Release 4.11 drivers/atm/ambassador.c
/*
Madge Ambassador ATM Adapter driver.
Copyright (C) 1995-1999 Madge Networks Ltd.
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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
The GNU GPL is contained in /usr/doc/copyright/GPL on a Debian
system and in the file COPYING in the Linux kernel source.
*/
/* * dedicated to the memory of Graham Gordon 1971-1998 * */
#include <linux/module.h>
#include <linux/types.h>
#include <linux/pci.h>
#include <linux/kernel.h>
#include <linux/init.h>
#include <linux/ioport.h>
#include <linux/atmdev.h>
#include <linux/delay.h>
#include <linux/interrupt.h>
#include <linux/poison.h>
#include <linux/bitrev.h>
#include <linux/mutex.h>
#include <linux/firmware.h>
#include <linux/ihex.h>
#include <linux/slab.h>
#include <linux/atomic.h>
#include <asm/io.h>
#include <asm/byteorder.h>
#include "ambassador.h"
#define maintainer_string "Giuliano Procida at Madge Networks <gprocida@madge.com>"
#define description_string "Madge ATM Ambassador driver"
#define version_string "1.2.4"
static inline void __init show_version (void) {
printk ("%s version %s\n", description_string, version_string);
}
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/*
Theory of Operation
I Hardware, detection, initialisation and shutdown.
1. Supported Hardware
This driver is for the PCI ATMizer-based Ambassador card (except
very early versions). It is not suitable for the similar EISA "TR7"
card. Commercially, both cards are known as Collage Server ATM
adapters.
The loader supports image transfer to the card, image start and few
other miscellaneous commands.
Only AAL5 is supported with vpi = 0 and vci in the range 0 to 1023.
The cards are big-endian.
2. Detection
Standard PCI stuff, the early cards are detected and rejected.
3. Initialisation
The cards are reset and the self-test results are checked. The
microcode image is then transferred and started. This waits for a
pointer to a descriptor containing details of the host-based queues
and buffers and various parameters etc. Once they are processed
normal operations may begin. The BIA is read using a microcode
command.
4. Shutdown
This may be accomplished either by a card reset or via the microcode
shutdown command. Further investigation required.
5. Persistent state
The card reset does not affect PCI configuration (good) or the
contents of several other "shared run-time registers" (bad) which
include doorbell and interrupt control as well as EEPROM and PCI
control. The driver must be careful when modifying these registers
not to touch bits it does not use and to undo any changes at exit.
II Driver software
0. Generalities
The adapter is quite intelligent (fast) and has a simple interface
(few features). VPI is always zero, 1024 VCIs are supported. There
is limited cell rate support. UBR channels can be capped and ABR
(explicit rate, but not EFCI) is supported. There is no CBR or VBR
support.
1. Driver <-> Adapter Communication
Apart from the basic loader commands, the driver communicates
through three entities: the command queue (CQ), the transmit queue
pair (TXQ) and the receive queue pairs (RXQ). These three entities
are set up by the host and passed to the microcode just after it has
been started.
All queues are host-based circular queues. They are contiguous and
(due to hardware limitations) have some restrictions as to their
locations in (bus) memory. They are of the "full means the same as
empty so don't do that" variety since the adapter uses pointers
internally.
The queue pairs work as follows: one queue is for supply to the
adapter, items in it are pending and are owned by the adapter; the
other is the queue for return from the adapter, items in it have
been dealt with by the adapter. The host adds items to the supply
(TX descriptors and free RX buffer descriptors) and removes items
from the return (TX and RX completions). The adapter deals with out
of order completions.
Interrupts (card to host) and the doorbell (host to card) are used
for signalling.
1. CQ
This is to communicate "open VC", "close VC", "get stats" etc. to
the adapter. At most one command is retired every millisecond by the
card. There is no out of order completion or notification. The
driver needs to check the return code of the command, waiting as
appropriate.
2. TXQ
TX supply items are of variable length (scatter gather support) and
so the queue items are (more or less) pointers to the real thing.
Each TX supply item contains a unique, host-supplied handle (the skb
bus address seems most sensible as this works for Alphas as well,
there is no need to do any endian conversions on the handles).
TX return items consist of just the handles above.
3. RXQ (up to 4 of these with different lengths and buffer sizes)
RX supply items consist of a unique, host-supplied handle (the skb
bus address again) and a pointer to the buffer data area.
RX return items consist of the handle above, the VC, length and a
status word. This just screams "oh so easy" doesn't it?
Note on RX pool sizes:
Each pool should have enough buffers to handle a back-to-back stream
of minimum sized frames on a single VC. For example:
frame spacing = 3us (about right)
delay = IRQ lat + RX handling + RX buffer replenish = 20 (us) (a guess)
min number of buffers for one VC = 1 + delay/spacing (buffers)
delay/spacing = latency = (20+2)/3 = 7 (buffers) (rounding up)
The 20us delay assumes that there is no need to sleep; if we need to
sleep to get buffers we are going to drop frames anyway.
In fact, each pool should have enough buffers to support the
simultaneous reassembly of a separate frame on each VC and cope with
the case in which frames complete in round robin cell fashion on
each VC.
Only one frame can complete at each cell arrival, so if "n" VCs are
open, the worst case is to have them all complete frames together
followed by all starting new frames together.
desired number of buffers = n + delay/spacing
These are the extreme requirements, however, they are "n+k" for some
"k" so we have only the constant to choose. This is the argument
rx_lats which current defaults to 7.
Actually, "n ? n+k : 0" is better and this is what is implemented,
subject to the limit given by the pool size.
4. Driver locking
Simple spinlocks are used around the TX and RX queue mechanisms.
Anyone with a faster, working method is welcome to implement it.
The adapter command queue is protected with a spinlock. We always
wait for commands to complete.
A more complex form of locking is used around parts of the VC open
and close functions. There are three reasons for a lock: 1. we need
to do atomic rate reservation and release (not used yet), 2. Opening
sometimes involves two adapter commands which must not be separated
by another command on the same VC, 3. the changes to RX pool size
must be atomic. The lock needs to work over context switches, so we
use a semaphore.
III Hardware Features and Microcode Bugs
1. Byte Ordering
*%^"$&%^$*&^"$(%^$#&^%$(&#%$*(&^#%!"!"!*!
2. Memory access
All structures that are not accessed using DMA must be 4-byte
aligned (not a problem) and must not cross 4MB boundaries.
There is a DMA memory hole at E0000000-E00000FF (groan).
TX fragments (DMA read) must not cross 4MB boundaries (would be 16MB
but for a hardware bug).
RX buffers (DMA write) must not cross 16MB boundaries and must
include spare trailing bytes up to the next 4-byte boundary; they
will be written with rubbish.
The PLX likes to prefetch; if reading up to 4 u32 past the end of
each TX fragment is not a problem, then TX can be made to go a
little faster by passing a flag at init that disables a prefetch
workaround. We do not pass this flag. (new microcode only)
Now we:
. Note that alloc_skb rounds up size to a 16byte boundary.
. Ensure all areas do not traverse 4MB boundaries.
. Ensure all areas do not start at a E00000xx bus address.
(I cannot be certain, but this may always hold with Linux)
. Make all failures cause a loud message.
. Discard non-conforming SKBs (causes TX failure or RX fill delay).
. Discard non-conforming TX fragment descriptors (the TX fails).
In the future we could:
. Allow RX areas that traverse 4MB (but not 16MB) boundaries.
. Segment TX areas into some/more fragments, when necessary.
. Relax checks for non-DMA items (ignore hole).
. Give scatter-gather (iovec) requirements using ???. (?)
3. VC close is broken (only for new microcode)
The VC close adapter microcode command fails to do anything if any
frames have been received on the VC but none have been transmitted.
Frames continue to be reassembled and passed (with IRQ) to the
driver.
IV To Do List
. Fix bugs!
. Timer code may be broken.
. Deal with buggy VC close (somehow) in microcode 12.
. Handle interrupted and/or non-blocking writes - is this a job for
the protocol layer?
. Add code to break up TX fragments when they span 4MB boundaries.
. Add SUNI phy layer (need to know where SUNI lives on card).
. Implement a tx_alloc fn to (a) satisfy TX alignment etc. and (b)
leave extra headroom space for Ambassador TX descriptors.
. Understand these elements of struct atm_vcc: recvq (proto?),
sleep, callback, listenq, backlog_quota, reply and user_back.
. Adjust TX/RX skb allocation to favour IP with LANE/CLIP (configurable).
. Impose a TX-pending limit (2?) on each VC, help avoid TX q overflow.
. Decide whether RX buffer recycling is or can be made completely safe;
turn it back on. It looks like Werner is going to axe this.
. Implement QoS changes on open VCs (involves extracting parts of VC open
and close into separate functions and using them to make changes).
. Hack on command queue so that someone can issue multiple commands and wait
on the last one (OR only "no-op" or "wait" commands are waited for).
. Eliminate need for while-schedule around do_command.
*/
static void do_housekeeping (unsigned long arg);
/********** globals **********/
static unsigned short debug = 0;
static unsigned int cmds = 8;
static unsigned int txs = 32;
static unsigned int rxs[NUM_RX_POOLS] = { 64, 64, 64, 64 };
static unsigned int rxs_bs[NUM_RX_POOLS] = { 4080, 12240, 36720, 65535 };
static unsigned int rx_lats = 7;
static unsigned char pci_lat = 0;
static const unsigned long onegigmask = -1 << 30;
/********** access to adapter **********/
static inline void wr_plain (const amb_dev * dev, size_t addr, u32 data) {
PRINTD (DBG_FLOW|DBG_REGS, "wr: %08zx <- %08x", addr, data);
#ifdef AMB_MMIO
dev->membase[addr / sizeof(u32)] = data;
#else
outl (data, dev->iobase + addr);
#endif
}
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static inline u32 rd_plain (const amb_dev * dev, size_t addr) {
#ifdef AMB_MMIO
u32 data = dev->membase[addr / sizeof(u32)];
#else
u32 data = inl (dev->iobase + addr);
#endif
PRINTD (DBG_FLOW|DBG_REGS, "rd: %08zx -> %08x", addr, data);
return data;
}
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static inline void wr_mem (const amb_dev * dev, size_t addr, u32 data) {
__be32 be = cpu_to_be32 (data);
PRINTD (DBG_FLOW|DBG_REGS, "wr: %08zx <- %08x b[%08x]", addr, data, be);
#ifdef AMB_MMIO
dev->membase[addr / sizeof(u32)] = be;
#else
outl (be, dev->iobase + addr);
#endif
}
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static inline u32 rd_mem (const amb_dev * dev, size_t addr) {
#ifdef AMB_MMIO
__be32 be = dev->membase[addr / sizeof(u32)];
#else
__be32 be = inl (dev->iobase + addr);
#endif
u32 data = be32_to_cpu (be);
PRINTD (DBG_FLOW|DBG_REGS, "rd: %08zx -> %08x b[%08x]", addr, data, be);
return data;
}
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/********** dump routines **********/
static inline void dump_registers (const amb_dev * dev) {
#ifdef DEBUG_AMBASSADOR
if (debug & DBG_REGS) {
size_t i;
PRINTD (DBG_REGS, "reading PLX control: ");
for (i = 0x00; i < 0x30; i += sizeof(u32))
rd_mem (dev, i);
PRINTD (DBG_REGS, "reading mailboxes: ");
for (i = 0x40; i < 0x60; i += sizeof(u32))
rd_mem (dev, i);
PRINTD (DBG_REGS, "reading doorb irqev irqen reset:");
for (i = 0x60; i < 0x70; i += sizeof(u32))
rd_mem (dev, i);
}
#else
(void) dev;
#endif
return;
}
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static inline void dump_loader_block (volatile loader_block * lb) {
#ifdef DEBUG_AMBASSADOR
unsigned int i;
PRINTDB (DBG_LOAD, "lb @ %p; res: %d, cmd: %d, pay:",
lb, be32_to_cpu (lb->result), be32_to_cpu (lb->command));
for (i = 0; i < MAX_COMMAND_DATA; ++i)
PRINTDM (DBG_LOAD, " %08x", be32_to_cpu (lb->payload.data[i]));
PRINTDE (DBG_LOAD, ", vld: %08x", be32_to_cpu (lb->valid));
#else
(void) lb;
#endif
return;
}
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static inline void dump_command (command * cmd) {
#ifdef DEBUG_AMBASSADOR
unsigned int i;
PRINTDB (DBG_CMD, "cmd @ %p, req: %08x, pars:",
cmd, /*be32_to_cpu*/ (cmd->request));
for (i = 0; i < 3; ++i)
PRINTDM (DBG_CMD, " %08x", /*be32_to_cpu*/ (cmd->args.par[i]));
PRINTDE (DBG_CMD, "");
#else
(void) cmd;
#endif
return;
}
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static inline void dump_skb (char * prefix, unsigned int vc, struct sk_buff * skb) {
#ifdef DEBUG_AMBASSADOR
unsigned int i;
unsigned char * data = skb->data;
PRINTDB (DBG_DATA, "%s(%u) ", prefix, vc);
for (i=0; i<skb->len && i < 256;i++)
PRINTDM (DBG_DATA, "%02x ", data[i]);
PRINTDE (DBG_DATA,"");
#else
(void) prefix;
(void) vc;
(void) skb;
#endif
return;
}
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/********** check memory areas for use by Ambassador **********/
/* see limitations under Hardware Features */
static int check_area (void * start, size_t length) {
// assumes length > 0
const u32 fourmegmask = -1 << 22;
const u32 twofivesixmask = -1 << 8;
const u32 starthole = 0xE0000000;
u32 startaddress = virt_to_bus (start);
u32 lastaddress = startaddress+length-1;
if ((startaddress ^ lastaddress) & fourmegmask ||
(startaddress & twofivesixmask) == starthole) {
PRINTK (KERN_ERR, "check_area failure: [%x,%x] - mail maintainer!",
startaddress, lastaddress);
return -1;
} else {
return 0;
}
}
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/********** free an skb (as per ATM device driver documentation) **********/
static void amb_kfree_skb (struct sk_buff * skb) {
if (ATM_SKB(skb)->vcc->pop) {
ATM_SKB(skb)->vcc->pop (ATM_SKB(skb)->vcc, skb);
} else {
dev_kfree_skb_any (skb);
}
}
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/********** TX completion **********/
static void tx_complete (amb_dev * dev, tx_out * tx) {
tx_simple * tx_descr = bus_to_virt (tx->handle);
struct sk_buff * skb = tx_descr->skb;
PRINTD (DBG_FLOW|DBG_TX, "tx_complete %p %p", dev, tx);
// VC layer stats
atomic_inc(&ATM_SKB(skb)->vcc->stats->tx);
// free the descriptor
kfree (tx_descr);
// free the skb
amb_kfree_skb (skb);
dev->stats.tx_ok++;
return;
}
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/********** RX completion **********/
static void rx_complete (amb_dev * dev, rx_out * rx) {
struct sk_buff * skb = bus_to_virt (rx->handle);
u16 vc = be16_to_cpu (rx->vc);
// unused: u16 lec_id = be16_to_cpu (rx->lec_id);
u16 status = be16_to_cpu (rx->status);
u16 rx_len = be16_to_cpu (rx->length);
PRINTD (DBG_FLOW|DBG_RX, "rx_complete %p %p (len=%hu)", dev, rx, rx_len);
// XXX move this in and add to VC stats ???
if (!status) {
struct atm_vcc * atm_vcc = dev->rxer[vc];
dev->stats.rx.ok++;
if (atm_vcc) {
if (rx_len <= atm_vcc->qos.rxtp.max_sdu) {
if (atm_charge (atm_vcc, skb->truesize)) {
// prepare socket buffer
ATM_SKB(skb)->vcc = atm_vcc;
skb_put (skb, rx_len);
dump_skb ("<<<", vc, skb);
// VC layer stats
atomic_inc(&atm_vcc->stats->rx);
__net_timestamp(skb);
// end of our responsibility
atm_vcc->push (atm_vcc, skb);
return;
} else {
// someone fix this (message), please!
PRINTD (DBG_INFO|DBG_RX, "dropped thanks to atm_charge (vc %hu, truesize %u)", vc, skb->truesize);
// drop stats incremented in atm_charge
}
} else {
PRINTK (KERN_INFO, "dropped over-size frame");
// should we count this?
atomic_inc(&atm_vcc->stats->rx_drop);
}
} else {
PRINTD (DBG_WARN|DBG_RX, "got frame but RX closed for channel %hu", vc);
// this is an adapter bug, only in new version of microcode
}
} else {
dev->stats.rx.error++;
if (status & CRC_ERR)
dev->stats.rx.badcrc++;
if (status & LEN_ERR)
dev->stats.rx.toolong++;
if (status & ABORT_ERR)
dev->stats.rx.aborted++;
if (status & UNUSED_ERR)
dev->stats.rx.unused++;
}
dev_kfree_skb_any (skb);
return;
}
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/*
Note on queue handling.
Here "give" and "take" refer to queue entries and a queue (pair)
rather than frames to or from the host or adapter. Empty frame
buffers are given to the RX queue pair and returned unused or
containing RX frames. TX frames (well, pointers to TX fragment
lists) are given to the TX queue pair, completions are returned.
*/
/********** command queue **********/
// I really don't like this, but it's the best I can do at the moment
// also, the callers are responsible for byte order as the microcode
// sometimes does 16-bit accesses (yuk yuk yuk)
static int command_do (amb_dev * dev, command * cmd) {
amb_cq * cq = &dev->cq;
volatile amb_cq_ptrs * ptrs = &cq->ptrs;
command * my_slot;
PRINTD (DBG_FLOW|DBG_CMD, "command_do %p", dev);
if (test_bit (dead, &dev->flags))
return 0;
spin_lock (&cq->lock);
// if not full...
if (cq->pending < cq->maximum) {
// remember my slot for later
my_slot = ptrs->in;
PRINTD (DBG_CMD, "command in slot %p", my_slot);
dump_command (cmd);
// copy command in
*ptrs->in = *cmd;
cq->pending++;
ptrs->in = NEXTQ (ptrs->in, ptrs->start, ptrs->limit);
// mail the command
wr_mem (dev, offsetof(amb_mem, mb.adapter.cmd_address), virt_to_bus (ptrs->in));
if (cq->pending > cq->high)
cq->high = cq->pending;
spin_unlock (&cq->lock);
// these comments were in a while-loop before, msleep removes the loop
// go to sleep
// PRINTD (DBG_CMD, "wait: sleeping %lu for command", timeout);
msleep(cq->pending);
// wait for my slot to be reached (all waiters are here or above, until...)
while (ptrs->out != my_slot) {
PRINTD (DBG_CMD, "wait: command slot (now at %p)", ptrs->out);
set_current_state(TASK_UNINTERRUPTIBLE);
schedule();
}
// wait on my slot (... one gets to its slot, and... )
while (ptrs->out->request != cpu_to_be32 (SRB_COMPLETE)) {
PRINTD (DBG_CMD, "wait: command slot completion");
set_current_state(TASK_UNINTERRUPTIBLE);
schedule();
}
PRINTD (DBG_CMD, "command complete");
// update queue (... moves the queue along to the next slot)
spin_lock (&cq->lock);
cq->pending--;
// copy command out
*cmd = *ptrs->out;
ptrs->out = NEXTQ (ptrs->out, ptrs->start, ptrs->limit);
spin_unlock (&cq->lock);
return 0;
} else {
cq->filled++;
spin_unlock (&cq->lock);
return -EAGAIN;
}
}
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/********** TX queue pair **********/
static int tx_give (amb_dev * dev, tx_in * tx) {
amb_txq * txq = &dev->txq;
unsigned long flags;
PRINTD (DBG_FLOW|DBG_TX, "tx_give %p", dev);
if (test_bit (dead, &dev->flags))
return 0;
spin_lock_irqsave (&txq->lock, flags);
if (txq->pending < txq->maximum) {
PRINTD (DBG_TX, "TX in slot %p", txq->in.ptr);
*txq->in.ptr = *tx;
txq->pending++;
txq->in.ptr = NEXTQ (txq->in.ptr, txq->in.start, txq->in.limit);
// hand over the TX and ring the bell
wr_mem (dev, offsetof(amb_mem, mb.adapter.tx_address), virt_to_bus (txq->in.ptr));
wr_mem (dev, offsetof(amb_mem, doorbell), TX_FRAME);
if (txq->pending > txq->high)
txq->high = txq->pending;
spin_unlock_irqrestore (&txq->lock, flags);
return 0;
} else {
txq->filled++;
spin_unlock_irqrestore (&txq->lock, flags);
return -EAGAIN;
}
}
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static int tx_take (amb_dev * dev) {
amb_txq * txq = &dev->txq;
unsigned long flags;
PRINTD (DBG_FLOW|DBG_TX, "tx_take %p", dev);
spin_lock_irqsave (&txq->lock, flags);
if (txq->pending && txq->out.ptr->handle) {
// deal with TX completion
tx_complete (dev, txq->out.ptr);
// mark unused again
txq->out.ptr->handle = 0;
// remove item
txq->pending--;
txq->out.ptr = NEXTQ (txq->out.ptr, txq->out.start, txq->out.limit);
spin_unlock_irqrestore (&txq->lock, flags);
return 0;
} else {
spin_unlock_irqrestore (&txq->lock, flags);
return -1;
}
}
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Linus Torvalds (pre-git) | 146 | 100.00% | 2 | 100.00% |
Total | 146 | 100.00% | 2 | 100.00% |
/********** RX queue pairs **********/
static int rx_give (amb_dev * dev, rx_in * rx, unsigned char pool) {
amb_rxq * rxq = &dev->rxq[pool];
unsigned long flags;
PRINTD (DBG_FLOW|DBG_RX, "rx_give %p[%hu]", dev, pool);
spin_lock_irqsave (&rxq->lock, flags);
if (rxq->pending < rxq->maximum) {
PRINTD (DBG_RX, "RX in slot %p", rxq->in.ptr);
*rxq->in.ptr = *rx;
rxq->pending++;
rxq->in.ptr = NEXTQ (rxq->in.ptr, rxq->in.start, rxq->in.limit);
// hand over the RX buffer
wr_mem (dev, offsetof(amb_mem, mb.adapter.rx_address[pool]), virt_to_bus (rxq->in.ptr));
spin_unlock_irqrestore (&rxq->lock, flags);
return 0;
} else {
spin_unlock_irqrestore (&rxq->lock, flags);
return -1;
}
}
Contributors
Person | Tokens | Prop | Commits | CommitProp |
Linus Torvalds (pre-git) | 183 | 100.00% | 2 | 100.00% |
Total | 183 | 100.00% | 2 | 100.00% |
static int rx_take (amb_dev * dev, unsigned char pool) {
amb_rxq * rxq = &dev->rxq[pool];
unsigned long flags;
PRINTD (DBG_FLOW|DBG_RX, "rx_take %p[%hu]", dev, pool);
spin_lock_irqsave (&rxq->lock, flags);
if (rxq->pending && (rxq->out.ptr->status || rxq->out.ptr->length)) {
// deal with RX completion
rx_complete (dev, rxq->out.ptr);
// mark unused again
rxq->out.ptr->status = 0;
rxq->out.ptr->length = 0;
// remove item
rxq->pending--;
rxq->out.ptr = NEXTQ (rxq->out.ptr, rxq->out.start, rxq->out.limit);
if (rxq->pending < rxq->low)
rxq->low = rxq->pending;
spin_unlock_irqrestore (&rxq->lock, flags);
return 0;
} else {
if (!rxq->pending && rxq->buffers_wanted)
rxq->emptied++;
spin_unlock_irqrestore (&rxq->lock, flags);
return -1;
}
}
Contributors
Person | Tokens | Prop | Commits | CommitProp |
Linus Torvalds (pre-git) | 209 | 100.00% | 1 | 100.00% |
Total | 209 | 100.00% | 1 | 100.00% |
/********** RX Pool handling **********/
/* pre: buffers_wanted = 0, post: pending = 0 */
static void drain_rx_pool (amb_dev * dev, unsigned char pool) {
amb_rxq * rxq = &dev->rxq[pool];
PRINTD (DBG_FLOW|DBG_POOL, "drain_rx_pool %p %hu", dev, pool);
if (test_bit (dead, &dev->flags))
return;
/* we are not quite like the fill pool routines as we cannot just
remove one buffer, we have to remove all of them, but we might as
well pretend... */
if (rxq->pending > rxq->buffers_wanted) {
command cmd;
cmd.request = cpu_to_be32 (SRB_FLUSH_BUFFER_Q);
cmd.args.flush.flags = cpu_to_be32 (pool << SRB_POOL_SHIFT);
while (command_do (dev, &cmd))
schedule();
/* the pool may also be emptied via the interrupt handler */
while (rxq->pending > rxq->buffers_wanted)
if (rx_take (dev, pool))
schedule();
}
return;
}
Contributors
Person | Tokens | Prop | Commits | CommitProp |
Linus Torvalds (pre-git) | 129 | 100.00% | 2 | 100.00% |
Total | 129 | 100.00% | 2 | 100.00% |
static void drain_rx_pools (amb_dev * dev) {
unsigned char pool;
PRINTD (DBG_FLOW|DBG_POOL, "drain_rx_pools %p", dev);
for (pool = 0; pool < NUM_RX_POOLS; ++pool)
drain_rx_pool (dev, pool);
}
Contributors
Person | Tokens | Prop | Commits | CommitProp |
Linus Torvalds (pre-git) | 45 | 100.00% | 1 | 100.00% |
Total | 45 | 100.00% | 1 | 100.00% |
static void fill_rx_pool (amb_dev * dev, unsigned char pool,
gfp_t priority)
{
rx_in rx;
amb_rxq * rxq;
PRINTD (DBG_FLOW|DBG_POOL, "fill_rx_pool %p %hu %x", dev, pool, priority);
if (test_bit (dead, &dev->flags))
return;
rxq = &dev->rxq[pool];
while (rxq->pending < rxq->maximum && rxq->pending < rxq->buffers_wanted) {
struct sk_buff * skb = alloc_skb (rxq->buffer_size, priority);
if (!skb) {
PRINTD (DBG_SKB|DBG_POOL, "failed to allocate skb for RX pool %hu", pool);
return;
}
if (check_area (skb->data, skb->truesize)) {
dev_kfree_skb_any (skb);
return;
}
// cast needed as there is no %? for pointer differences
PRINTD (DBG_SKB, "allocated skb at %p, head %p, area %li",
skb, skb->head, (long) skb_end_offset(skb));
rx.handle = virt_to_bus (skb);
rx.host_address = cpu_to_be32 (virt_to_bus (skb->data));
if (rx_give (dev, &rx, pool))
dev_kfree_skb_any (skb);
}
return;
}
Contributors
Person | Tokens | Prop | Commits | CommitProp |
Linus Torvalds (pre-git) | 193 | 96.98% | 2 | 40.00% |
Alexander Duyck | 3 | 1.51% | 1 | 20.00% |
Arnaldo Carvalho de Melo | 2 | 1.01% | 1 | 20.00% |
Al Viro | 1 | 0.50% | 1 | 20.00% |
Total | 199 | 100.00% | 5 | 100.00% |
// top up all RX pools
static void fill_rx_pools (amb_dev * dev) {
unsigned char pool;
PRINTD (DBG_FLOW|DBG_POOL, "fill_rx_pools %p", dev);
for (pool = 0; pool < NUM_RX_POOLS; ++pool)
fill_rx_pool (dev, pool, GFP_ATOMIC);
return;
}
Contributors
Person | Tokens | Prop | Commits | CommitProp |
Linus Torvalds (pre-git) | 48 | 100.00% | 1 | 100.00% |
Total | 48 | 100.00% | 1 | 100.00% |
/********** enable host interrupts **********/
static void interrupts_on (amb_dev * dev) {
wr_plain (dev, offsetof(amb_mem, interrupt_control),
rd_plain (dev, offsetof(amb_mem, interrupt_control))
| AMB_INTERRUPT_BITS);
}
Contributors
Person | Tokens | Prop | Commits | CommitProp |
Linus Torvalds (pre-git) | 36 | 100.00% | 3 | 100.00% |
Total | 36 | 100.00% | 3 | 100.00% |
/********** disable host interrupts **********/
static void interrupts_off (amb_dev * dev) {
wr_plain (dev, offsetof(amb_mem, interrupt_control),
rd_plain (dev, offsetof(amb_mem, interrupt_control))
&~ AMB_INTERRUPT_BITS);
}
Contributors
Person | Tokens | Prop | Commits | CommitProp |
Linus Torvalds (pre-git) | 37 | 100.00% | 3 | 100.00% |
Total | 37 | 100.00% | 3 | 100.00% |
/********** interrupt handling **********/
static irqreturn_t interrupt_handler(int irq, void *dev_id) {
amb_dev * dev = dev_id;
PRINTD (DBG_IRQ|DBG_FLOW, "interrupt_handler: %p", dev_id);
{
u32 interrupt = rd_plain (dev, offsetof(amb_mem, interrupt));
// for us or someone else sharing the same interrupt
if (!interrupt) {
PRINTD (DBG_IRQ, "irq not for me: %d", irq);
return IRQ_NONE;
}
// definitely for us
PRINTD (DBG_IRQ, "FYI: interrupt was %08x", interrupt);
wr_plain (dev, offsetof(amb_mem, interrupt), -1);
}
{
unsigned int