Fix the IPMI regression by sending BGE_FW_DRV_STATE_UNLOAD to
ASF/IPMI firmware in driver attach phase. Sending heartheat to
ASF/IPMI is enabled only after upping interface so
setting driver state to BGE_FW_DRV_STATE_START in attach phase
broke IPMI access.
While I'm here, add NVRAM arbitration lock before performing
controller reset. ASF/IPMI firmware may be able to access the NVRAM
while controller reset is in progress. Without the arbitration
lock before resetting the controller, ASF/IPMI may not initialize
properly.
Special thanks to Miroslav Lachman who provided full remote
debugging environments.
- Make bge_lookup_{rev,vendor}() static.
- Factor out chip identification rather than duplicating the code.
- Sanitize bge_probe() a bit (don't hardcode buffer sizes, allow
bge_lookup_vendor() to return NULL so the excessive panic() three
can be removed there, etc.) and return BUS_PROBE_DEFAULT rather than
hardcoding 0.
- According to the Linux tg3 driver, BCM57791 and BCM57795 aren't
capable of Gigabit Ethernet.
- Check the return value of taskqueue_start_threads().
them, please let me know if not). Most of these are of the form:
static const struct bzzt_type {
[...list of members...]
} const bzzt_devs[] = {
[...list of initializers...]
};
The second const is unnecessary, as arrays cannot be modified anyway,
and if the elements are const, the whole thing is const automatically
(e.g. it is placed in .rodata).
I have verified this does not change the binary output of a full kernel
build (except for build timestamps embedded in the object files).
Reviewed by: yongari, marius
MFC after: 1 week
removed in r99417. bge(4) controllers can do TCP checksum offload
for IP fragmented datagrams but unlike ti(4), it lacks UDP checksum
offloading for IP fragmented datagrams. The problem was bge(4)
blindly requested TCP/UDP checksum for IP fragmented datagrams such
that it resulted in corrupted UDP datagrams before r99417.
Remove remaining code for TCP checksum offloading for IP fragmented
datagrams which should have been removed in r99417.
link at a lower speed so enabling it for fiber adapters is wrong.
Fix the issue by setting BGE_PHY_NO_WIRESPEED such that brgphy(4)
wouldn't enable the feature.
While I'm here move PHY specific feature/bug configuration to new
location(just before mii attach) for readability.
This change will enable IPMI access on 5717/5718/5719/5720 and 5761
controllers. Because ASF is not available when APE firmware is
present, bge_allow_asf tunable is ignored when driver detects APE
firmware. Also bge(4) no longer performs two resets(one blind
reset and the other reset with firmware in mind) in device attach.
Now bge(4) performs a reset with enough information in bge_reset().
The APE firmware also needs special handling to make suspend/resume
work but it was not implemented yet.
With this change, bge(4) should work on any 5717/5718/5719/5720
controllers. Special thanks to Mike Hibler at Emulab who setup
remote debugging on Dell R820. Without his help I couldn't be able
to address several issues happened on Dell Rx20 systems. And many
thanks to Broadcom for continuing to support FreeBSD!
Submitted by: davidch (initial version)
H/W donated by: Broadcom
Tested by: many
Tested on: Del R820/R720/R620/R420/R320 and HP Proliant DL 360 G8
BGE_PCI_PCISTATE register before issuing global reset. After
issuing reset, it reads BGE_PCI_PCISTATE register again and
compares the saved register value and current value. It was used to
know whether the global reset operation was completed or not.
Unfortunately, this logic caused several issues on recent BCM5717/
5718/5719 and BCM5720 controllers. It seems APE firmware accesses
some registers while global reset is in progress such that reading
BGE_PCI_PCISTATE register after reset does not yield old pre-reset
state value. This resulted in consuming too much time in global
reset and sometimes it couldn't successfully complete reset.
The BGE_MISCCFG_RESET_CORE_CLOCKS of BGE_MISC_CFG register is
self-clearing bit so driver is able to know the reset completion.
But the core-lock reset will disable indirect/flat/standard access
modes such that driver cannot poll BGE_MISCCFG_RESET_CORE_CLOCKS
bit of BGE_MISC_CFG register. So just wait enough time for
core-clock reset to complete.
Data sheet says driver should wait 100us for PCI/PCI-X devices and
100ms for PCIe devices. I chose 1ms for PCI/PCI-X since this value
was used for many years in bge(4). For PCIe devices, use 100ms as
recommended by data sheet.
bge_chipinit() also cleared BGE_MAC_MODE register which shall clear
firmware configured mode information. I think this will result in
losing ASF/IPMI link in device attachment. Let bge_reset() honor
firmware configured BGE_MAC_MODE register and don't announce driver
is UP in bge_reset(). Firmware should have control over driver until
it's fully initialized by driver.
While I'm here, enable workaround for PCI-X BCM5704 A0 in
bge_reset(). This will prevent internal arbitration logic from
switching to the other DMA engine after a retry cycle.
that requires 10ms delay after device reset. Because that code was
there from day 1, I guess it was added to give enough settlement
time after updating BGE_MAC_MODE register.
The recommended delay time for BGE_MAC_MODE after updating is 40us
and it was already done in r241219.
The VCPU(Virtual CPU) of BCM5906 is used to provide a mechanism to
control the bootcode execution and to pick up configuration data
stored inside the EEPROM.
The bootcode of BCM5906 will check the BGE_VCPU_STATUS_DRV_RESET
bit to decide which booting procedure to choose.
Data sheet indicates the VCPU of BCM5906 should set
BGE_VCPU_STATUS_DRV_RESET bit *before* VCPU reset or global reset.
water mark to 256 bytes. Otherwise controller will encounter DMA
write under run errors and would result in RX DMA hang. If the
maximum payload size is 128 bytes, the water mark is set to 128
bytes as usual.
While here, set maximum read request size to 2048 for BCM5719/BCM5720.
For other PCIe devices, use 4096. And reprogram the maximum read
request size whenever device reset is performed.
#defines. This also has the advantage that it makes the names more
compact, iand also allows us to correct the non-uniform naming of
the PCIM_LINK_* defines, making them all consistent amongst themselves.
This is a mostly mechanical rename:
s/PCIR_EXPRESS_/PCIER_/g
s/PCIM_EXP_/PCIEM_/g
s/PCIM_LINK_/PCIEM_LINK_/g
When this is MFC'd, #defines will be added for the old names to assist
out-of-tree drivers.
Discussed with: jhb
MFC after: 1 week
negotiate with each other on the TLP payload size so blindly
forcing the size to 128 can cause a completion error which in turn
will stop device.
Reported by: Geans Pin < geanspin <> broadcom dot com >
MFC after: 5 days
updated.
o Number of times NIC ran out of RX buffer descriptors
o Number of inbound packet errors
o Number of inbound packets that were chosen to be discarded
Previously only the discarded packet counter was used to update
if_ierrors. This change fixes wrong if_ierrors counter on
BCM570[0-4] controllers. For BCM5705 and later controllers bge(4)
already correctly counted it.
Reported by: Eugene Grosbein <egrosbein <> rdtc dot ru>
device in device attach. This would help to narrow down issue to a
specific controller and operating mode of the controller.
While I'm here rename BGE_MISCCFG_BOARD_ID with
BGE_MISCCFG_BOARD_ID_MASK.
AMD-8131 PCI-X bridge. The bridge seems to reorder write access to
mailbox registers such that it caused watchdog timeouts by
out-of-order TX completions.
Tested by: Michael L. Squires <mikes <> siralan dot org >
Reviewed by: jhb
one. Interestingly, these are actually the default for quite some time
(bus_generic_driver_added(9) since r52045 and bus_generic_print_child(9)
since r52045) but even recently added device drivers do this unnecessarily.
Discussed with: jhb, marcel
- While at it, use DEVMETHOD_END.
Discussed with: jhb
- Also while at it, use __FBSDID.
The SYSCTL_NODE macro defines a list that stores all child-elements of
that node. If there's no SYSCTL_DECL macro anywhere else, there's no
reason why it shouldn't be static.
bge(4) sends BGE_FW_CMD_DRV_ALIVE command to firmware every 2
seconds. BGE_FW_CMD_DRV_ALIVE command requires 4 bytes data. This
data contains timeout value in seconds until the next
BGE_FW_CMD_DRV_ALIVE command.
Broadcom recommends driver set the value 3 times longer than the
interval that it sends BGE_FW_CMD_DRV_ALIVE. Currently bge(4) uses
3 seconds so probably we have to increase it in future and use
different ALIVE command(e.g. BGE_FW_CMD_DRV_ALIVE3).
No functional changes.
This bit(SW event 7 in publicly available data sheet) is used to
make RX CPU handle a firmware command and the bit is automatically
cleared after RX CPU completed the command.
Generally firmware command takes the following steps.
1. Write BGE_SRAM_FW_CMD_MB with a command.
2. Write BGE_SRAM_FW_CMD_LEN_MB with the length of the command in bytes.
3. Write BGE_SRAM_FW_CMD_DATA_MB with actual command data.
4. Generate BGE_RX_CPU_EVENT and let firmware handle the command.
5. Wait for the ACK of the firmware command.
No functional changes.