONFIG_A {
+ /*
+ * H/W Section - Read by Sahara hardware (256 bytes)
+ */
+ struct HW_CFG_DATA HwCfg[NUM_HW_CFG_ENTRIES_A];
+
+ /*
+ * S/W Section - Other configuration data (128 bytes)
+ */
+ struct SW_CFG_DATA SwCfg;
};
+
+#ifdef WINDOWS_COMPILER
+// The following macro is something of a kludge, but it is the only way
+// that I could find to catch certain programming errors at compile time.
+// If the asserted condition is true, then nothing happens. If false, then
+// the compiler tries to typedef an array with -1 members, which generates
+// an error. Unfortunately, the error message is meaningless, but at least
+// it catches the problem. This macro would be unnecessary if the compiler
+// allowed the sizeof and offsetof macros to be used in the #if directive.
+#define compile_time_assert(cond) \
+ typedef char comp_error[(cond) ? 1 : -1]
+
+// A compiler error on either of the next two lines indicates that the SXG_CONFIG
+// structure was built incorrectly. Unfortunately, the error message produced
+// is meaningless. But this is apparently the only way to catch this problem
+// at compile time.
+compile_time_assert (offsetof(SXG_CONFIG, SwCfg) == SW_CFG_SECTION_START);
+compile_time_assert (sizeof(SXG_CONFIG) == HW_CFG_SECTION_SIZE + SW_CFG_SECTION_SIZE);
+
+compile_time_assert (offsetof(SXG_CONFIG_A, SwCfg) == SW_CFG_SECTION_START_A);
+compile_time_assert (sizeof(SXG_CONFIG_A) == HW_CFG_SECTION_SIZE_A + SW_CFG_SECTION_SIZE);
+#endif
+/*
+ * Structure used to pass information between driver and user-mode
+ * control application
+ */
+struct ADAPT_USERINFO {
+ bool LinkUp;
+ // u32 LinkState; // use LinkUp - any need for other states?
+ u32 LinkSpeed; // not currently needed
+ u32 LinkDuplex; // not currently needed
+ u32 Port; // not currently needed
+ u32 PhysPort; // not currently needed
+ ushort PciLanes;
+ unsigned char MacAddr[6];
+ unsigned char CurrMacAddr[6];
+ struct ATK_FRU AtkFru;
+ ushort OemFruFormat;
+ union OEM_FRU OemFru;
+};
+
#pragma pack(pop)
/*****************************************************************************
* Miscellaneous Hardware definitions
*****************************************************************************/
+// Type of ASIC in use
+enum ASIC_TYPE{
+ SAHARA_REV_A,
+ SAHARA_REV_B
+};
+
// Sahara (ASIC level) defines
#define SAHARA_GRAM_SIZE 0x020000 // GRAM size - 128 KB
#define SAHARA_DRAM_SIZE 0x200000 // DRAM size - 2 MB
@@ -730,5 +846,6 @@ struct SXG_CONFIG {
// Arabia (board level) defines
#define FLASH_SIZE 0x080000 // 512 KB (4 Mb)
-#define EEPROM_SIZE_XFMR 512 // true EEPROM size (bytes), including xfmr area
-#define EEPROM_SIZE_NO_XFMR 256 // EEPROM size excluding xfmr area
+#define EEPROM_SIZE_XFMR 1024 // EEPROM size (bytes), including xfmr area
+#define EEPROM_SIZE_NO_XFMR 640 // EEPROM size excluding xfmr area (512 + 128)
+#define EEPROM_SIZE_REV_A 512 // EEPROM size for Sahara rev A
generated by cgit v1.2.3-55-g7522 (git 2.39.0) at 2024-07-12 17:41:25 +0200