ti -- Alteon Networks Tigon I and Tigon II gigabit ethernet driver
device ti
options TI_PRIVATE_JUMBOS
options TI_JUMBO_HDRSPLIT
The ti driver provides support for PCI gigabit ethernet adapters based on
the Alteon Networks Tigon gigabit ethernet controller chip. The Tigon
contains an embedded R4000 CPU, gigabit MAC, dual DMA channels and a PCI
interface unit. The Tigon II contains two R4000 CPUs and other refinements.
Either chip can be used in either a 32-bit or 64-bit PCI slot.
Communication with the chip is achieved via PCI shared memory and bus
master DMA. The Tigon I and II support hardware multicast address filtering,
VLAN tag extraction and insertion, and jumbo ethernet frames
sizes up to 9000 bytes. Note that the Tigon I chipset is no longer in
active production: all new adapters should come equipped with Tigon II
chipsets.
There are several PCI boards available from both Alteon and other vendors
that use the Tigon chipset under OEM contract. The ti driver has been
tested with the following Tigon-based adapters:
+o 3Com 3c985-SX Gigabit Ethernet adapter (Tigon 1)
+o 3Com 3c985B-SX Gigabit Ethernet adapter (Tigon 2)
+o Alteon AceNIC V Gigabit Ethernet adapter (1000baseSX)
+o Alteon AceNIC V Gigabit Ethernet adapter (1000baseT)
+o Netgear GA620 Gigabit Ethernet adapter (1000baseSX)
+o Netgear GA620T Gigabit Ethernet adapter (1000baseT)
The following should also be supported but have not yet been tested:
+o Asante GigaNIX1000T Gigabit Ethernet adapter
+o Asante PCI 1000BASE-SX Gigabit Ethernet adapter
+o Digital EtherWORKS 1000SX PCI Gigabit adapter
+o Farallon PN9000SX Gigabit Ethernet adapter
+o NEC Gigabit Ethernet
+o Silicon Graphics PCI Gigabit Ethernet adapter
While the Tigon chipset supports 10, 100 and 1000Mbps speeds, support for
10 and 100Mbps speeds is only available on boards with the proper transceivers.
Most adapters are only designed to work at 1000Mbps, however
the driver should support those NICs that work at lower speeds as well.
Support for jumbo frames is provided via the interface MTU setting.
Selecting an MTU larger than 1500 bytes with the ifconfig(8) utility configures
the adapter to receive and transmit jumbo frames. Using jumbo
frames can greatly improve performance for certain tasks, such as file
transfers and data streaming.
Header splitting support for Tigon 2 boards (this option has no effect
for the Tigon 1) can be turned on with the TI_JUMBO_HDRSPLIT option. See
zero_copy(9) for more discussion on zero copy receive and header splitting.
The ti driver normally uses jumbo receive buffers allocated by the
jumbo(9) buffer allocator, but can be configured to use its own private
pool of jumbo buffers that are contiguous instead of buffers from the
jumbo allocator, which are made up of multiple page sized chunks. To
turn on private jumbos, use the TI_PRIVATE_JUMBOS option.
Support for vlans is also available using the vlan(4) mechanism. See the
vlan(4) man page for more details.
The ti driver supports the following media types:
autoselect Enable autoselection of the media type and options.
The user can manually override the autoselected
mode by adding media options to the /etc/rc.conf
file.
10baseT/UTP Set 10Mbps operation. The mediaopt option can also
be used to select either full-duplex or half-duplex
modes.
100baseTX Set 100Mbps (fast ethernet) operation. The
mediaopt option can also be used to select either
full-duplex or half-duplex modes.
1000baseSX Set 1000Mbps (gigabit ethernet) operation. Only
full full-duplex mode is supported at this speed.
The ti driver supports the following media options:
full-duplex Force full duplex operation
half-duplex Force half duplex operation.
For more information on configuring this device, see ifconfig(8).
In addition to the standard socket(2) ioctl(2) calls implemented by most
network drivers, the ti driver also includes a character device interface
that can be used for additional diagnostics, configuration and debugging.
With this character device interface, and a specially patched version of
gdb(1), the user can debug firmware running on the Tigon board.
These ioctls and their arguments are defined in the <sys/tiio.h> header
file.
TIIOCGETSTATS Return card statistics DMAed from the card into kernel
memory approximately every 2 seconds. (That time
interval can be changed via the TIIOCSETPARAMS ioctl.)
The argument is struct ti_stats.
TIIOCGETPARAMS Get various performance-related firmware parameters
that largely affect how interrupts are coalesced. The
argument is struct ti_params.
TIIOCSETPARAMS Set various performance-related firmware parameters
that largely affect how interrupts are coalesced. The
argument is struct ti_params.
TIIOCSETTRACE Tell the NIC to trace the requested types of information.
The argument is ti_trace_type.
TIIOCGETTRACE Dump the trace buffer from the card. The argument is
struct ti_trace_buf.
ALT_ATTACH This ioctl is used for compatibility with Alteon's
Solaris driver. They apparently only have one character
interface for debugging, so they have to tell it
which Tigon instance they want to debug. This ioctl is
a noop for FreeBSD.
ALT_READ_TG_MEM Read the requested memory region from the Tigon board.
The argument is struct tg_mem.
ALT_WRITE_TG_MEM Write to the requested memory region on the Tigon
board. The argument is struct tg_mem.
ALT_READ_TG_REG Read the requested register on the Tigon board. The
argument is struct tg_reg.
ALT_WRITE_TG_REG Write to the requested register on the Tigon board.
The argument is struct tg_reg.
/dev/ti[0-255] Tigon driver character interface.
ti%d: couldn't map memory A fatal initialization error has occurred.
ti%d: couldn't map interrupt A fatal initialization error has occurred.
ti%d: no memory for softc struct! The driver failed to allocate memory
for per-device instance information during initialization.
ti%d: failed to enable memory mapping! The driver failed to initialize
PCI shared memory mapping. This might happen if the card is not in a
bus-master slot.
ti%d: no memory for jumbo buffers! The driver failed to allocate memory
for jumbo frames during initialization.
ti%d: bios thinks we're in a 64 bit slot, but we aren't The BIOS has
programmed the NIC as though it had been installed in a 64-bit PCI slot,
but in fact the NIC is in a 32-bit slot. This happens as a result of a
bug in some BIOSes. This can be worked around on the Tigon II, but on
the Tigon I initialization will fail.
ti%d: board self-diagnostics failed! The ROMFAIL bit in the CPU state
register was set after system startup, indicating that the on-board NIC
diagnostics failed.
ti%d: unknown hwrev The driver detected a board with an unsupported
hardware revision. The ti driver supports revision 4 (Tigon 1) and revision
6 (Tigon 2) chips and has firmware only for those devices.
ti%d: watchdog timeout The device has stopped responding to the network,
or there is a problem with the network connection (cable).
arp(4), netintro(4), ng_ether(4), vlan(4), ifconfig(8), jumbo(9),
zero_copy(9)
Alteon Gigabit Ethernet/PCI NIC manuals,
http://sanjose.alteon.com/open.shtml.
The ti device driver first appeared in FreeBSD 3.0.
The ti driver was written by Bill Paul <[email protected]>. The header
splitting firmware modifications, character ioctl(2) interface and debugging
support were written by Kenneth Merry <[email protected]>. Initial
zero copy support was written by Andrew Gallatin <[email protected]>.
FreeBSD 5.2.1 June 26, 2002 FreeBSD 5.2.1 [ Back ] |
