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|
/* $Id$
*
* This file is subject to the terms and conditions of the GNU General Public
* License. See the file "COPYING" in the main directory of this archive
* for more details.
*
* Copyright (C) 1992 - 1997, 2000 Silicon Graphics, Inc.
* Copyright (C) 2000 by Colin Ngam
*/
#define USRPCI 0
#include <linux/types.h>
#include <linux/config.h>
#include <linux/slab.h>
#include <asm/sn/sgi.h>
#include <asm/sn/iograph.h>
#include <asm/sn/invent.h>
#include <asm/sn/hcl.h>
#include <asm/sn/hcl_util.h>
#include <asm/sn/labelcl.h>
#include <asm/sn/pci/bridge.h>
#include <asm/sn/ioerror_handling.h>
#include <asm/sn/pci/pciio.h>
#include <asm/sn/pci/pciio_private.h>
#define DEBUG_PCIIO
#undef DEBUG_PCIIO /* turn this on for yet more console output */
#define NEW(ptr) (ptr = kmalloc(sizeof (*(ptr)), GFP_KERNEL))
#define DEL(ptr) (kfree(ptr))
char pciio_info_fingerprint[] = "pciio_info";
cdl_p pciio_registry = NULL;
int
badaddr_val(volatile void *addr, int len, volatile void *ptr)
{
switch (len) {
case 4: *(volatile u32*)ptr = *(((volatile u32*)(((u64) addr)^4)));
default: printk("FIXME: argh fix badaddr_val\n");
}
/* no such thing as a bad addr .... */
return(0);
}
void
cmn_err_tag(int seqnumber, register int level, char *fmt, ...)
{
}
nasid_t
get_console_nasid(void)
{
#ifdef IRIX
return console_nasid;
#else
return 0;
#endif
}
int
hub_dma_enabled(devfs_handle_t xconn_vhdl)
{
return(0);
}
int
hub_error_devenable(devfs_handle_t xconn_vhdl, int devnum, int error_code)
{
return(0);
}
void
ioerror_dump(char *name, int error_code, int error_mode, ioerror_t *ioerror)
{
}
/******
****** end hack defines ......
******/
/* =====================================================================
* PCI Generic Bus Provider
* Implement PCI provider operations. The pciio* layer provides a
* platform-independent interface for PCI devices. This layer
* switches among the possible implementations of a PCI adapter.
*/
/* =====================================================================
* Provider Function Location SHORTCUT
*
* On platforms with only one possible PCI provider, macros can be
* set up at the top that cause the table lookups and indirections to
* completely disappear.
*/
#if CONFIG_SGI_IP35 || CONFIG_IA64_SGI_SN1 || CONFIG_IA64_GENERIC
/*
* For the moment, we will assume that IP27
* only use Bridge ASICs to provide PCI support.
*/
#include <asm/sn/pci/pcibr.h>
#define DEV_FUNC(dev,func) pcibr_##func
#define CAST_PIOMAP(x) ((pcibr_piomap_t)(x))
#define CAST_DMAMAP(x) ((pcibr_dmamap_t)(x))
#define CAST_INTR(x) ((pcibr_intr_t)(x))
#endif /* CONFIG_SGI_IP35 || CONFIG_IA64_SGI_SN1 */
/* =====================================================================
* Function Table of Contents
*/
#if !defined(DEV_FUNC)
static pciio_provider_t *pciio_to_provider_fns(devfs_handle_t dev);
#endif
pciio_piomap_t pciio_piomap_alloc(devfs_handle_t, device_desc_t, pciio_space_t, iopaddr_t, size_t, size_t, unsigned);
void pciio_piomap_free(pciio_piomap_t);
caddr_t pciio_piomap_addr(pciio_piomap_t, iopaddr_t, size_t);
void pciio_piomap_done(pciio_piomap_t);
caddr_t pciio_piotrans_addr(devfs_handle_t, device_desc_t, pciio_space_t, iopaddr_t, size_t, unsigned);
caddr_t pciio_pio_addr(devfs_handle_t, device_desc_t, pciio_space_t, iopaddr_t, size_t, pciio_piomap_t *, unsigned);
iopaddr_t pciio_piospace_alloc(devfs_handle_t, device_desc_t, pciio_space_t, size_t, size_t);
void pciio_piospace_free(devfs_handle_t, pciio_space_t, iopaddr_t, size_t);
pciio_dmamap_t pciio_dmamap_alloc(devfs_handle_t, device_desc_t, size_t, unsigned);
void pciio_dmamap_free(pciio_dmamap_t);
iopaddr_t pciio_dmamap_addr(pciio_dmamap_t, paddr_t, size_t);
alenlist_t pciio_dmamap_list(pciio_dmamap_t, alenlist_t, unsigned);
void pciio_dmamap_done(pciio_dmamap_t);
iopaddr_t pciio_dmatrans_addr(devfs_handle_t, device_desc_t, paddr_t, size_t, unsigned);
alenlist_t pciio_dmatrans_list(devfs_handle_t, device_desc_t, alenlist_t, unsigned);
void pciio_dmamap_drain(pciio_dmamap_t);
void pciio_dmaaddr_drain(devfs_handle_t, paddr_t, size_t);
void pciio_dmalist_drain(devfs_handle_t, alenlist_t);
iopaddr_t pciio_dma_addr(devfs_handle_t, device_desc_t, paddr_t, size_t, pciio_dmamap_t *, unsigned);
pciio_intr_t pciio_intr_alloc(devfs_handle_t, device_desc_t, pciio_intr_line_t, devfs_handle_t);
void pciio_intr_free(pciio_intr_t);
int pciio_intr_connect(pciio_intr_t, intr_func_t, intr_arg_t, void *thread);
void pciio_intr_disconnect(pciio_intr_t);
devfs_handle_t pciio_intr_cpu_get(pciio_intr_t);
void pciio_slot_func_to_name(char *, pciio_slot_t, pciio_function_t);
static pciio_info_t pciio_cardinfo_get(devfs_handle_t, pciio_slot_t);
int pciio_error_handler(devfs_handle_t, int, ioerror_mode_t, ioerror_t *);
int pciio_error_devenable(devfs_handle_t, int);
void pciio_provider_startup(devfs_handle_t);
void pciio_provider_shutdown(devfs_handle_t);
pciio_endian_t pciio_endian_set(devfs_handle_t, pciio_endian_t, pciio_endian_t);
pciio_priority_t pciio_priority_set(devfs_handle_t, pciio_priority_t);
devfs_handle_t pciio_intr_dev_get(pciio_intr_t);
devfs_handle_t pciio_pio_dev_get(pciio_piomap_t);
pciio_slot_t pciio_pio_slot_get(pciio_piomap_t);
pciio_space_t pciio_pio_space_get(pciio_piomap_t);
iopaddr_t pciio_pio_pciaddr_get(pciio_piomap_t);
ulong pciio_pio_mapsz_get(pciio_piomap_t);
caddr_t pciio_pio_kvaddr_get(pciio_piomap_t);
devfs_handle_t pciio_dma_dev_get(pciio_dmamap_t);
pciio_slot_t pciio_dma_slot_get(pciio_dmamap_t);
pciio_info_t pciio_info_chk(devfs_handle_t);
pciio_info_t pciio_info_get(devfs_handle_t);
void pciio_info_set(devfs_handle_t, pciio_info_t);
devfs_handle_t pciio_info_dev_get(pciio_info_t);
pciio_slot_t pciio_info_slot_get(pciio_info_t);
pciio_function_t pciio_info_function_get(pciio_info_t);
pciio_vendor_id_t pciio_info_vendor_id_get(pciio_info_t);
pciio_device_id_t pciio_info_device_id_get(pciio_info_t);
devfs_handle_t pciio_info_master_get(pciio_info_t);
arbitrary_info_t pciio_info_mfast_get(pciio_info_t);
pciio_provider_t *pciio_info_pops_get(pciio_info_t);
error_handler_f *pciio_info_efunc_get(pciio_info_t);
error_handler_arg_t *pciio_info_einfo_get(pciio_info_t);
pciio_space_t pciio_info_bar_space_get(pciio_info_t, int);
iopaddr_t pciio_info_bar_base_get(pciio_info_t, int);
size_t pciio_info_bar_size_get(pciio_info_t, int);
iopaddr_t pciio_info_rom_base_get(pciio_info_t);
size_t pciio_info_rom_size_get(pciio_info_t);
void pciio_init(void);
int pciio_attach(devfs_handle_t);
void pciio_provider_register(devfs_handle_t, pciio_provider_t *pciio_fns);
void pciio_provider_unregister(devfs_handle_t);
pciio_provider_t *pciio_provider_fns_get(devfs_handle_t);
int pciio_driver_register(pciio_vendor_id_t, pciio_device_id_t, char *driver_prefix, unsigned);
void pciio_driver_unregister(char *driver_prefix);
devfs_handle_t pciio_device_register(devfs_handle_t, devfs_handle_t, pciio_slot_t, pciio_function_t, pciio_vendor_id_t, pciio_device_id_t);
void pciio_device_unregister(devfs_handle_t);
pciio_info_t pciio_device_info_new(pciio_info_t, devfs_handle_t, pciio_slot_t, pciio_function_t, pciio_vendor_id_t, pciio_device_id_t);
void pciio_device_info_free(pciio_info_t);
devfs_handle_t pciio_device_info_register(devfs_handle_t, pciio_info_t);
void pciio_device_info_unregister(devfs_handle_t, pciio_info_t);
int pciio_device_attach(devfs_handle_t);
int pciio_device_detach(devfs_handle_t);
void pciio_error_register(devfs_handle_t, error_handler_f *, error_handler_arg_t);
int pciio_reset(devfs_handle_t);
int pciio_write_gather_flush(devfs_handle_t);
int pciio_slot_inuse(devfs_handle_t);
/* =====================================================================
* Provider Function Location
*
* If there is more than one possible provider for
* this platform, we need to examine the master
* vertex of the current vertex for a provider
* function structure, and indirect through the
* appropriately named member.
*/
#if !defined(DEV_FUNC)
static pciio_provider_t *
pciio_to_provider_fns(devfs_handle_t dev)
{
pciio_info_t card_info;
pciio_provider_t *provider_fns;
card_info = pciio_info_get(dev);
ASSERT(card_info != NULL);
provider_fns = pciio_info_pops_get(card_info);
ASSERT(provider_fns != NULL);
return (provider_fns);
}
#define DEV_FUNC(dev,func) pciio_to_provider_fns(dev)->func
#define CAST_PIOMAP(x) ((pciio_piomap_t)(x))
#define CAST_DMAMAP(x) ((pciio_dmamap_t)(x))
#define CAST_INTR(x) ((pciio_intr_t)(x))
#endif
/*
* Many functions are not passed their vertex
* information directly; rather, they must
* dive through a resource map. These macros
* are available to coordinate this detail.
*/
#define PIOMAP_FUNC(map,func) DEV_FUNC((map)->pp_dev,func)
#define DMAMAP_FUNC(map,func) DEV_FUNC((map)->pd_dev,func)
#define INTR_FUNC(intr_hdl,func) DEV_FUNC((intr_hdl)->pi_dev,func)
/* =====================================================================
* PIO MANAGEMENT
*
* For mapping system virtual address space to
* pciio space on a specified card
*/
pciio_piomap_t
pciio_piomap_alloc(devfs_handle_t dev, /* set up mapping for this device */
device_desc_t dev_desc, /* device descriptor */
pciio_space_t space, /* CFG, MEM, IO, or a device-decoded window */
iopaddr_t addr, /* lowest address (or offset in window) */
size_t byte_count, /* size of region containing our mappings */
size_t byte_count_max, /* maximum size of a mapping */
unsigned flags)
{ /* defined in sys/pio.h */
return (pciio_piomap_t) DEV_FUNC(dev, piomap_alloc)
(dev, dev_desc, space, addr, byte_count, byte_count_max, flags);
}
void
pciio_piomap_free(pciio_piomap_t pciio_piomap)
{
PIOMAP_FUNC(pciio_piomap, piomap_free)
(CAST_PIOMAP(pciio_piomap));
}
caddr_t
pciio_piomap_addr(pciio_piomap_t pciio_piomap, /* mapping resources */
iopaddr_t pciio_addr, /* map for this pciio address */
size_t byte_count)
{ /* map this many bytes */
pciio_piomap->pp_kvaddr = PIOMAP_FUNC(pciio_piomap, piomap_addr)
(CAST_PIOMAP(pciio_piomap), pciio_addr, byte_count);
return pciio_piomap->pp_kvaddr;
}
void
pciio_piomap_done(pciio_piomap_t pciio_piomap)
{
PIOMAP_FUNC(pciio_piomap, piomap_done)
(CAST_PIOMAP(pciio_piomap));
}
caddr_t
pciio_piotrans_addr(devfs_handle_t dev, /* translate for this device */
device_desc_t dev_desc, /* device descriptor */
pciio_space_t space, /* CFG, MEM, IO, or a device-decoded window */
iopaddr_t addr, /* starting address (or offset in window) */
size_t byte_count, /* map this many bytes */
unsigned flags)
{ /* (currently unused) */
return DEV_FUNC(dev, piotrans_addr)
(dev, dev_desc, space, addr, byte_count, flags);
}
caddr_t
pciio_pio_addr(devfs_handle_t dev, /* translate for this device */
device_desc_t dev_desc, /* device descriptor */
pciio_space_t space, /* CFG, MEM, IO, or a device-decoded window */
iopaddr_t addr, /* starting address (or offset in window) */
size_t byte_count, /* map this many bytes */
pciio_piomap_t *mapp, /* where to return the map pointer */
unsigned flags)
{ /* PIO flags */
pciio_piomap_t map = 0;
int errfree = 0;
caddr_t res;
if (mapp) {
map = *mapp; /* possible pre-allocated map */
*mapp = 0; /* record "no map used" */
}
res = pciio_piotrans_addr
(dev, dev_desc, space, addr, byte_count, flags);
if (res)
return res; /* pciio_piotrans worked */
if (!map) {
map = pciio_piomap_alloc
(dev, dev_desc, space, addr, byte_count, byte_count, flags);
if (!map)
return res; /* pciio_piomap_alloc failed */
errfree = 1;
}
res = pciio_piomap_addr
(map, addr, byte_count);
if (!res) {
if (errfree)
pciio_piomap_free(map);
return res; /* pciio_piomap_addr failed */
}
if (mapp)
*mapp = map; /* pass back map used */
return res; /* pciio_piomap_addr succeeded */
}
iopaddr_t
pciio_piospace_alloc(devfs_handle_t dev, /* Device requiring space */
device_desc_t dev_desc, /* Device descriptor */
pciio_space_t space, /* MEM32/MEM64/IO */
size_t byte_count, /* Size of mapping */
size_t align)
{ /* Alignment needed */
if (align < NBPP)
align = NBPP;
return DEV_FUNC(dev, piospace_alloc)
(dev, dev_desc, space, byte_count, align);
}
void
pciio_piospace_free(devfs_handle_t dev, /* Device freeing space */
pciio_space_t space, /* Type of space */
iopaddr_t pciaddr, /* starting address */
size_t byte_count)
{ /* Range of address */
DEV_FUNC(dev, piospace_free)
(dev, space, pciaddr, byte_count);
}
/* =====================================================================
* DMA MANAGEMENT
*
* For mapping from pci space to system
* physical space.
*/
pciio_dmamap_t
pciio_dmamap_alloc(devfs_handle_t dev, /* set up mappings for this device */
device_desc_t dev_desc, /* device descriptor */
size_t byte_count_max, /* max size of a mapping */
unsigned flags)
{ /* defined in dma.h */
return (pciio_dmamap_t) DEV_FUNC(dev, dmamap_alloc)
(dev, dev_desc, byte_count_max, flags);
}
void
pciio_dmamap_free(pciio_dmamap_t pciio_dmamap)
{
DMAMAP_FUNC(pciio_dmamap, dmamap_free)
(CAST_DMAMAP(pciio_dmamap));
}
iopaddr_t
pciio_dmamap_addr(pciio_dmamap_t pciio_dmamap, /* use these mapping resources */
paddr_t paddr, /* map for this address */
size_t byte_count)
{ /* map this many bytes */
return DMAMAP_FUNC(pciio_dmamap, dmamap_addr)
(CAST_DMAMAP(pciio_dmamap), paddr, byte_count);
}
alenlist_t
pciio_dmamap_list(pciio_dmamap_t pciio_dmamap, /* use these mapping resources */
alenlist_t alenlist, /* map this Address/Length List */
unsigned flags)
{
return DMAMAP_FUNC(pciio_dmamap, dmamap_list)
(CAST_DMAMAP(pciio_dmamap), alenlist, flags);
}
void
pciio_dmamap_done(pciio_dmamap_t pciio_dmamap)
{
DMAMAP_FUNC(pciio_dmamap, dmamap_done)
(CAST_DMAMAP(pciio_dmamap));
}
iopaddr_t
pciio_dmatrans_addr(devfs_handle_t dev, /* translate for this device */
device_desc_t dev_desc, /* device descriptor */
paddr_t paddr, /* system physical address */
size_t byte_count, /* length */
unsigned flags)
{ /* defined in dma.h */
return DEV_FUNC(dev, dmatrans_addr)
(dev, dev_desc, paddr, byte_count, flags);
}
alenlist_t
pciio_dmatrans_list(devfs_handle_t dev, /* translate for this device */
device_desc_t dev_desc, /* device descriptor */
alenlist_t palenlist, /* system address/length list */
unsigned flags)
{ /* defined in dma.h */
return DEV_FUNC(dev, dmatrans_list)
(dev, dev_desc, palenlist, flags);
}
iopaddr_t
pciio_dma_addr(devfs_handle_t dev, /* translate for this device */
device_desc_t dev_desc, /* device descriptor */
paddr_t paddr, /* system physical address */
size_t byte_count, /* length */
pciio_dmamap_t *mapp, /* map to use, then map we used */
unsigned flags)
{ /* PIO flags */
pciio_dmamap_t map = 0;
int errfree = 0;
iopaddr_t res;
if (mapp) {
map = *mapp; /* possible pre-allocated map */
*mapp = 0; /* record "no map used" */
}
res = pciio_dmatrans_addr
(dev, dev_desc, paddr, byte_count, flags);
if (res)
return res; /* pciio_dmatrans worked */
if (!map) {
map = pciio_dmamap_alloc
(dev, dev_desc, byte_count, flags);
if (!map)
return res; /* pciio_dmamap_alloc failed */
errfree = 1;
}
res = pciio_dmamap_addr
(map, paddr, byte_count);
if (!res) {
if (errfree)
pciio_dmamap_free(map);
return res; /* pciio_dmamap_addr failed */
}
if (mapp)
*mapp = map; /* pass back map used */
return res; /* pciio_dmamap_addr succeeded */
}
void
pciio_dmamap_drain(pciio_dmamap_t map)
{
DMAMAP_FUNC(map, dmamap_drain)
(CAST_DMAMAP(map));
}
void
pciio_dmaaddr_drain(devfs_handle_t dev, paddr_t addr, size_t size)
{
DEV_FUNC(dev, dmaaddr_drain)
(dev, addr, size);
}
void
pciio_dmalist_drain(devfs_handle_t dev, alenlist_t list)
{
DEV_FUNC(dev, dmalist_drain)
(dev, list);
}
/* =====================================================================
* INTERRUPT MANAGEMENT
*
* Allow crosstalk devices to establish interrupts
*/
/*
* Allocate resources required for an interrupt as specified in intr_desc.
* Return resource handle in intr_hdl.
*/
pciio_intr_t
pciio_intr_alloc(devfs_handle_t dev, /* which Crosstalk device */
device_desc_t dev_desc, /* device descriptor */
pciio_intr_line_t lines, /* INTR line(s) to attach */
devfs_handle_t owner_dev)
{ /* owner of this interrupt */
return (pciio_intr_t) DEV_FUNC(dev, intr_alloc)
(dev, dev_desc, lines, owner_dev);
}
/*
* Free resources consumed by intr_alloc.
*/
void
pciio_intr_free(pciio_intr_t intr_hdl)
{
INTR_FUNC(intr_hdl, intr_free)
(CAST_INTR(intr_hdl));
}
/*
* Associate resources allocated with a previous pciio_intr_alloc call with the
* described handler, arg, name, etc.
*
* Returns 0 on success, returns <0 on failure.
*/
int
pciio_intr_connect(pciio_intr_t intr_hdl, /* pciio intr resource handle */
intr_func_t intr_func, /* pciio intr handler */
intr_arg_t intr_arg, /* arg to intr handler */
void *thread)
{ /* intr thread to use */
return INTR_FUNC(intr_hdl, intr_connect)
(CAST_INTR(intr_hdl), intr_func, intr_arg, thread);
}
/*
* Disassociate handler with the specified interrupt.
*/
void
pciio_intr_disconnect(pciio_intr_t intr_hdl)
{
INTR_FUNC(intr_hdl, intr_disconnect)
(CAST_INTR(intr_hdl));
}
/*
* Return a hwgraph vertex that represents the CPU currently
* targeted by an interrupt.
*/
devfs_handle_t
pciio_intr_cpu_get(pciio_intr_t intr_hdl)
{
return INTR_FUNC(intr_hdl, intr_cpu_get)
(CAST_INTR(intr_hdl));
}
/* =====================================================================
* ERROR MANAGEMENT
*/
void
pciio_slot_func_to_name(char *name,
pciio_slot_t slot,
pciio_function_t func)
{
/*
* standard connection points:
*
* PCIIO_SLOT_NONE: .../pci/direct
* PCIIO_FUNC_NONE: .../pci/<SLOT> ie. .../pci/3
* multifunction: .../pci/<SLOT><FUNC> ie. .../pci/3c
*/
if (slot == PCIIO_SLOT_NONE)
sprintf(name, "direct");
else if (func == PCIIO_FUNC_NONE)
sprintf(name, "%d", slot);
else
sprintf(name, "%d%c", slot, 'a'+func);
}
/*
* pciio_cardinfo_get
*
* Get the pciio info structure corresponding to the
* specified PCI "slot" (we like it when the same index
* number is used for the PCI IDSEL, the REQ/GNT pair,
* and the interrupt line being used for INTA. We like
* it so much we call it the slot number).
*/
static pciio_info_t
pciio_cardinfo_get(
devfs_handle_t pciio_vhdl,
pciio_slot_t pci_slot)
{
char namebuf[16];
pciio_info_t info = 0;
devfs_handle_t conn;
pciio_slot_func_to_name(namebuf, pci_slot, PCIIO_FUNC_NONE);
if (GRAPH_SUCCESS ==
hwgraph_traverse(pciio_vhdl, namebuf, &conn)) {
info = pciio_info_chk(conn);
hwgraph_vertex_unref(conn);
}
return info;
}
/*
* pciio_error_handler:
* dispatch an error to the appropriate
* pciio connection point, or process
* it as a generic pci error.
* Yes, the first parameter is the
* provider vertex at the middle of
* the bus; we get to the pciio connect
* point using the ioerror widgetdev field.
*
* This function is called by the
* specific PCI provider, after it has figured
* out where on the PCI bus (including which slot,
* if it can tell) the error came from.
*/
/*ARGSUSED */
int
pciio_error_handler(
devfs_handle_t pciio_vhdl,
int error_code,
ioerror_mode_t mode,
ioerror_t *ioerror)
{
pciio_info_t pciio_info;
devfs_handle_t pconn_vhdl;
#if USRPCI
devfs_handle_t usrpci_v;
#endif
pciio_slot_t slot;
int retval;
#if defined(CONFIG_SGI_IO_ERROR_HANDLING)
error_state_t e_state;
#endif
#ifdef IRIX
#if DEBUG && ERROR_DEBUG
cmn_err(CE_CONT, "%v: pciio_error_handler\n", pciio_vhdl);
#endif
#endif
IOERR_PRINTF(cmn_err(CE_NOTE,
"%v: PCI Bus Error: Error code: %d Error mode: %d\n",
pciio_vhdl, error_code, mode));
/* If there is an error handler sitting on
* the "no-slot" connection point, give it
* first crack at the error. NOTE: it is
* quite possible that this function may
* do further refining of the ioerror.
*/
pciio_info = pciio_cardinfo_get(pciio_vhdl, PCIIO_SLOT_NONE);
if (pciio_info && pciio_info->c_efunc) {
pconn_vhdl = pciio_info_dev_get(pciio_info);
#if defined(CONFIG_SGI_IO_ERROR_HANDLING)
e_state = error_state_get(pciio_vhdl);
if (e_state == ERROR_STATE_ACTION)
(void)error_state_set(pciio_vhdl, ERROR_STATE_NONE);
if (error_state_set(pconn_vhdl,e_state) ==
ERROR_RETURN_CODE_CANNOT_SET_STATE)
return(IOERROR_UNHANDLED);
#endif
retval = pciio_info->c_efunc
(pciio_info->c_einfo, error_code, mode, ioerror);
if (retval != IOERROR_UNHANDLED)
return retval;
}
/* Is the error associated with a particular slot?
*/
if (IOERROR_FIELDVALID(ioerror, widgetdev)) {
/*
* NOTE :
* widgetdev is a 4byte value encoded as slot in the higher order
* 2 bytes and function in the lower order 2 bytes.
*/
#ifdef IRIX
slot = pciio_widgetdev_slot_get(IOERROR_GETVALUE(ioerror, widgetdev));
#else
slot = 0;
#endif
/* If this slot has an error handler,
* deliver the error to it.
*/
pciio_info = pciio_cardinfo_get(pciio_vhdl, slot);
if (pciio_info != NULL) {
if (pciio_info->c_efunc != NULL) {
pconn_vhdl = pciio_info_dev_get(pciio_info);
#if defined(CONFIG_SGI_IO_ERROR_HANDLING)
e_state = error_state_get(pciio_vhdl);
if (e_state == ERROR_STATE_ACTION)
(void)error_state_set(pciio_vhdl, ERROR_STATE_NONE);
if (error_state_set(pconn_vhdl,e_state) ==
ERROR_RETURN_CODE_CANNOT_SET_STATE)
return(IOERROR_UNHANDLED);
#endif
retval = pciio_info->c_efunc
(pciio_info->c_einfo, error_code, mode, ioerror);
if (retval != IOERROR_UNHANDLED)
return retval;
}
#if USRPCI
/* If the USRPCI driver is available and
* knows about this connection point,
* deliver the error to it.
*
* OK to use pconn_vhdl here, even though we
* have already UNREF'd it, since we know that
* it is not going away.
*/
pconn_vhdl = pciio_info_dev_get(pciio_info);
if (GRAPH_SUCCESS ==
hwgraph_traverse(pconn_vhdl, EDGE_LBL_USRPCI, &usrpci_v)) {
retval = usrpci_error_handler
(usrpci_v, error_code, IOERROR_GETVALUE(ioerror, busaddr));
hwgraph_vertex_unref(usrpci_v);
if (retval != IOERROR_UNHANDLED) {
/*
* This unref is not needed. If this code is called often enough,
* the system will crash, due to vertex reference count reaching 0,
* causing vertex to be unallocated. -jeremy
* hwgraph_vertex_unref(pconn_vhdl);
*/
return retval;
}
}
#endif
}
}
return (mode == MODE_DEVPROBE)
? IOERROR_HANDLED /* probes are OK */
: IOERROR_UNHANDLED; /* otherwise, foo! */
}
int
pciio_error_devenable(devfs_handle_t pconn_vhdl, int error_code)
{
return DEV_FUNC(pconn_vhdl, error_devenable)
(pconn_vhdl, error_code);
/* no cleanup specific to this layer. */
}
/* =====================================================================
* CONFIGURATION MANAGEMENT
*/
/*
* Startup a crosstalk provider
*/
void
pciio_provider_startup(devfs_handle_t pciio_provider)
{
DEV_FUNC(pciio_provider, provider_startup)
(pciio_provider);
}
/*
* Shutdown a crosstalk provider
*/
void
pciio_provider_shutdown(devfs_handle_t pciio_provider)
{
DEV_FUNC(pciio_provider, provider_shutdown)
(pciio_provider);
}
/*
* Specify endianness constraints. The driver tells us what the device
* does and how it would like to see things in memory. We reply with
* how things will actually appear in memory.
*/
pciio_endian_t
pciio_endian_set(devfs_handle_t dev,
pciio_endian_t device_end,
pciio_endian_t desired_end)
{
ASSERT((device_end == PCIDMA_ENDIAN_BIG) || (device_end == PCIDMA_ENDIAN_LITTLE));
ASSERT((desired_end == PCIDMA_ENDIAN_BIG) || (desired_end == PCIDMA_ENDIAN_LITTLE));
#if DEBUG
cmn_err(CE_ALERT,
"%v: pciio_endian_set is going away.\n"
"\tplease use PCIIO_BYTE_STREAM or PCIIO_WORD_VALUES in your\n"
"\tpciio_dmamap_alloc and pciio_dmatrans calls instead.\n",
dev);
#endif
return DEV_FUNC(dev, endian_set)
(dev, device_end, desired_end);
}
/*
* Specify PCI arbitration priority.
*/
pciio_priority_t
pciio_priority_set(devfs_handle_t dev,
pciio_priority_t device_prio)
{
ASSERT((device_prio == PCI_PRIO_HIGH) || (device_prio == PCI_PRIO_LOW));
return DEV_FUNC(dev, priority_set)
(dev, device_prio);
}
/*
* Read value of configuration register
*/
uint64_t
pciio_config_get(devfs_handle_t dev,
unsigned reg,
unsigned size)
{
uint64_t value = 0;
unsigned shift = 0;
/* handle accesses that cross words here,
* since that's common code between all
* possible providers.
*/
while (size > 0) {
unsigned biw = 4 - (reg&3);
if (biw > size)
biw = size;
value |= DEV_FUNC(dev, config_get)
(dev, reg, biw) << shift;
shift += 8*biw;
reg += biw;
size -= biw;
}
return value;
}
/*
* Change value of configuration register
*/
void
pciio_config_set(devfs_handle_t dev,
unsigned reg,
unsigned size,
uint64_t value)
{
/* handle accesses that cross words here,
* since that's common code between all
* possible providers.
*/
while (size > 0) {
unsigned biw = 4 - (reg&3);
if (biw > size)
biw = size;
DEV_FUNC(dev, config_set)
(dev, reg, biw, value);
reg += biw;
size -= biw;
value >>= biw * 8;
}
}
/* =====================================================================
* GENERIC PCI SUPPORT FUNCTIONS
*/
pciio_slot_t
pciio_error_extract(devfs_handle_t dev,
pciio_space_t *space,
iopaddr_t *offset)
{
ASSERT(dev != NODEV);
return DEV_FUNC(dev,error_extract)(dev,space,offset);
}
/*
* Issue a hardware reset to a card.
*/
int
pciio_reset(devfs_handle_t dev)
{
return DEV_FUNC(dev, reset) (dev);
}
/*
* flush write gather buffers
*/
int
pciio_write_gather_flush(devfs_handle_t dev)
{
return DEV_FUNC(dev, write_gather_flush) (dev);
}
devfs_handle_t
pciio_intr_dev_get(pciio_intr_t pciio_intr)
{
return (pciio_intr->pi_dev);
}
/****** Generic crosstalk pio interfaces ******/
devfs_handle_t
pciio_pio_dev_get(pciio_piomap_t pciio_piomap)
{
return (pciio_piomap->pp_dev);
}
pciio_slot_t
pciio_pio_slot_get(pciio_piomap_t pciio_piomap)
{
return (pciio_piomap->pp_slot);
}
pciio_space_t
pciio_pio_space_get(pciio_piomap_t pciio_piomap)
{
return (pciio_piomap->pp_space);
}
iopaddr_t
pciio_pio_pciaddr_get(pciio_piomap_t pciio_piomap)
{
return (pciio_piomap->pp_pciaddr);
}
ulong
pciio_pio_mapsz_get(pciio_piomap_t pciio_piomap)
{
return (pciio_piomap->pp_mapsz);
}
caddr_t
pciio_pio_kvaddr_get(pciio_piomap_t pciio_piomap)
{
return (pciio_piomap->pp_kvaddr);
}
/****** Generic crosstalk dma interfaces ******/
devfs_handle_t
pciio_dma_dev_get(pciio_dmamap_t pciio_dmamap)
{
return (pciio_dmamap->pd_dev);
}
pciio_slot_t
pciio_dma_slot_get(pciio_dmamap_t pciio_dmamap)
{
return (pciio_dmamap->pd_slot);
}
/****** Generic pci slot information interfaces ******/
pciio_info_t
pciio_info_chk(devfs_handle_t pciio)
{
arbitrary_info_t ainfo = 0;
hwgraph_info_get_LBL(pciio, INFO_LBL_PCIIO, &ainfo);
return (pciio_info_t) ainfo;
}
pciio_info_t
pciio_info_get(devfs_handle_t pciio)
{
pciio_info_t pciio_info;
pciio_info = (pciio_info_t) hwgraph_fastinfo_get(pciio);
#ifdef DEBUG_PCIIO
{
int pos;
char dname[256];
pos = devfs_generate_path(pciio, dname, 256);
printk("%s : path= %s\n", __FUNCTION__, &dname[pos]);
}
#endif /* DEBUG_PCIIO */
#ifdef BRINGUP
if ((pciio_info != NULL) &&
(pciio_info->c_fingerprint != pciio_info_fingerprint)
&& (pciio_info->c_fingerprint != NULL)) {
#else
if ((pciio_info != NULL) &&
(pciio_info->c_fingerprint != pciio_info_fingerprint)) {
#endif /* BRINGUP */
printk("pciio_info_get: Found fastinfo 0x%p but wrong fingerprint %s\n", pciio_info,
pciio_info->c_fingerprint);
return((pciio_info_t)-1); /* Should panic .. */
}
return pciio_info;
}
void
pciio_info_set(devfs_handle_t pciio, pciio_info_t pciio_info)
{
if (pciio_info != NULL)
pciio_info->c_fingerprint = pciio_info_fingerprint;
hwgraph_fastinfo_set(pciio, (arbitrary_info_t) pciio_info);
/* Also, mark this vertex as a PCI slot
* and use the pciio_info, so pciio_info_chk
* can work (and be fairly efficient).
*/
hwgraph_info_add_LBL(pciio, INFO_LBL_PCIIO,
(arbitrary_info_t) pciio_info);
}
devfs_handle_t
pciio_info_dev_get(pciio_info_t pciio_info)
{
return (pciio_info->c_vertex);
}
/*ARGSUSED*/
pciio_bus_t
pciio_info_bus_get(pciio_info_t pciio_info)
{
/* XXX for now O2 always gets back bus 0 */
return (pciio_bus_t)0;
}
pciio_slot_t
pciio_info_slot_get(pciio_info_t pciio_info)
{
return (pciio_info->c_slot);
}
pciio_function_t
pciio_info_function_get(pciio_info_t pciio_info)
{
return (pciio_info->c_func);
}
pciio_vendor_id_t
pciio_info_vendor_id_get(pciio_info_t pciio_info)
{
return (pciio_info->c_vendor);
}
pciio_device_id_t
pciio_info_device_id_get(pciio_info_t pciio_info)
{
return (pciio_info->c_device);
}
devfs_handle_t
pciio_info_master_get(pciio_info_t pciio_info)
{
return (pciio_info->c_master);
}
arbitrary_info_t
pciio_info_mfast_get(pciio_info_t pciio_info)
{
return (pciio_info->c_mfast);
}
pciio_provider_t *
pciio_info_pops_get(pciio_info_t pciio_info)
{
return (pciio_info->c_pops);
}
error_handler_f *
pciio_info_efunc_get(pciio_info_t pciio_info)
{
return (pciio_info->c_efunc);
}
error_handler_arg_t *
pciio_info_einfo_get(pciio_info_t pciio_info)
{
return (pciio_info->c_einfo);
}
pciio_space_t
pciio_info_bar_space_get(pciio_info_t info, int win)
{
return info->c_window[win].w_space;
}
iopaddr_t
pciio_info_bar_base_get(pciio_info_t info, int win)
{
return info->c_window[win].w_base;
}
size_t
pciio_info_bar_size_get(pciio_info_t info, int win)
{
return info->c_window[win].w_size;
}
iopaddr_t
pciio_info_rom_base_get(pciio_info_t info)
{
return info->c_rbase;
}
size_t
pciio_info_rom_size_get(pciio_info_t info)
{
return info->c_rsize;
}
/* =====================================================================
* GENERIC PCI INITIALIZATION FUNCTIONS
*/
/*
* pciioinit: called once during device driver
* initializtion if this driver is configured into
* the system.
*/
void
pciio_init(void)
{
cdl_p cp;
#if DEBUG && ATTACH_DEBUG
printf("pciio_init\n");
#endif
/* Allocate the registry.
* We might already have one.
* If we don't, go get one.
* MPness: someone might have
* set one up for us while we
* were not looking; use an atomic
* compare-and-swap to commit to
* using the new registry if and
* only if nobody else did first.
* If someone did get there first,
* toss the one we allocated back
* into the pool.
*/
if (pciio_registry == NULL) {
cp = cdl_new(EDGE_LBL_PCI, "vendor", "device");
if (!compare_and_swap_ptr((void **) &pciio_registry, NULL, (void *) cp)) {
cdl_del(cp);
}
}
ASSERT(pciio_registry != NULL);
}
/*
* pciioattach: called for each vertex in the graph
* that is a PCI provider.
*/
/*ARGSUSED */
int
pciio_attach(devfs_handle_t pciio)
{
#if DEBUG && ATTACH_DEBUG
cmn_err(CE_CONT, "%v: pciio_attach\n", pciio);
#endif
return 0;
}
/*
* Associate a set of pciio_provider functions with a vertex.
*/
void
pciio_provider_register(devfs_handle_t provider, pciio_provider_t *pciio_fns)
{
hwgraph_info_add_LBL(provider, INFO_LBL_PFUNCS, (arbitrary_info_t) pciio_fns);
}
/*
* Disassociate a set of pciio_provider functions with a vertex.
*/
void
pciio_provider_unregister(devfs_handle_t provider)
{
arbitrary_info_t ainfo;
#ifdef IRIX
hwgraph_info_remove_LBL(provider, INFO_LBL_PFUNCS, &ainfo);
#else
hwgraph_info_remove_LBL(provider, INFO_LBL_PFUNCS, (long *) &ainfo);
#endif
}
/*
* Obtain a pointer to the pciio_provider functions for a specified Crosstalk
* provider.
*/
pciio_provider_t *
pciio_provider_fns_get(devfs_handle_t provider)
{
arbitrary_info_t ainfo = 0;
(void) hwgraph_info_get_LBL(provider, INFO_LBL_PFUNCS, &ainfo);
return (pciio_provider_t *) ainfo;
}
/*ARGSUSED4 */
int
pciio_driver_register(
pciio_vendor_id_t vendor_id,
pciio_device_id_t device_id,
char *driver_prefix,
unsigned flags)
{
/* a driver's init routine might call
* pciio_driver_register before the
* system calls pciio_init; so we
* make the init call ourselves here.
*/
if (pciio_registry == NULL)
pciio_init();
return cdl_add_driver(pciio_registry,
vendor_id, device_id,
driver_prefix, flags);
}
/*
* Remove an initialization function.
*/
void
pciio_driver_unregister(
char *driver_prefix)
{
/* before a driver calls unregister,
* it must have called register; so
* we can assume we have a registry here.
*/
ASSERT(pciio_registry != NULL);
cdl_del_driver(pciio_registry, driver_prefix);
}
/*
* Call some function with each vertex that
* might be one of this driver's attach points.
*/
void
pciio_iterate(char *driver_prefix,
pciio_iter_f * func)
{
/* a driver's init routine might call
* pciio_iterate before the
* system calls pciio_init; so we
* make the init call ourselves here.
*/
if (pciio_registry == NULL)
pciio_init();
ASSERT(pciio_registry != NULL);
cdl_iterate(pciio_registry, driver_prefix, (cdl_iter_f *) func);
}
devfs_handle_t
pciio_device_register(
devfs_handle_t connectpt, /* vertex for /hw/.../pciio/%d */
devfs_handle_t master, /* card's master ASIC (PCI provider) */
pciio_slot_t slot, /* card's slot */
pciio_function_t func, /* card's func */
pciio_vendor_id_t vendor_id,
pciio_device_id_t device_id)
{
return pciio_device_info_register
(connectpt, pciio_device_info_new (NULL, master, slot, func,
vendor_id, device_id));
}
void
pciio_device_unregister(devfs_handle_t pconn)
{
DEV_FUNC(pconn,device_unregister)(pconn);
}
pciio_info_t
pciio_device_info_new(
pciio_info_t pciio_info,
devfs_handle_t master,
pciio_slot_t slot,
pciio_function_t func,
pciio_vendor_id_t vendor_id,
pciio_device_id_t device_id)
{
if (!pciio_info)
NEW(pciio_info);
ASSERT(pciio_info != NULL);
pciio_info->c_slot = slot;
pciio_info->c_func = func;
pciio_info->c_vendor = vendor_id;
pciio_info->c_device = device_id;
pciio_info->c_master = master;
pciio_info->c_mfast = hwgraph_fastinfo_get(master);
pciio_info->c_pops = pciio_provider_fns_get(master);
pciio_info->c_efunc = 0;
pciio_info->c_einfo = 0;
return pciio_info;
}
void
pciio_device_info_free(pciio_info_t pciio_info)
{
/* NOTE : pciio_info is a structure within the pcibr_info
* and not a pointer to memory allocated on the heap !!
*/
BZERO((char *)pciio_info,sizeof(pciio_info));
}
devfs_handle_t
pciio_device_info_register(
devfs_handle_t connectpt, /* vertex at center of bus */
pciio_info_t pciio_info) /* details about the connectpt */
{
char name[32];
devfs_handle_t pconn;
pciio_slot_func_to_name(name,
pciio_info->c_slot,
pciio_info->c_func);
printk("pciio_device_info_register: connectpt 0x%p, pciio_info 0x%p\n", connectpt, pciio_info);
if (GRAPH_SUCCESS !=
hwgraph_path_add(connectpt, name, &pconn))
return pconn;
pciio_info->c_vertex = pconn;
pciio_info_set(pconn, pciio_info);
#ifdef BRINGUP
{
int pos;
char dname[256];
pos = devfs_generate_path(pconn, dname, 256);
printk("%s : pconn path= %s \n", __FUNCTION__, &dname[pos]);
}
#endif /* BRINGUP */
/*
* create link to our pci provider
*/
device_master_set(pconn, pciio_info->c_master);
#if USRPCI
/*
* Call into usrpci provider to let it initialize for
* the given slot.
*/
if (pciio_info->c_slot != PCIIO_SLOT_NONE)
usrpci_device_register(pconn, pciio_info->c_master, pciio_info->c_slot);
#endif
return pconn;
}
void
pciio_device_info_unregister(devfs_handle_t connectpt,
pciio_info_t pciio_info)
{
char name[32];
devfs_handle_t pconn;
if (!pciio_info)
return;
pciio_slot_func_to_name(name,
pciio_info->c_slot,
pciio_info->c_func);
hwgraph_edge_remove(connectpt,name,&pconn);
pciio_info_set(pconn,0);
/* Remove the link to our pci provider */
hwgraph_edge_remove(pconn, EDGE_LBL_MASTER, NULL);
hwgraph_vertex_unref(pconn);
hwgraph_vertex_destroy(pconn);
}
/* Add the pci card inventory information to the hwgraph
*/
static void
pciio_device_inventory_add(devfs_handle_t pconn_vhdl)
{
pciio_info_t pciio_info = pciio_info_get(pconn_vhdl);
ASSERT(pciio_info);
ASSERT(pciio_info->c_vertex == pconn_vhdl);
/* Donot add inventory for non-existent devices */
if ((pciio_info->c_vendor == PCIIO_VENDOR_ID_NONE) ||
(pciio_info->c_device == PCIIO_DEVICE_ID_NONE))
return;
device_inventory_add(pconn_vhdl,INV_IOBD,INV_PCIADAP,
pciio_info->c_vendor,pciio_info->c_device,
pciio_info->c_slot);
}
static void
pciio_device_inventory_remove(devfs_handle_t pconn_vhdl)
{
#ifdef IRIX
hwgraph_inventory_remove(pconn_vhdl,-1,-1,-1,-1,-1);
#endif
}
/*ARGSUSED */
int
pciio_device_attach(devfs_handle_t pconn)
{
pciio_info_t pciio_info;
pciio_vendor_id_t vendor_id;
pciio_device_id_t device_id;
pciio_device_inventory_add(pconn);
pciio_info = pciio_info_get(pconn);
vendor_id = pciio_info->c_vendor;
device_id = pciio_info->c_device;
printk("pciio_device_attach: Function 0x%p, vendor 0x%x, device_id %x\n", pconn, vendor_id, device_id);
/* we don't start attaching things until
* all the driver init routines (including
* pciio_init) have been called; so we
* can assume here that we have a registry.
*/
ASSERT(pciio_registry != NULL);
return(cdl_add_connpt(pciio_registry, vendor_id, device_id, pconn));
}
int
pciio_device_detach(devfs_handle_t pconn)
{
pciio_info_t pciio_info;
pciio_vendor_id_t vendor_id;
pciio_device_id_t device_id;
pciio_device_inventory_remove(pconn);
pciio_info = pciio_info_get(pconn);
vendor_id = pciio_info->c_vendor;
device_id = pciio_info->c_device;
/* we don't start attaching things until
* all the driver init routines (including
* pciio_init) have been called; so we
* can assume here that we have a registry.
*/
ASSERT(pciio_registry != NULL);
cdl_del_connpt(pciio_registry, vendor_id, device_id, pconn);
return(0);
}
/*
* pciio_error_register:
* arrange for a function to be called with
* a specified first parameter plus other
* information when an error is encountered
* and traced to the pci slot corresponding
* to the connection point pconn.
*
* may also be called with a null function
* pointer to "unregister" the error handler.
*
* NOTE: subsequent calls silently overwrite
* previous data for this vertex. We assume that
* cooperating drivers, well, cooperate ...
*/
void
pciio_error_register(devfs_handle_t pconn,
error_handler_f *efunc,
error_handler_arg_t einfo)
{
pciio_info_t pciio_info;
pciio_info = pciio_info_get(pconn);
ASSERT(pciio_info != NULL);
pciio_info->c_efunc = efunc;
pciio_info->c_einfo = einfo;
}
/*
* Check if any device has been found in this slot, and return
* true or false
* vhdl is the vertex for the slot
*/
int
pciio_slot_inuse(devfs_handle_t pconn_vhdl)
{
pciio_info_t pciio_info = pciio_info_get(pconn_vhdl);
ASSERT(pciio_info);
ASSERT(pciio_info->c_vertex == pconn_vhdl);
if (pciio_info->c_vendor) {
/*
* Non-zero value for vendor indicate
* a board being found in this slot.
*/
return 1;
}
return 0;
}
int
pciio_dma_enabled(devfs_handle_t pconn_vhdl)
{
return DEV_FUNC(pconn_vhdl, dma_enabled)(pconn_vhdl);
}
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