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nexedi
linux
Commits
2b889c52
Commit
2b889c52
authored
Jan 18, 2004
by
Andrew Morton
Committed by
Linus Torvalds
Jan 18, 2004
Browse files
Options
Browse Files
Download
Email Patches
Plain Diff
[PATCH] sn: Code changes for interrupt redirect
From: Pat Gefre <pfg@sgi.com> Code changes for interrupt redirect
parent
439ab81e
Changes
8
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Showing
8 changed files
with
306 additions
and
1226 deletions
+306
-1226
arch/ia64/sn/io/sn2/ml_SN_intr.c
arch/ia64/sn/io/sn2/ml_SN_intr.c
+2
-2
arch/ia64/sn/io/sn2/pcibr/Makefile
arch/ia64/sn/io/sn2/pcibr/Makefile
+5
-2
arch/ia64/sn/io/sn2/shub_intr.c
arch/ia64/sn/io/sn2/shub_intr.c
+83
-11
arch/ia64/sn/kernel/irq.c
arch/ia64/sn/kernel/irq.c
+6
-0
arch/ia64/sn/kernel/setup.c
arch/ia64/sn/kernel/setup.c
+3
-0
include/asm-ia64/sn/pci/pcibr_private.h
include/asm-ia64/sn/pci/pcibr_private.h
+7
-0
include/asm-ia64/sn/pci/pic.h
include/asm-ia64/sn/pci/pic.h
+199
-1211
include/asm-ia64/sn/pda.h
include/asm-ia64/sn/pda.h
+1
-0
No files found.
arch/ia64/sn/io/sn2/ml_SN_intr.c
View file @
2b889c52
...
...
@@ -81,7 +81,7 @@ void intr_init_vecblk(cnodeid_t node)
/* Config and enable UART interrupt, all nodes. */
local5_config
.
sh_local_int5_config_regval
=
0
;
local5_config
.
sh_local_int5_config_s
.
idx
=
SGI_UART_VECTOR
;
local5_config
.
sh_local_int5_config_s
.
pid
=
cpu
0
;
local5_config
.
sh_local_int5_config_s
.
pid
=
cpu
;
HUB_S
((
unsigned
long
*
)
GLOBAL_MMR_ADDR
(
nasid
,
SH_LOCAL_INT5_CONFIG
),
local5_config
.
sh_local_int5_config_regval
);
...
...
@@ -222,7 +222,7 @@ static cpuid_t intr_cpu_choose_from_node(cnodeid_t cnode)
int
intrs
;
cpu
=
cnode_slice_to_cpuid
(
cnode
,
slice
);
if
(
cpu
==
num_online_cpus
()
)
if
(
cpu
==
NR_CPUS
)
continue
;
if
(
!
cpu_online
(
cpu
))
continue
;
...
...
arch/ia64/sn/io/sn2/pcibr/Makefile
View file @
2b889c52
...
...
@@ -9,5 +9,8 @@
# Makefile for the sn2 specific pci bridge routines.
#
obj-y
+=
pcibr_ate.o pcibr_config.o pcibr_dvr.o pcibr_hints.o pcibr_intr.o pcibr_rrb.o
\
pcibr_slot.o pcibr_error.o
obj-y
+=
pcibr_ate.o pcibr_config.o
\
pcibr_dvr.o pcibr_hints.o
\
pcibr_intr.o pcibr_rrb.o
\
pcibr_slot.o pcibr_error.o
\
pcibr_reg.o
arch/ia64/sn/io/sn2/shub_intr.c
View file @
2b889c52
...
...
@@ -25,10 +25,8 @@
#include <asm/sn/klconfig.h>
#include <asm/sn/sn2/shub_mmr.h>
#include <asm/sn/sn_cpuid.h>
typedef
void
pci_bridge_t
;
#include <asm/sn/pci/pcibr.h>
#include <asm/sn/pci/pcibr_private.h>
/* ARGSUSED */
void
...
...
@@ -39,11 +37,15 @@ hub_intr_init(vertex_hdl_t hubv)
xwidgetnum_t
hub_widget_id
(
nasid_t
nasid
)
{
hubii_wcr_t
ii_wcr
;
/* the control status register */
ii_wcr
.
wcr_reg_value
=
REMOTE_HUB_L
(
nasid
,
IIO_WCR
);
return
ii_wcr
.
wcr_fields_s
.
wcr_widget_id
;
if
(
!
(
nasid
&
1
))
{
hubii_wcr_t
ii_wcr
;
/* the control status register */
ii_wcr
.
wcr_reg_value
=
REMOTE_HUB_L
(
nasid
,
IIO_WCR
);
return
ii_wcr
.
wcr_fields_s
.
wcr_widget_id
;
}
else
{
/* ICE does not have widget id. */
return
(
-
1
);
}
}
static
hub_intr_t
...
...
@@ -52,7 +54,7 @@ do_hub_intr_alloc(vertex_hdl_t dev,
vertex_hdl_t
owner_dev
,
int
uncond_nothread
)
{
cpuid_t
cpu
=
0
;
cpuid_t
cpu
;
int
vector
;
hub_intr_t
intr_hdl
;
cnodeid_t
cnode
;
...
...
@@ -97,7 +99,7 @@ do_hub_intr_alloc(vertex_hdl_t dev,
intr_hdl
->
i_bit
=
vector
;
intr_hdl
->
i_flags
|=
HUB_INTR_IS_ALLOCED
;
return
(
intr_hdl
)
;
return
intr_hdl
;
}
hub_intr_t
...
...
@@ -187,3 +189,73 @@ hub_intr_disconnect(hub_intr_t intr_hdl)
ASSERT
(
rv
==
0
);
intr_hdl
->
i_flags
&=
~
HUB_INTR_IS_CONNECTED
;
}
/*
* Redirect an interrupt to another cpu.
*/
void
sn_shub_redirect_intr
(
pcibr_intr_t
intr
,
unsigned
long
cpu
)
{
unsigned
long
bit
;
int
cpuphys
,
slice
;
nasid_t
nasid
;
unsigned
long
xtalk_addr
;
void
*
bridge
=
intr
->
bi_soft
->
bs_base
;
int
irq
;
int
i
;
int
old_cpu
;
int
new_cpu
;
cpuphys
=
cpu_physical_id
(
cpu
);
slice
=
cpu_physical_id_to_slice
(
cpuphys
);
nasid
=
cpu_physical_id_to_nasid
(
cpuphys
);
for
(
i
=
CPUS_PER_NODE
-
1
;
i
>=
0
;
i
--
)
{
new_cpu
=
nasid_slice_to_cpuid
(
nasid
,
i
);
if
(
new_cpu
==
NR_CPUS
)
{
continue
;
}
if
(
!
cpu_online
(
new_cpu
))
{
continue
;
}
break
;
}
if
(
enable_shub_wars_1_1
()
&&
slice
!=
i
)
{
printk
(
"smp_affinity WARNING: SHUB 1.1 present: cannot target cpu %d, targeting cpu %d instead.
\n
"
,(
int
)
cpu
,
new_cpu
);
cpu
=
new_cpu
;
slice
=
i
;
}
if
(
slice
)
{
xtalk_addr
=
SH_II_INT1
|
((
unsigned
long
)
nasid
<<
36
)
|
(
1UL
<<
47
);
}
else
{
xtalk_addr
=
SH_II_INT0
|
((
unsigned
long
)
nasid
<<
36
)
|
(
1UL
<<
47
);
}
for
(
bit
=
0
;
bit
<
8
;
bit
++
)
{
if
(
intr
->
bi_ibits
&
(
1
<<
bit
)
)
{
/* Disable interrupts. */
pcireg_intr_enable_bit_clr
(
bridge
,
bit
);
/* Reset Host address (Interrupt destination) */
pcireg_intr_addr_addr_set
(
bridge
,
bit
,
xtalk_addr
);
/* Enable interrupt */
pcireg_intr_enable_bit_set
(
bridge
,
bit
);
/* Force an interrupt, just in case. */
pcireg_force_intr_set
(
bridge
,
bit
);
}
}
irq
=
intr
->
bi_irq
;
old_cpu
=
intr
->
bi_cpu
;
if
(
pdacpu
(
cpu
)
->
sn_first_irq
==
0
||
pdacpu
(
cpu
)
->
sn_first_irq
>
irq
)
{
pdacpu
(
cpu
)
->
sn_first_irq
=
irq
;
}
if
(
pdacpu
(
cpu
)
->
sn_last_irq
<
irq
)
{
pdacpu
(
cpu
)
->
sn_last_irq
=
irq
;
}
pdacpu
(
old_cpu
)
->
sn_num_irqs
--
;
pdacpu
(
cpu
)
->
sn_num_irqs
++
;
intr
->
bi_cpu
=
(
int
)
cpu
;
}
arch/ia64/sn/kernel/irq.c
View file @
2b889c52
...
...
@@ -121,6 +121,7 @@ sn_set_affinity_irq(unsigned int irq, cpumask_t mask)
pcibr_intr_list_t
p
=
pcibr_intr_list
[
irq
];
pcibr_intr_t
intr
;
int
cpu
;
extern
void
sn_shub_redirect_intr
(
pcibr_intr_t
intr
,
unsigned
long
cpu
);
extern
void
sn_tio_redirect_intr
(
pcibr_intr_t
intr
,
unsigned
long
cpu
);
if
(
p
==
NULL
)
...
...
@@ -132,6 +133,11 @@ sn_set_affinity_irq(unsigned int irq, cpumask_t mask)
return
;
cpu
=
first_cpu
(
mask
);
if
(
IS_PIC_SOFT
(
intr
->
bi_soft
)
)
{
sn_shub_redirect_intr
(
intr
,
cpu
);
}
else
{
return
;
}
(
void
)
set_irq_affinity_info
(
irq
,
cpu_physical_id
(
intr
->
bi_cpu
),
redir
);
#endif
/* CONFIG_SMP */
}
...
...
arch/ia64/sn/kernel/setup.c
View file @
2b889c52
...
...
@@ -58,6 +58,7 @@ extern void bte_init_node (nodepda_t *, cnodeid_t);
extern
void
bte_init_cpu
(
void
);
extern
void
sn_timer_init
(
void
);
extern
unsigned
long
last_time_offset
;
extern
void
init_platform_hubinfo
(
nodepda_t
**
nodepdaindr
);
extern
void
(
*
ia64_mark_idle
)(
int
);
extern
void
snidle
(
int
);
...
...
@@ -220,6 +221,8 @@ sn_setup(char **cmdline_p)
int
major
=
sn_sal_rev_major
(),
minor
=
sn_sal_rev_minor
();
extern
nasid_t
snia_get_master_baseio_nasid
(
void
);
extern
void
sn_cpu_init
(
void
);
extern
nasid_t
snia_get_console_nasid
(
void
);
MAX_DMA_ADDRESS
=
PAGE_OFFSET
+
MAX_PHYS_MEMORY
;
...
...
include/asm-ia64/sn/pci/pcibr_private.h
View file @
2b889c52
...
...
@@ -43,6 +43,10 @@ cfg_p pcibr_slot_config_addr(bridge_t *, pciio_slot_t, int);
cfg_p
pcibr_func_config_addr
(
bridge_t
*
,
pciio_bus_t
bus
,
pciio_slot_t
,
pciio_function_t
,
int
);
unsigned
pcibr_slot_config_get
(
bridge_t
*
,
pciio_slot_t
,
int
);
unsigned
pcibr_func_config_get
(
bridge_t
*
,
pciio_slot_t
,
pciio_function_t
,
int
);
extern
void
pcireg_intr_enable_bit_clr
(
void
*
,
uint64_t
);
extern
void
pcireg_intr_enable_bit_set
(
void
*
,
uint64_t
);
extern
void
pcireg_intr_addr_addr_set
(
void
*
,
int
,
uint64_t
);
extern
void
pcireg_force_intr_set
(
void
*
,
int
);
void
pcibr_debug
(
uint32_t
,
vertex_hdl_t
,
char
*
,
...);
void
pcibr_slot_config_set
(
bridge_t
*
,
pciio_slot_t
,
int
,
unsigned
);
void
pcibr_func_config_set
(
bridge_t
*
,
pciio_slot_t
,
pciio_function_t
,
int
,
...
...
@@ -304,6 +308,9 @@ struct pcibr_intr_wrap_s {
#define PV862253 (1 << 1)
/* PIC: don't enable write req RAM parity checking */
#define PV867308 (3 << 1)
/* PIC: make LLP error interrupts FATAL for PIC */
/* Bridgetype macros given a pcibr_soft structure */
#define IS_PIC_SOFT(ps) (ps->bs_bridge_type == PCIBR_BRIDGETYPE_PIC)
/* defines for pcibr_soft_s->bs_bridge_mode */
#define PCIBR_BRIDGEMODE_PCI_33 0x0
...
...
include/asm-ia64/sn/pci/pic.h
View file @
2b889c52
...
...
@@ -775,1216 +775,204 @@ extern pciio_provider_t pci_pic_provider;
*
*/
typedef
uint64_t
picreg_t
;
/*********************************************************************
* PIC register structures
*
*/
/*
* Identification Register
*
* The Identification register is a read only register used by the host CPU
* during configuration to determine the type of the widget. The format is
* the same as defined in IEEE 1149.1 JTAG Device Identification Register.
*/
typedef
union
pic_id_reg_u
{
picreg_t
pic_id_reg_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
rev_num
:
4
;
/* 31:28 */
picreg_t
part_num
:
16
;
/* 27:12 */
picreg_t
mfg_num
:
11
;
/* 11:1 */
picreg_t
:
1
;
/* 0:0 */
}
pic_id_reg_fld_s
;
}
pic_id_reg_u_t
;
/*
* Status Register
*
* The status register is a read register which holds status information of the
* Bus Subsection.
*/
typedef
union
pic_stat_reg_u
{
picreg_t
pic_stat_reg_regval
;
struct
{
picreg_t
:
28
;
/* 63:36 */
picreg_t
pci_x_speed
:
2
;
/* 35:34 */
picreg_t
pci_x_active
:
1
;
/* 33:33 */
picreg_t
:
1
;
/* 32:32 */
picreg_t
llp_rec_cnt
:
8
;
/* 31:24 */
picreg_t
llp_tx_cnt
:
8
;
/* 23:16 */
picreg_t
rx_credit_cnt
:
4
;
/* 15:12 */
picreg_t
tx_credit_cnt
:
4
;
/* 11:8 */
picreg_t
pci_misc_input
:
8
;
/* 7:0 */
}
pic_stat_reg_fld_s
;
}
pic_stat_reg_u_t
;
/*
* Upper Address Holding Register Bus Side Errors
*
* The upper address holding register is a read only register which contains
* the upper 16-bits of the address when certain error occurs (see error cases
* chapter). Subsequent errors are not logged until the error is cleared. The
* last logged value is held until the group is cleared and enabled.
*/
typedef
union
pic_upper_bus_err_u
{
picreg_t
pic_upper_bus_err_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
:
16
;
/* 31:16 */
picreg_t
upp_addr
:
16
;
/* 15:0 */
}
pic_upper_bus_err_fld_s
;
}
pic_upper_bus_err_u_t
;
/*
* Lower Address Holding Register Bus Side Errors
*
* The lower address holding register is a read only register which contains
* the address which either can be accessed as a word or double word. Sub-
* sequent errors are not logged until the error is cleared. The last logged
* value is held until the group is cleared and enabled.
*/
typedef
union
pic_lower_bus_err_u
{
picreg_t
pic_lower_bus_err_regval
;
struct
{
picreg_t
:
16
;
/* 63:48 */
picreg_t
upp_addr
:
16
;
/* 47:32 */
picreg_t
low_addr
:
32
;
/* 31:0 */
}
pic_lower_bus_err_fld_s
;
}
pic_lower_bus_err_u_t
;
/*
* Control Register
*
* The control register is a read/write register which holds control informa-
* tion for the bus subsection.
*/
typedef
union
pic_control_reg_u
{
picreg_t
pic_control_reg_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
:
4
;
/* 31:28 */
picreg_t
rst_pin_n
:
4
;
/* 27:24 */
picreg_t
:
1
;
/* 23:23 */
picreg_t
mem_swap
:
1
;
/* 22:22 */
picreg_t
page_size
:
1
;
/* 21:21 */
picreg_t
:
4
;
/* 20:17 */
picreg_t
f_bad_pkt
:
1
;
/* 16:16 */
picreg_t
llp_xbar_crd
:
4
;
/* 15:12 */
picreg_t
clr_rllp_cnt
:
1
;
/* 11:11 */
picreg_t
clr_tllp_cnt
:
1
;
/* 10:10 */
picreg_t
sys_end
:
1
;
/* 9:9 */
picreg_t
:
3
;
/* 8:6 */
picreg_t
pci_speed
:
2
;
/* 5:4 */
picreg_t
widget_id
:
4
;
/* 3:0 */
}
pic_control_reg_fld_s
;
}
pic_control_reg_u_t
;
/*
* PCI/PCI-X Request Time-out Value Register
*
* This register contains the reload value for the response timer. The request
* timer counts every 960 nS (32 PCI clocks)
*/
typedef
union
pic_pci_req_to_u
{
picreg_t
pic_pci_req_to_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
:
12
;
/* 31:20 */
picreg_t
time_out
:
20
;
/* 19:0 */
}
pic_pci_req_to_fld_s
;
}
pic_pci_req_to_u_t
;
/*
* Interrupt Destination Upper Address Register
*
* The interrupt destination upper address register is a read/write register
* containing the upper 16-bits of address of the host to which the interrupt
* is targeted. In addition the target ID is also contained in this register for
* use in Crosstalk mode.
*/
typedef
union
pic_int_desc_upper_u
{
picreg_t
pic_int_desc_upper_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
:
12
;
/* 31:20 */
picreg_t
target_id
:
4
;
/* 19:16 */
picreg_t
upp_addr
:
16
;
/* 15:0 */
}
pic_int_desc_upper_fld_s
;
}
pic_int_desc_upper_u_t
;
/*
* Interrupt Destination Lower Address Register
*
* The interrupt destination lower address register is a read/write register
* which contains the entire address of the host to which the interrupt is tar-
* geted. In addition the target ID is also contained in this register for use in
* Crosstalk mode.
*/
typedef
union
pic_int_desc_lower_u
{
picreg_t
pic_int_desc_lower_regval
;
struct
{
picreg_t
:
12
;
/* 63:52 */
picreg_t
target_id
:
4
;
/* 51:48 */
picreg_t
upp_addr
:
16
;
/* 47:32 */
picreg_t
low_addr
:
32
;
/* 31:0 */
}
pic_int_desc_lower_fld_s
;
}
pic_int_desc_lower_u_t
;
/*
* Command Word Holding Register Bus Side Errors
*
* The command word holding is a read register that holds the command
* word of a Crosstalk packet when errors occur on the link side (see error
* chapter). Errors are indicated with error bits in the interrupt status regis-
* ter. Subsequent errors are not logged until the interrupt is cleared..
*/
typedef
union
pic_cmd_word_bus_err_u
{
picreg_t
pic_cmd_word_bus_err_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
didn
:
4
;
/* 31:28 */
picreg_t
sidn
:
4
;
/* 27:24 */
picreg_t
pactyp
:
4
;
/* 23:20 */
picreg_t
tnum
:
5
;
/* 19:15 */
picreg_t
coherent
:
1
;
/* 14:14 */
picreg_t
ds
:
2
;
/* 13:12 */
picreg_t
gbr
:
1
;
/* 11:11 */
picreg_t
vbpm
:
1
;
/* 10:10 */
picreg_t
error
:
1
;
/* 9:9 */
picreg_t
barrier
:
1
;
/* 8:8 */
picreg_t
:
8
;
/* 7:0 */
}
pic_cmd_word_bus_err_fld_s
;
}
pic_cmd_word_bus_err_u_t
;
/*
* LLP Configuration Register
*
* This register contains the configuration information for the LLP modules
* and is only valid on bus 0 side.
*/
typedef
union
pic_llp_cfg_u
{
picreg_t
pic_llp_cfg_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
:
6
;
/* 31:26 */
picreg_t
llp_maxretry
:
10
;
/* 25:16 */
picreg_t
llp_nulltimeout
:
6
;
/* 15:10 */
picreg_t
llp_maxburst
:
10
;
/* 9:0 */
}
pic_llp_cfg_fld_s
;
}
pic_llp_cfg_u_t
;
/*
* PCI/PCI-X Target Flush Register
*
* When read, this register will return a 0x00 after all previous transfers to
* the PCI bus subsection have completed.
*/
/*
* Command Word Holding Register Link Side Errors
*
* The command word holding is a read-only register that holds the com-
* mand word of a Crosstalk packet when request fifo overflow or unexpect-
* ed response errors occur. Errors are indicated with error bits in the
* interrupt status register. Subsequent errors are not logged until this inter-
* rupt is cleared.
*/
typedef
union
pic_cmd_word_link_err_u
{
picreg_t
pic_cmd_word_link_err_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
didn
:
4
;
/* 31:28 */
picreg_t
sidn
:
4
;
/* 27:24 */
picreg_t
pactyp
:
4
;
/* 23:20 */
picreg_t
tnum
:
5
;
/* 19:15 */
picreg_t
coherent
:
1
;
/* 14:14 */
picreg_t
ds
:
2
;
/* 13:12 */
picreg_t
gbr
:
1
;
/* 11:11 */
picreg_t
vbpm
:
1
;
/* 10:10 */
picreg_t
error
:
1
;
/* 9:9 */
picreg_t
barrier
:
1
;
/* 8:8 */
picreg_t
:
8
;
/* 7:0 */
}
pic_cmd_word_link_err_fld_s
;
}
pic_cmd_word_link_err_u_t
;
/*
* PCI Response Buffer Error Upper Address Holding Reg
*
* The response buffer error upper address holding register is a read only
* register which contains the upper 16-bits of the address when error asso-
* ciated with response buffer entries occur. Subsequent errors are not
* logged until the interrupt is cleared.
*/
typedef
union
pic_pci_rbuf_err_upper_u
{
picreg_t
pic_pci_rbuf_err_upper_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
:
9
;
/* 31:23 */
picreg_t
dev_num
:
3
;
/* 22:20 */
picreg_t
buff_num
:
4
;
/* 19:16 */
picreg_t
upp_addr
:
16
;
/* 15:0 */
}
pic_pci_rbuf_err_upper_fld_s
;
}
pic_pci_rbuf_err_upper_u_t
;
/*
* PCI Response Buffer Error Lower Address Holding Reg
*
* The response buffer error lower address holding register is a read only
* register which contains the address of the error associated with response
* buffer entries. Subsequent errors are not logged until the interrupt is
* cleared.
*/
typedef
union
pic_pci_rbuf_err_lower_u
{
picreg_t
pic_pci_rbuf_err_lower_regval
;
struct
{
picreg_t
:
9
;
/* 63:55 */
picreg_t
dev_num
:
3
;
/* 54:52 */
picreg_t
buff_num
:
4
;
/* 51:48 */
picreg_t
upp_addr
:
16
;
/* 47:32 */
picreg_t
low_addr
:
32
;
/* 31:0 */
}
pic_pci_rbuf_err_lower_fld_s
;
}
pic_pci_rbuf_err_lower_u_t
;
/*
* Test Pin Control Register
*
* This register selects the output function and value to the four test pins on
* the PIC .
*/
typedef
union
pic_test_pin_cntl_u
{
picreg_t
pic_test_pin_cntl_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
:
8
;
/* 31:24 */
picreg_t
tdata_out
:
8
;
/* 23:16 */
picreg_t
sel_tpin_7
:
2
;
/* 15:14 */
picreg_t
sel_tpin_6
:
2
;
/* 13:12 */
picreg_t
sel_tpin_5
:
2
;
/* 11:10 */
picreg_t
sel_tpin_4
:
2
;
/* 9:8 */
picreg_t
sel_tpin_3
:
2
;
/* 7:6 */
picreg_t
sel_tpin_2
:
2
;
/* 5:4 */
picreg_t
sel_tpin_1
:
2
;
/* 3:2 */
picreg_t
sel_tpin_0
:
2
;
/* 1:0 */
}
pic_test_pin_cntl_fld_s
;
}
pic_test_pin_cntl_u_t
;
/*
* Address Holding Register Link Side Errors
*
* The address holding register is a read only register which contains the ad-
* dress which either can be accessed as a word or double word. Subsequent
* errors are not logged until the error is cleared. The last logged value is
* held until the group is cleared and enabled.
*/
typedef
union
pic_p_addr_lkerr_u
{
picreg_t
pic_p_addr_lkerr_regval
;
struct
{
picreg_t
:
16
;
/* 63:48 */
picreg_t
upp_addr
:
16
;
/* 47:32 */
picreg_t
low_addr
:
32
;
/* 31:0 */
}
pic_p_addr_lkerr_fld_s
;
}
pic_p_addr_lkerr_u_t
;
/*
* PCI Direct Mapping Register
*
* This register is used to relocate a 2 GByte region for PCI to Crosstalk
* transfers.
*/
typedef
union
pic_p_dir_map_u
{
picreg_t
pic_p_dir_map_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
:
8
;
/* 31:24 */
picreg_t
dir_w_id
:
4
;
/* 23:20 */
picreg_t
:
2
;
/* 19:18 */
picreg_t
dir_add512
:
1
;
/* 17:17 */
picreg_t
dir_off
:
17
;
/* 16:0 */
}
pic_p_dir_map_fld_s
;
}
pic_p_dir_map_u_t
;
/*
* PCI Page Map Fault Address Register
*
* This register contains the address and device number when a page map
* fault occurred.
*/
typedef
union
pic_p_map_fault_u
{
picreg_t
pic_p_map_fault_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
:
10
;
/* 31:22 */
picreg_t
pci_addr
:
18
;
/* 21:4 */
picreg_t
:
1
;
/* 3:3 */
picreg_t
pci_dev_num
:
3
;
/* 2:0 */
}
pic_p_map_fault_fld_s
;
}
pic_p_map_fault_u_t
;
/*
* Arbitration Register
*
* This register defines the priority and bus time out timing in PCI bus arbi-
* tration.
*/
typedef
union
pic_p_arb_u
{
picreg_t
pic_p_arb_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
:
8
;
/* 31:24 */
picreg_t
dev_broke
:
4
;
/* 23:20 */
picreg_t
:
2
;
/* 19:18 */
picreg_t
req_wait_tick
:
2
;
/* 17:16 */
picreg_t
:
4
;
/* 15:12 */
picreg_t
req_wait_en
:
4
;
/* 11:8 */
picreg_t
disarb
:
1
;
/* 7:7 */
picreg_t
freeze_gnt
:
1
;
/* 6:6 */
picreg_t
:
1
;
/* 5:5 */
picreg_t
en_bridge_hi
:
2
;
/* 4:3 */
picreg_t
:
1
;
/* 2:2 */
picreg_t
en_bridge_lo
:
2
;
/* 1:0 */
}
pic_p_arb_fld_s
;
}
pic_p_arb_u_t
;
/*
* Internal Ram Parity Error Register
*
* This register logs information about parity errors on internal ram access.
*/
typedef
union
pic_p_ram_perr_u
{
picreg_t
pic_p_ram_perr_regval
;
struct
{
picreg_t
:
6
;
/* 63:58 */
picreg_t
ate_err_addr
:
10
;
/* 57:48 */
picreg_t
:
7
;
/* 47:41 */
picreg_t
rd_resp_err_addr
:
9
;
/* 40:32 */
picreg_t
wrt_resp_err_addr
:
8
;
/* 31:24 */
picreg_t
:
2
;
/* 23:22 */
picreg_t
ate_err
:
1
;
/* 21:21 */
picreg_t
rd_resp_err
:
1
;
/* 20:20 */
picreg_t
wrt_resp_err
:
1
;
/* 19:19 */
picreg_t
dbe_ate
:
3
;
/* 18:16 */
picreg_t
dbe_rd
:
8
;
/* 15:8 */
picreg_t
dbe_wrt
:
8
;
/* 7:0 */
}
pic_p_ram_perr_fld_s
;
}
pic_p_ram_perr_u_t
;
/*
* Time-out Register
*
* This register determines retry hold off and max retries allowed for PIO
* accesses to PCI/PCI-X.
*/
typedef
union
pic_p_bus_timeout_u
{
picreg_t
pic_p_bus_timeout_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
:
11
;
/* 31:21 */
picreg_t
pci_retry_hld
:
5
;
/* 20:16 */
picreg_t
:
6
;
/* 15:10 */
picreg_t
pci_retry_cnt
:
10
;
/* 9:0 */
}
pic_p_bus_timeout_fld_s
;
}
pic_p_bus_timeout_u_t
;
/*
* PCI/PCI-X Type 1 Configuration Register
*
* This register is use during accesses to the PCI/PCI-X type 1 configuration
* space. The bits in this register are used to supplement the address during
* the configuration cycle to select the correct secondary bus and device.
*/
typedef
union
pic_type1_cfg_u
{
picreg_t
pic_type1_cfg_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
:
8
;
/* 31:24 */
picreg_t
bus_num
:
8
;
/* 23:16 */
picreg_t
dev_num
:
5
;
/* 15:11 */
picreg_t
:
11
;
/* 10:0 */
}
pic_type1_cfg_fld_s
;
}
pic_type1_cfg_u_t
;
/*
* PCI Bus Error Upper Address Holding Register
*
* This register holds the value of the upper address on the PCI Bus when an
* error occurs.
*/
typedef
union
pic_p_pci_err_upper_u
{
picreg_t
pic_p_pci_err_upper_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
:
4
;
/* 31:28 */
picreg_t
pci_xtalk_did
:
4
;
/* 27:24 */
picreg_t
:
2
;
/* 23:22 */
picreg_t
pci_dac
:
1
;
/* 21:21 */
picreg_t
pci_dev_master
:
1
;
/* 20:20 */
picreg_t
pci_vdev
:
1
;
/* 19:19 */
picreg_t
pci_dev_num
:
3
;
/* 18:16 */
picreg_t
pci_uaddr_err
:
16
;
/* 15:0 */
}
pic_p_pci_err_upper_fld_s
;
}
pic_p_pci_err_upper_u_t
;
/*
* PCI Bus Error Lower Address Holding Register
*
* This register holds the value of the lower address on the PCI Bus when an
* error occurs.
*/
typedef
union
pic_p_pci_err_lower_u
{
picreg_t
pic_p_pci_err_lower_regval
;
struct
{
picreg_t
:
4
;
/* 63:60 */
picreg_t
pci_xtalk_did
:
4
;
/* 59:56 */
picreg_t
:
2
;
/* 55:54 */
picreg_t
pci_dac
:
1
;
/* 53:53 */
picreg_t
pci_dev_master
:
1
;
/* 52:52 */
picreg_t
pci_vdev
:
1
;
/* 51:51 */
picreg_t
pci_dev_num
:
3
;
/* 50:48 */
picreg_t
pci_uaddr_err
:
16
;
/* 47:32 */
picreg_t
pci_laddr_err
:
32
;
/* 31:0 */
}
pic_p_pci_err_lower_fld_s
;
}
pic_p_pci_err_lower_u_t
;
/*
* PCI-X Error Address Register
*
* This register contains the address on the PCI-X bus when an error oc-
* curred.
*/
typedef
union
pic_p_pcix_err_addr_u
{
picreg_t
pic_p_pcix_err_addr_regval
;
struct
{
picreg_t
pcix_err_addr
:
64
;
/* 63:0 */
}
pic_p_pcix_err_addr_fld_s
;
}
pic_p_pcix_err_addr_u_t
;
/*
* PCI-X Error Attribute Register
*
* This register contains the attribute data on the PCI-X bus when an error
* occurred.
*/
typedef
union
pic_p_pcix_err_attr_u
{
picreg_t
pic_p_pcix_err_attr_regval
;
struct
{
picreg_t
:
16
;
/* 63:48 */
picreg_t
bus_cmd
:
4
;
/* 47:44 */
picreg_t
byte_cnt
:
12
;
/* 43:32 */
picreg_t
:
1
;
/* 31:31 */
picreg_t
ns
:
1
;
/* 30:30 */
picreg_t
ro
:
1
;
/* 29:29 */
picreg_t
tag
:
5
;
/* 28:24 */
picreg_t
bus_num
:
8
;
/* 23:16 */
picreg_t
dev_num
:
5
;
/* 15:11 */
picreg_t
fun_num
:
3
;
/* 10:8 */
picreg_t
l_byte_cnt
:
8
;
/* 7:0 */
}
pic_p_pcix_err_attr_fld_s
;
}
pic_p_pcix_err_attr_u_t
;
/*
* PCI-X Error Data Register
*
* This register contains the Data on the PCI-X bus when an error occurred.
*/
typedef
union
pic_p_pcix_err_data_u
{
picreg_t
pic_p_pcix_err_data_regval
;
struct
{
picreg_t
pcix_err_data
:
64
;
/* 63:0 */
}
pic_p_pcix_err_data_fld_s
;
}
pic_p_pcix_err_data_u_t
;
/*
* PCI-X Read Request Timeout Error Register
*
* This register contains a pointer into the PCI-X read data structure.
*/
typedef
union
pic_p_pcix_read_req_to_u
{
picreg_t
pic_p_pcix_read_req_to_regval
;
struct
{
picreg_t
:
55
;
/* 63:9 */
picreg_t
rd_buff_loc
:
5
;
/* 8:4 */
picreg_t
rd_buff_struct
:
4
;
/* 3:0 */
}
pic_p_pcix_read_req_to_fld_s
;
}
pic_p_pcix_read_req_to_u_t
;
/*
* INT_STATUS Register
*
* This is the current interrupt status register which maintains the current
* status of all the interrupting devices which generated a n interrupt. This
* register is read only and all the bits are active high. A high bit at
* INT_STATE means the corresponding INT_N pin has been asserted
* (low).
*/
typedef
union
pic_p_int_status_u
{
picreg_t
pic_p_int_status_regval
;
struct
{
picreg_t
:
22
;
/* 63:42 */
picreg_t
int_ram_perr
:
1
;
/* 41:41 */
picreg_t
bus_arb_broke
:
1
;
/* 40:40 */
picreg_t
pci_x_req_tout
:
1
;
/* 39:39 */
picreg_t
pci_x_tabort
:
1
;
/* 38:38 */
picreg_t
pci_x_perr
:
1
;
/* 37:37 */
picreg_t
pci_x_serr
:
1
;
/* 36:36 */
picreg_t
pci_x_mretry
:
1
;
/* 35:35 */
picreg_t
pci_x_mtout
:
1
;
/* 34:34 */
picreg_t
pci_x_da_parity
:
1
;
/* 33:33 */
picreg_t
pci_x_ad_parity
:
1
;
/* 32:32 */
picreg_t
:
1
;
/* 31:31 */
picreg_t
pmu_page_fault
:
1
;
/* 30:30 */
picreg_t
unexpected_resp
:
1
;
/* 29:29 */
picreg_t
bad_xresp_packet
:
1
;
/* 28:28 */
picreg_t
bad_xreq_packet
:
1
;
/* 27:27 */
picreg_t
resp_xtalk_error
:
1
;
/* 26:26 */
picreg_t
req_xtalk_error
:
1
;
/* 25:25 */
picreg_t
invalid_access
:
1
;
/* 24:24 */
picreg_t
unsupported_xop
:
1
;
/* 23:23 */
picreg_t
xreq_fifo_oflow
:
1
;
/* 22:22 */
picreg_t
llp_rec_snerror
:
1
;
/* 21:21 */
picreg_t
llp_rec_cberror
:
1
;
/* 20:20 */
picreg_t
llp_rcty
:
1
;
/* 19:19 */
picreg_t
llp_tx_retry
:
1
;
/* 18:18 */
picreg_t
llp_tcty
:
1
;
/* 17:17 */
picreg_t
:
1
;
/* 16:16 */
picreg_t
pci_abort
:
1
;
/* 15:15 */
picreg_t
pci_parity
:
1
;
/* 14:14 */
picreg_t
pci_serr
:
1
;
/* 13:13 */
picreg_t
pci_perr
:
1
;
/* 12:12 */
picreg_t
pci_master_tout
:
1
;
/* 11:11 */
picreg_t
pci_retry_cnt
:
1
;
/* 10:10 */
picreg_t
xread_req_tout
:
1
;
/* 9:9 */
picreg_t
:
1
;
/* 8:8 */
picreg_t
int_state
:
8
;
/* 7:0 */
}
pic_p_int_status_fld_s
;
}
pic_p_int_status_u_t
;
/*
* Interrupt Enable Register
*
* This register enables the reporting of interrupt to the host. Each bit in this
* register corresponds to the same bit in Interrupt Status register. All bits
* are zero after reset.
*/
typedef
union
pic_p_int_enable_u
{
picreg_t
pic_p_int_enable_regval
;
struct
{
picreg_t
:
22
;
/* 63:42 */
picreg_t
en_int_ram_perr
:
1
;
/* 41:41 */
picreg_t
en_bus_arb_broke
:
1
;
/* 40:40 */
picreg_t
en_pci_x_req_tout
:
1
;
/* 39:39 */
picreg_t
en_pci_x_tabort
:
1
;
/* 38:38 */
picreg_t
en_pci_x_perr
:
1
;
/* 37:37 */
picreg_t
en_pci_x_serr
:
1
;
/* 36:36 */
picreg_t
en_pci_x_mretry
:
1
;
/* 35:35 */
picreg_t
en_pci_x_mtout
:
1
;
/* 34:34 */
picreg_t
en_pci_x_da_parity
:
1
;
/* 33:33 */
picreg_t
en_pci_x_ad_parity
:
1
;
/* 32:32 */
picreg_t
:
1
;
/* 31:31 */
picreg_t
en_pmu_page_fault
:
1
;
/* 30:30 */
picreg_t
en_unexpected_resp
:
1
;
/* 29:29 */
picreg_t
en_bad_xresp_packet
:
1
;
/* 28:28 */
picreg_t
en_bad_xreq_packet
:
1
;
/* 27:27 */
picreg_t
en_resp_xtalk_error
:
1
;
/* 26:26 */
picreg_t
en_req_xtalk_error
:
1
;
/* 25:25 */
picreg_t
en_invalid_access
:
1
;
/* 24:24 */
picreg_t
en_unsupported_xop
:
1
;
/* 23:23 */
picreg_t
en_xreq_fifo_oflow
:
1
;
/* 22:22 */
picreg_t
en_llp_rec_snerror
:
1
;
/* 21:21 */
picreg_t
en_llp_rec_cberror
:
1
;
/* 20:20 */
picreg_t
en_llp_rcty
:
1
;
/* 19:19 */
picreg_t
en_llp_tx_retry
:
1
;
/* 18:18 */
picreg_t
en_llp_tcty
:
1
;
/* 17:17 */
picreg_t
:
1
;
/* 16:16 */
picreg_t
en_pci_abort
:
1
;
/* 15:15 */
picreg_t
en_pci_parity
:
1
;
/* 14:14 */
picreg_t
en_pci_serr
:
1
;
/* 13:13 */
picreg_t
en_pci_perr
:
1
;
/* 12:12 */
picreg_t
en_pci_master_tout
:
1
;
/* 11:11 */
picreg_t
en_pci_retry_cnt
:
1
;
/* 10:10 */
picreg_t
en_xread_req_tout
:
1
;
/* 9:9 */
picreg_t
:
1
;
/* 8:8 */
picreg_t
en_int_state
:
8
;
/* 7:0 */
}
pic_p_int_enable_fld_s
;
}
pic_p_int_enable_u_t
;
/*
* Reset Interrupt Register
*
* A write of a "1" clears the bit and rearms the error registers. Writes also
* clear the error view register.
*/
typedef
union
pic_p_int_rst_u
{
picreg_t
pic_p_int_rst_regval
;
struct
{
picreg_t
:
22
;
/* 63:42 */
picreg_t
logv_int_ram_perr
:
1
;
/* 41:41 */
picreg_t
logv_bus_arb_broke
:
1
;
/* 40:40 */
picreg_t
logv_pci_x_req_tout
:
1
;
/* 39:39 */
picreg_t
logv_pci_x_tabort
:
1
;
/* 38:38 */
picreg_t
logv_pci_x_perr
:
1
;
/* 37:37 */
picreg_t
logv_pci_x_serr
:
1
;
/* 36:36 */
picreg_t
logv_pci_x_mretry
:
1
;
/* 35:35 */
picreg_t
logv_pci_x_mtout
:
1
;
/* 34:34 */
picreg_t
logv_pci_x_da_parity
:
1
;
/* 33:33 */
picreg_t
logv_pci_x_ad_parity
:
1
;
/* 32:32 */
picreg_t
:
1
;
/* 31:31 */
picreg_t
logv_pmu_page_fault
:
1
;
/* 30:30 */
picreg_t
logv_unexpected_resp
:
1
;
/* 29:29 */
picreg_t
logv_bad_xresp_packet
:
1
;
/* 28:28 */
picreg_t
logv_bad_xreq_packet
:
1
;
/* 27:27 */
picreg_t
logv_resp_xtalk_error
:
1
;
/* 26:26 */
picreg_t
logv_req_xtalk_error
:
1
;
/* 25:25 */
picreg_t
logv_invalid_access
:
1
;
/* 24:24 */
picreg_t
logv_unsupported_xop
:
1
;
/* 23:23 */
picreg_t
logv_xreq_fifo_oflow
:
1
;
/* 22:22 */
picreg_t
logv_llp_rec_snerror
:
1
;
/* 21:21 */
picreg_t
logv_llp_rec_cberror
:
1
;
/* 20:20 */
picreg_t
logv_llp_rcty
:
1
;
/* 19:19 */
picreg_t
logv_llp_tx_retry
:
1
;
/* 18:18 */
picreg_t
logv_llp_tcty
:
1
;
/* 17:17 */
picreg_t
:
1
;
/* 16:16 */
picreg_t
logv_pci_abort
:
1
;
/* 15:15 */
picreg_t
logv_pci_parity
:
1
;
/* 14:14 */
picreg_t
logv_pci_serr
:
1
;
/* 13:13 */
picreg_t
logv_pci_perr
:
1
;
/* 12:12 */
picreg_t
logv_pci_master_tout
:
1
;
/* 11:11 */
picreg_t
logv_pci_retry_cnt
:
1
;
/* 10:10 */
picreg_t
logv_xread_req_tout
:
1
;
/* 9:9 */
picreg_t
:
2
;
/* 8:7 */
picreg_t
multi_clr
:
1
;
/* 6:6 */
picreg_t
:
6
;
/* 5:0 */
}
pic_p_int_rst_fld_s
;
}
pic_p_int_rst_u_t
;
/*
* Interrupt Mode Register
*
* This register defines the interrupting mode of the INT_N pins.
*/
typedef
union
pic_p_int_mode_u
{
picreg_t
pic_p_int_mode_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
:
24
;
/* 31:8 */
picreg_t
en_clr_pkt
:
8
;
/* 7:0 */
}
pic_p_int_mode_fld_s
;
}
pic_p_int_mode_u_t
;
/*
* Interrupt Device Select Register
*
* This register associates interrupt pins with devices thus allowing buffer
* management (flushing) when a device interrupt occurs.
*/
typedef
union
pic_p_int_device_u
{
picreg_t
pic_p_int_device_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
:
8
;
/* 31:24 */
picreg_t
int7_dev
:
3
;
/* 23:21 */
picreg_t
int6_dev
:
3
;
/* 20:18 */
picreg_t
int5_dev
:
3
;
/* 17:15 */
picreg_t
int4_dev
:
3
;
/* 14:12 */
picreg_t
int3_dev
:
3
;
/* 11:9 */
picreg_t
int2_dev
:
3
;
/* 8:6 */
picreg_t
int1_dev
:
3
;
/* 5:3 */
picreg_t
int0_dev
:
3
;
/* 2:0 */
}
pic_p_int_device_fld_s
;
}
pic_p_int_device_u_t
;
/*
* Host Error Interrupt Field Register
*
* This register tells which bit location in the host's Interrupt Status register
* to set or reset when any error condition happens.
*/
typedef
union
pic_p_int_host_err_u
{
picreg_t
pic_p_int_host_err_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
:
24
;
/* 31:8 */
picreg_t
bridge_err_fld
:
8
;
/* 7:0 */
}
pic_p_int_host_err_fld_s
;
}
pic_p_int_host_err_u_t
;
/*
* Interrupt (x) Host Address Register
*
* This register allow different host address to be assigned to each interrupt
* pin and the bit in the host.
*/
typedef
union
pic_p_int_addr_u
{
picreg_t
pic_p_int_addr_regval
;
struct
{
picreg_t
:
8
;
/* 63:56 */
picreg_t
int_fld
:
8
;
/* 55:48 */
picreg_t
int_addr
:
48
;
/* 47:0 */
}
pic_p_int_addr_fld_s
;
}
pic_p_int_addr_u_t
;
/*
* Error Interrupt View Register
*
* This register contains the view of which interrupt occur even if they are
* not currently enabled. The group clear is used to clear these bits just like
* the interrupt status register bits.
*/
typedef
union
pic_p_err_int_view_u
{
picreg_t
pic_p_err_int_view_regval
;
struct
{
picreg_t
:
22
;
/* 63:42 */
picreg_t
int_ram_perr
:
1
;
/* 41:41 */
picreg_t
bus_arb_broke
:
1
;
/* 40:40 */
picreg_t
pci_x_req_tout
:
1
;
/* 39:39 */
picreg_t
pci_x_tabort
:
1
;
/* 38:38 */
picreg_t
pci_x_perr
:
1
;
/* 37:37 */
picreg_t
pci_x_serr
:
1
;
/* 36:36 */
picreg_t
pci_x_mretry
:
1
;
/* 35:35 */
picreg_t
pci_x_mtout
:
1
;
/* 34:34 */
picreg_t
pci_x_da_parity
:
1
;
/* 33:33 */
picreg_t
pci_x_ad_parity
:
1
;
/* 32:32 */
picreg_t
:
1
;
/* 31:31 */
picreg_t
pmu_page_fault
:
1
;
/* 30:30 */
picreg_t
unexpected_resp
:
1
;
/* 29:29 */
picreg_t
bad_xresp_packet
:
1
;
/* 28:28 */
picreg_t
bad_xreq_packet
:
1
;
/* 27:27 */
picreg_t
resp_xtalk_error
:
1
;
/* 26:26 */
picreg_t
req_xtalk_error
:
1
;
/* 25:25 */
picreg_t
invalid_access
:
1
;
/* 24:24 */
picreg_t
unsupported_xop
:
1
;
/* 23:23 */
picreg_t
xreq_fifo_oflow
:
1
;
/* 22:22 */
picreg_t
llp_rec_snerror
:
1
;
/* 21:21 */
picreg_t
llp_rec_cberror
:
1
;
/* 20:20 */
picreg_t
llp_rcty
:
1
;
/* 19:19 */
picreg_t
llp_tx_retry
:
1
;
/* 18:18 */
picreg_t
llp_tcty
:
1
;
/* 17:17 */
picreg_t
:
1
;
/* 16:16 */
picreg_t
pci_abort
:
1
;
/* 15:15 */
picreg_t
pci_parity
:
1
;
/* 14:14 */
picreg_t
pci_serr
:
1
;
/* 13:13 */
picreg_t
pci_perr
:
1
;
/* 12:12 */
picreg_t
pci_master_tout
:
1
;
/* 11:11 */
picreg_t
pci_retry_cnt
:
1
;
/* 10:10 */
picreg_t
xread_req_tout
:
1
;
/* 9:9 */
picreg_t
:
9
;
/* 8:0 */
}
pic_p_err_int_view_fld_s
;
}
pic_p_err_int_view_u_t
;
/*
* Multiple Interrupt Register
*
* This register indicates if any interrupt occurs more than once without be-
* ing cleared.
*/
typedef
union
pic_p_mult_int_u
{
picreg_t
pic_p_mult_int_regval
;
struct
{
picreg_t
:
22
;
/* 63:42 */
picreg_t
int_ram_perr
:
1
;
/* 41:41 */
picreg_t
bus_arb_broke
:
1
;
/* 40:40 */
picreg_t
pci_x_req_tout
:
1
;
/* 39:39 */
picreg_t
pci_x_tabort
:
1
;
/* 38:38 */
picreg_t
pci_x_perr
:
1
;
/* 37:37 */
picreg_t
pci_x_serr
:
1
;
/* 36:36 */
picreg_t
pci_x_mretry
:
1
;
/* 35:35 */
picreg_t
pci_x_mtout
:
1
;
/* 34:34 */
picreg_t
pci_x_da_parity
:
1
;
/* 33:33 */
picreg_t
pci_x_ad_parity
:
1
;
/* 32:32 */
picreg_t
:
1
;
/* 31:31 */
picreg_t
pmu_page_fault
:
1
;
/* 30:30 */
picreg_t
unexpected_resp
:
1
;
/* 29:29 */
picreg_t
bad_xresp_packet
:
1
;
/* 28:28 */
picreg_t
bad_xreq_packet
:
1
;
/* 27:27 */
picreg_t
resp_xtalk_error
:
1
;
/* 26:26 */
picreg_t
req_xtalk_error
:
1
;
/* 25:25 */
picreg_t
invalid_access
:
1
;
/* 24:24 */
picreg_t
unsupported_xop
:
1
;
/* 23:23 */
picreg_t
xreq_fifo_oflow
:
1
;
/* 22:22 */
picreg_t
llp_rec_snerror
:
1
;
/* 21:21 */
picreg_t
llp_rec_cberror
:
1
;
/* 20:20 */
picreg_t
llp_rcty
:
1
;
/* 19:19 */
picreg_t
llp_tx_retry
:
1
;
/* 18:18 */
picreg_t
llp_tcty
:
1
;
/* 17:17 */
picreg_t
:
1
;
/* 16:16 */
picreg_t
pci_abort
:
1
;
/* 15:15 */
picreg_t
pci_parity
:
1
;
/* 14:14 */
picreg_t
pci_serr
:
1
;
/* 13:13 */
picreg_t
pci_perr
:
1
;
/* 12:12 */
picreg_t
pci_master_tout
:
1
;
/* 11:11 */
picreg_t
pci_retry_cnt
:
1
;
/* 10:10 */
picreg_t
xread_req_tout
:
1
;
/* 9:9 */
picreg_t
:
1
;
/* 8:8 */
picreg_t
int_state
:
8
;
/* 7:0 */
}
pic_p_mult_int_fld_s
;
}
pic_p_mult_int_u_t
;
/*
* Force Always Interrupt (x) Register
*
* A write to this data independent write only register will force a set inter-
* rupt to occur as if the interrupt line had transitioned. If the interrupt line
* is already active an addition set interrupt packet is set. All buffer flush op-
* erations also occur on this operation.
*/
/*
* Force Interrupt (x) Register
*
* A write to this data independent write only register in conjunction with
* the assertion of the corresponding interrupt line will force a set interrupt
* to occur as if the interrupt line had transitioned. The interrupt line must
* be active for this operation to generate a set packet, otherwise the write
* PIO is ignored. All buffer flush operations also occur when the set packet
* is sent on this operation.
*/
/*
* Device Registers
*
* The Device registers contain device specific and mapping information.
*/
typedef
union
pic_device_reg_u
{
picreg_t
pic_device_reg_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
:
2
;
/* 31:30 */
picreg_t
en_virtual1
:
1
;
/* 29:29 */
picreg_t
en_error_lock
:
1
;
/* 28:28 */
picreg_t
en_page_chk
:
1
;
/* 27:27 */
picreg_t
force_pci_par
:
1
;
/* 26:26 */
picreg_t
en_virtual0
:
1
;
/* 25:25 */
picreg_t
:
1
;
/* 24:24 */
picreg_t
dir_wrt_gen
:
1
;
/* 23:23 */
picreg_t
dev_size
:
1
;
/* 22:22 */
picreg_t
real_time
:
1
;
/* 21:21 */
picreg_t
:
1
;
/* 20:20 */
picreg_t
swap_direct
:
1
;
/* 19:19 */
picreg_t
prefetch
:
1
;
/* 18:18 */
picreg_t
precise
:
1
;
/* 17:17 */
picreg_t
coherent
:
1
;
/* 16:16 */
picreg_t
barrier
:
1
;
/* 15:15 */
picreg_t
gbr
:
1
;
/* 14:14 */
picreg_t
dev_swap
:
1
;
/* 13:13 */
picreg_t
dev_io_mem
:
1
;
/* 12:12 */
picreg_t
dev_off
:
12
;
/* 11:0 */
}
pic_device_reg_fld_s
;
}
pic_device_reg_u_t
;
/*
* Device (x) Write Request Buffer Flush
*
* When read, this register will return a 0x00 after the write buffer associat-
* ed with the device has been flushed. (PCI Only)
*/
/*
* Even Device Read Response Buffer Register (PCI Only)
*
* This register is use to allocate the read response buffers for the even num-
* bered devices. (0,2)
*/
typedef
union
pic_p_even_resp_u
{
picreg_t
pic_p_even_resp_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
buff_14_en
:
1
;
/* 31:31 */
picreg_t
buff_14_vdev
:
2
;
/* 30:29 */
picreg_t
buff_14_pdev
:
1
;
/* 28:28 */
picreg_t
buff_12_en
:
1
;
/* 27:27 */
picreg_t
buff_12_vdev
:
2
;
/* 26:25 */
picreg_t
buff_12_pdev
:
1
;
/* 24:24 */
picreg_t
buff_10_en
:
1
;
/* 23:23 */
picreg_t
buff_10_vdev
:
2
;
/* 22:21 */
picreg_t
buff_10_pdev
:
1
;
/* 20:20 */
picreg_t
buff_8_en
:
1
;
/* 19:19 */
picreg_t
buff_8_vdev
:
2
;
/* 18:17 */
picreg_t
buff_8_pdev
:
1
;
/* 16:16 */
picreg_t
buff_6_en
:
1
;
/* 15:15 */
picreg_t
buff_6_vdev
:
2
;
/* 14:13 */
picreg_t
buff_6_pdev
:
1
;
/* 12:12 */
picreg_t
buff_4_en
:
1
;
/* 11:11 */
picreg_t
buff_4_vdev
:
2
;
/* 10:9 */
picreg_t
buff_4_pdev
:
1
;
/* 8:8 */
picreg_t
buff_2_en
:
1
;
/* 7:7 */
picreg_t
buff_2_vdev
:
2
;
/* 6:5 */
picreg_t
buff_2_pdev
:
1
;
/* 4:4 */
picreg_t
buff_0_en
:
1
;
/* 3:3 */
picreg_t
buff_0_vdev
:
2
;
/* 2:1 */
picreg_t
buff_0_pdev
:
1
;
/* 0:0 */
}
pic_p_even_resp_fld_s
;
}
pic_p_even_resp_u_t
;
/*
* Odd Device Read Response Buffer Register (PCI Only)
*
* This register is use to allocate the read response buffers for the odd num-
* bered devices. (1,3))
*/
typedef
union
pic_p_odd_resp_u
{
picreg_t
pic_p_odd_resp_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
buff_15_en
:
1
;
/* 31:31 */
picreg_t
buff_15_vdev
:
2
;
/* 30:29 */
picreg_t
buff_15_pdev
:
1
;
/* 28:28 */
picreg_t
buff_13_en
:
1
;
/* 27:27 */
picreg_t
buff_13_vdev
:
2
;
/* 26:25 */
picreg_t
buff_13_pdev
:
1
;
/* 24:24 */
picreg_t
buff_11_en
:
1
;
/* 23:23 */
picreg_t
buff_11_vdev
:
2
;
/* 22:21 */
picreg_t
buff_11_pdev
:
1
;
/* 20:20 */
picreg_t
buff_9_en
:
1
;
/* 19:19 */
picreg_t
buff_9_vdev
:
2
;
/* 18:17 */
picreg_t
buff_9_pdev
:
1
;
/* 16:16 */
picreg_t
buff_7_en
:
1
;
/* 15:15 */
picreg_t
buff_7_vdev
:
2
;
/* 14:13 */
picreg_t
buff_7_pdev
:
1
;
/* 12:12 */
picreg_t
buff_5_en
:
1
;
/* 11:11 */
picreg_t
buff_5_vdev
:
2
;
/* 10:9 */
picreg_t
buff_5_pdev
:
1
;
/* 8:8 */
picreg_t
buff_3_en
:
1
;
/* 7:7 */
picreg_t
buff_3_vdev
:
2
;
/* 6:5 */
picreg_t
buff_3_pdev
:
1
;
/* 4:4 */
picreg_t
buff_1_en
:
1
;
/* 3:3 */
picreg_t
buff_1_vdev
:
2
;
/* 2:1 */
picreg_t
buff_1_pdev
:
1
;
/* 0:0 */
}
pic_p_odd_resp_fld_s
;
}
pic_p_odd_resp_u_t
;
/*
* Read Response Buffer Status Register (PCI Only)
*
* This read only register contains the current response buffer status.
*/
typedef
union
pic_p_resp_status_u
{
picreg_t
pic_p_resp_status_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
rrb_valid
:
16
;
/* 31:16 */
picreg_t
rrb_inuse
:
16
;
/* 15:0 */
}
pic_p_resp_status_fld_s
;
}
pic_p_resp_status_u_t
;
/*
* Read Response Buffer Clear Register (PCI Only)
*
* A write to this register clears the current contents of the buffer.
*/
typedef
union
pic_p_resp_clear_u
{
picreg_t
pic_p_resp_clear_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
:
16
;
/* 31:16 */
picreg_t
rrb_clear
:
16
;
/* 15:0 */
}
pic_p_resp_clear_fld_s
;
}
pic_p_resp_clear_u_t
;
/*
* PCI Read Response Buffer (x) Upper Address Match
*
* The PCI Bridge read response buffer upper address register is a read only
* register which contains the upper 16-bits of the address and status used to
* select the buffer for a PCI transaction.
*/
typedef
union
pic_p_buf_upper_addr_match_u
{
picreg_t
pic_p_buf_upper_addr_match_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
filled
:
1
;
/* 31:31 */
picreg_t
armed
:
1
;
/* 30:30 */
picreg_t
flush
:
1
;
/* 29:29 */
picreg_t
xerr
:
1
;
/* 28:28 */
picreg_t
pkterr
:
1
;
/* 27:27 */
picreg_t
timeout
:
1
;
/* 26:26 */
picreg_t
prefetch
:
1
;
/* 25:25 */
picreg_t
precise
:
1
;
/* 24:24 */
picreg_t
dw_be
:
8
;
/* 23:16 */
picreg_t
upp_addr
:
16
;
/* 15:0 */
}
pic_p_buf_upper_addr_match_fld_s
;
}
pic_p_buf_upper_addr_match_u_t
;
/*
* PCI Read Response Buffer (x) Lower Address Match
*
* The PCI Bridge read response buffer lower address Match register is a
* read only register which contains the address and status used to select the
* buffer for a PCI transaction.
*/
typedef
union
pic_p_buf_lower_addr_match_u
{
picreg_t
pic_p_buf_lower_addr_match_regval
;
struct
{
picreg_t
filled
:
1
;
/* 63:63 */
picreg_t
armed
:
1
;
/* 62:62 */
picreg_t
flush
:
1
;
/* 61:61 */
picreg_t
xerr
:
1
;
/* 60:60 */
picreg_t
pkterr
:
1
;
/* 59:59 */
picreg_t
timeout
:
1
;
/* 58:58 */
picreg_t
prefetch
:
1
;
/* 57:57 */
picreg_t
precise
:
1
;
/* 56:56 */
picreg_t
dw_be
:
8
;
/* 55:48 */
picreg_t
upp_addr
:
16
;
/* 47:32 */
picreg_t
low_addr
:
32
;
/* 31:0 */
}
pic_p_buf_lower_addr_match_fld_s
;
}
pic_p_buf_lower_addr_match_u_t
;
/*
* PCI Buffer (x) Flush Count with Data Touch Register
*
* This counter is incremented each time the corresponding response buffer
* is flushed after at least a single data element in the buffer is used. A word
* write to this address clears the count.
*/
typedef
union
pic_flush_w_touch_u
{
picreg_t
pic_flush_w_touch_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
:
16
;
/* 31:16 */
picreg_t
touch_cnt
:
16
;
/* 15:0 */
}
pic_flush_w_touch_fld_s
;
}
pic_flush_w_touch_u_t
;
/*
* PCI Buffer (x) Flush Count w/o Data Touch Register
*
* This counter is incremented each time the corresponding response buffer
* is flushed without any data element in the buffer being used. A word
* write to this address clears the count.
*/
typedef
union
pic_flush_wo_touch_u
{
picreg_t
pic_flush_wo_touch_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
:
16
;
/* 31:16 */
picreg_t
notouch_cnt
:
16
;
/* 15:0 */
}
pic_flush_wo_touch_fld_s
;
}
pic_flush_wo_touch_u_t
;
/*
* PCI Buffer (x) Request in Flight Count Register
*
* This counter is incremented on each bus clock while the request is in-
* flight. A word write to this address clears the count. ]
*/
typedef
union
pic_inflight_u
{
picreg_t
pic_inflight_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
:
16
;
/* 31:16 */
picreg_t
inflight_cnt
:
16
;
/* 15:0 */
}
pic_inflight_fld_s
;
}
pic_inflight_u_t
;
/*
* PCI Buffer (x) Prefetch Request Count Register
*
* This counter is incremented each time the request using this buffer was
* generated from the prefetcher. A word write to this address clears the
* count.
*/
typedef
union
pic_prefetch_u
{
picreg_t
pic_prefetch_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
:
16
;
/* 31:16 */
picreg_t
prefetch_cnt
:
16
;
/* 15:0 */
}
pic_prefetch_fld_s
;
}
pic_prefetch_u_t
;
/*
* PCI Buffer (x) Total PCI Retry Count Register
*
* This counter is incremented each time a PCI bus retry occurs and the ad-
* dress matches the tag for the selected buffer. The buffer must also has this
* request in-flight. A word write to this address clears the count.
*/
typedef
union
pic_total_pci_retry_u
{
picreg_t
pic_total_pci_retry_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
:
16
;
/* 31:16 */
picreg_t
retry_cnt
:
16
;
/* 15:0 */
}
pic_total_pci_retry_fld_s
;
}
pic_total_pci_retry_u_t
;
/*
* PCI Buffer (x) Max PCI Retry Count Register
*
* This counter is contains the maximum retry count for a single request
* which was in-flight for this buffer. A word write to this address clears the
* count.
*/
typedef
union
pic_max_pci_retry_u
{
picreg_t
pic_max_pci_retry_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
:
16
;
/* 31:16 */
picreg_t
max_retry_cnt
:
16
;
/* 15:0 */
}
pic_max_pci_retry_fld_s
;
}
pic_max_pci_retry_u_t
;
/*
* PCI Buffer (x) Max Latency Count Register
*
* This counter is contains the maximum count (in bus clocks) for a single
* request which was in-flight for this buffer. A word write to this address
* clears the count.
*/
typedef
union
pic_max_latency_u
{
picreg_t
pic_max_latency_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
:
16
;
/* 31:16 */
picreg_t
max_latency_cnt
:
16
;
/* 15:0 */
}
pic_max_latency_fld_s
;
}
pic_max_latency_u_t
;
/*
* PCI Buffer (x) Clear All Register
*
* Any access to this register clears all the count values for the (x) registers.
*/
/*
* PCI-X Registers
*
* This register contains the address in the read buffer structure. There are
* 16 read buffer structures.
*/
typedef
union
pic_rd_buf_addr_u
{
picreg_t
pic_rd_buf_addr_regval
;
struct
{
picreg_t
pcix_err_addr
:
64
;
/* 63:0 */
}
pic_rd_buf_addr_fld_s
;
}
pic_rd_buf_addr_u_t
;
/*
* PCI-X Read Buffer (x) Attribute Register
*
* This register contains the attribute data in the read buffer structure. There
* are 16 read buffer structures.
*/
typedef
union
pic_px_read_buf_attr_u
{
picreg_t
pic_px_read_buf_attr_regval
;
struct
{
picreg_t
:
16
;
/* 63:48 */
picreg_t
bus_cmd
:
4
;
/* 47:44 */
picreg_t
byte_cnt
:
12
;
/* 43:32 */
picreg_t
entry_valid
:
1
;
/* 31:31 */
picreg_t
ns
:
1
;
/* 30:30 */
picreg_t
ro
:
1
;
/* 29:29 */
picreg_t
tag
:
5
;
/* 28:24 */
picreg_t
bus_num
:
8
;
/* 23:16 */
picreg_t
dev_num
:
5
;
/* 15:11 */
picreg_t
fun_num
:
3
;
/* 10:8 */
picreg_t
:
2
;
/* 7:6 */
picreg_t
f_buffer_index
:
6
;
/* 5:0 */
}
pic_px_read_buf_attr_fld_s
;
}
pic_px_read_buf_attr_u_t
;
/*
* PCI-X Write Buffer (x) Address Register
*
* This register contains the address in the write buffer structure. There are
* 8 write buffer structures.
*/
typedef
union
pic_px_write_buf_addr_u
{
picreg_t
pic_px_write_buf_addr_regval
;
struct
{
picreg_t
pcix_err_addr
:
64
;
/* 63:0 */
}
pic_px_write_buf_addr_fld_s
;
}
pic_px_write_buf_addr_u_t
;
/*
* PCI-X Write Buffer (x) Attribute Register
*
* This register contains the attribute data in the write buffer structure.
* There are 8 write buffer structures.
*/
typedef
union
pic_px_write_buf_attr_u
{
picreg_t
pic_px_write_buf_attr_regval
;
struct
{
picreg_t
:
16
;
/* 63:48 */
picreg_t
bus_cmd
:
4
;
/* 47:44 */
picreg_t
byte_cnt
:
12
;
/* 43:32 */
picreg_t
entry_valid
:
1
;
/* 31:31 */
picreg_t
ns
:
1
;
/* 30:30 */
picreg_t
ro
:
1
;
/* 29:29 */
picreg_t
tag
:
5
;
/* 28:24 */
picreg_t
bus_num
:
8
;
/* 23:16 */
picreg_t
dev_num
:
5
;
/* 15:11 */
picreg_t
fun_num
:
3
;
/* 10:8 */
picreg_t
:
2
;
/* 7:6 */
picreg_t
f_buffer_index
:
6
;
/* 5:0 */
}
pic_px_write_buf_attr_fld_s
;
}
pic_px_write_buf_attr_u_t
;
/*
* PCI-X Write Buffer (x) Valid Register
*
* This register contains the valid or inuse cache lines for this buffer struc-
* ture.
*/
typedef
union
pic_px_write_buf_valid_u
{
picreg_t
pic_px_write_buf_valid_regval
;
struct
{
picreg_t
:
32
;
/* 63:32 */
picreg_t
wrt_valid_buff
:
32
;
/* 31:0 */
}
pic_px_write_buf_valid_fld_s
;
}
pic_px_write_buf_valid_u_t
;
typedef
uint64_t
picate_t
;
/*****************************************************************************
*********************** PIC MMR structure mapping ***************************
*****************************************************************************/
/* NOTE: PIC WAR. PV#854697. PIC does not allow writes just to [31:0]
* of a 64-bit register. When writing PIC registers, always write the
* entire 64 bits.
*/
typedef
volatile
struct
pic_s
{
/* 0x000000-0x00FFFF -- Local Registers */
/* 0x000000-0x000057 -- Standard Widget Configuration */
picreg_t
p_wid_id
;
/* 0x000000 */
picreg_t
p_wid_stat
;
/* 0x000008 */
picreg_t
p_wid_err_upper
;
/* 0x000010 */
picreg_t
p_wid_err_lower
;
/* 0x000018 */
#define p_wid_err p_wid_err_lower
picreg_t
p_wid_control
;
/* 0x000020 */
picreg_t
p_wid_req_timeout
;
/* 0x000028 */
picreg_t
p_wid_int_upper
;
/* 0x000030 */
picreg_t
p_wid_int_lower
;
/* 0x000038 */
#define p_wid_int p_wid_int_lower
picreg_t
p_wid_err_cmdword
;
/* 0x000040 */
picreg_t
p_wid_llp
;
/* 0x000048 */
picreg_t
p_wid_tflush
;
/* 0x000050 */
/* 0x000058-0x00007F -- Bridge-specific Widget Configuration */
picreg_t
p_wid_aux_err
;
/* 0x000058 */
picreg_t
p_wid_resp_upper
;
/* 0x000060 */
picreg_t
p_wid_resp_lower
;
/* 0x000068 */
#define p_wid_resp p_wid_resp_lower
picreg_t
p_wid_tst_pin_ctrl
;
/* 0x000070 */
picreg_t
p_wid_addr_lkerr
;
/* 0x000078 */
/* 0x000080-0x00008F -- PMU & MAP */
picreg_t
p_dir_map
;
/* 0x000080 */
picreg_t
_pad_000088
;
/* 0x000088 */
/* 0x000090-0x00009F -- SSRAM */
picreg_t
p_map_fault
;
/* 0x000090 */
picreg_t
_pad_000098
;
/* 0x000098 */
/* 0x0000A0-0x0000AF -- Arbitration */
picreg_t
p_arb
;
/* 0x0000A0 */
picreg_t
_pad_0000A8
;
/* 0x0000A8 */
/* 0x0000B0-0x0000BF -- Number In A Can or ATE Parity Error */
picreg_t
p_ate_parity_err
;
/* 0x0000B0 */
picreg_t
_pad_0000B8
;
/* 0x0000B8 */
/* 0x0000C0-0x0000FF -- PCI/GIO */
picreg_t
p_bus_timeout
;
/* 0x0000C0 */
picreg_t
p_pci_cfg
;
/* 0x0000C8 */
picreg_t
p_pci_err_upper
;
/* 0x0000D0 */
picreg_t
p_pci_err_lower
;
/* 0x0000D8 */
#define p_pci_err p_pci_err_lower
picreg_t
_pad_0000E0
[
4
];
/* 0x0000{E0..F8} */
/* 0x000100-0x0001FF -- Interrupt */
picreg_t
p_int_status
;
/* 0x000100 */
picreg_t
p_int_enable
;
/* 0x000108 */
picreg_t
p_int_rst_stat
;
/* 0x000110 */
picreg_t
p_int_mode
;
/* 0x000118 */
picreg_t
p_int_device
;
/* 0x000120 */
picreg_t
p_int_host_err
;
/* 0x000128 */
picreg_t
p_int_addr
[
8
];
/* 0x0001{30,,,68} */
picreg_t
p_err_int_view
;
/* 0x000170 */
picreg_t
p_mult_int
;
/* 0x000178 */
picreg_t
p_force_always
[
8
];
/* 0x0001{80,,,B8} */
picreg_t
p_force_pin
[
8
];
/* 0x0001{C0,,,F8} */
/* 0x000200-0x000298 -- Device */
picreg_t
p_device
[
4
];
/* 0x0002{00,,,18} */
picreg_t
_pad_000220
[
4
];
/* 0x0002{20,,,38} */
picreg_t
p_wr_req_buf
[
4
];
/* 0x0002{40,,,58} */
picreg_t
_pad_000260
[
4
];
/* 0x0002{60,,,78} */
picreg_t
p_rrb_map
[
2
];
/* 0x0002{80,,,88} */
#define p_even_resp p_rrb_map[0]
/* 0x000280 */
#define p_odd_resp p_rrb_map[1]
/* 0x000288 */
picreg_t
p_resp_status
;
/* 0x000290 */
picreg_t
p_resp_clear
;
/* 0x000298 */
picreg_t
_pad_0002A0
[
12
];
/* 0x0002{A0..F8} */
/* 0x000300-0x0003F8 -- Buffer Address Match Registers */
struct
{
picreg_t
upper
;
/* 0x0003{00,,,F0} */
picreg_t
lower
;
/* 0x0003{08,,,F8} */
}
p_buf_addr_match
[
16
];
/* 0x000400-0x0005FF -- Performance Monitor Registers (even only) */
struct
{
picreg_t
flush_w_touch
;
/* 0x000{400,,,5C0} */
picreg_t
flush_wo_touch
;
/* 0x000{408,,,5C8} */
picreg_t
inflight
;
/* 0x000{410,,,5D0} */
picreg_t
prefetch
;
/* 0x000{418,,,5D8} */
picreg_t
total_pci_retry
;
/* 0x000{420,,,5E0} */
picreg_t
max_pci_retry
;
/* 0x000{428,,,5E8} */
picreg_t
max_latency
;
/* 0x000{430,,,5F0} */
picreg_t
clear_all
;
/* 0x000{438,,,5F8} */
}
p_buf_count
[
8
];
/* 0x000600-0x0009FF -- PCI/X registers */
picreg_t
p_pcix_bus_err_addr
;
/* 0x000600 */
picreg_t
p_pcix_bus_err_attr
;
/* 0x000608 */
picreg_t
p_pcix_bus_err_data
;
/* 0x000610 */
picreg_t
p_pcix_pio_split_addr
;
/* 0x000618 */
picreg_t
p_pcix_pio_split_attr
;
/* 0x000620 */
picreg_t
p_pcix_dma_req_err_attr
;
/* 0x000628 */
picreg_t
p_pcix_dma_req_err_addr
;
/* 0x000630 */
picreg_t
p_pcix_timeout
;
/* 0x000638 */
picreg_t
_pad_000640
[
120
];
/* 0x000{640,,,9F8} */
/* 0x000A00-0x000BFF -- PCI/X Read&Write Buffer */
struct
{
picreg_t
p_buf_addr
;
/* 0x000{A00,,,AF0} */
picreg_t
p_buf_attr
;
/* 0X000{A08,,,AF8} */
}
p_pcix_read_buf_64
[
16
];
struct
{
picreg_t
p_buf_addr
;
/* 0x000{B00,,,BE0} */
picreg_t
p_buf_attr
;
/* 0x000{B08,,,BE8} */
picreg_t
p_buf_valid
;
/* 0x000{B10,,,BF0} */
picreg_t
__pad1
;
/* 0x000{B18,,,BF8} */
}
p_pcix_write_buf_64
[
8
];
/* End of Local Registers -- Start of Address Map space */
char
_pad_000c00
[
0x010000
-
0x000c00
];
/* 0x010000-0x011fff -- Internal ATE RAM (Auto Parity Generation) */
picate_t
p_int_ate_ram
[
1024
];
/* 0x010000-0x011fff */
/* 0x012000-0x013fff -- Internal ATE RAM (Manual Parity Generation) */
picate_t
p_int_ate_ram_mp
[
1024
];
/* 0x012000-0x013fff */
char
_pad_014000
[
0x18000
-
0x014000
];
/* 0x18000-0x197F8 -- PIC Write Request Ram */
picreg_t
p_wr_req_lower
[
256
];
/* 0x18000 - 0x187F8 */
picreg_t
p_wr_req_upper
[
256
];
/* 0x18800 - 0x18FF8 */
picreg_t
p_wr_req_parity
[
256
];
/* 0x19000 - 0x197F8 */
char
_pad_019800
[
0x20000
-
0x019800
];
/* 0x020000-0x027FFF -- PCI Device Configuration Spaces */
union
{
uint8_t
c
[
0x1000
/
1
];
/* 0x02{0000,,,7FFF} */
uint16_t
s
[
0x1000
/
2
];
/* 0x02{0000,,,7FFF} */
uint32_t
l
[
0x1000
/
4
];
/* 0x02{0000,,,7FFF} */
uint64_t
d
[
0x1000
/
8
];
/* 0x02{0000,,,7FFF} */
union
{
uint8_t
c
[
0x100
/
1
];
uint16_t
s
[
0x100
/
2
];
uint32_t
l
[
0x100
/
4
];
uint64_t
d
[
0x100
/
8
];
}
f
[
8
];
}
p_type0_cfg_dev
[
8
];
/* 0x02{0000,,,7FFF} */
/* 0x028000-0x028FFF -- PCI Type 1 Configuration Space */
union
{
uint8_t
c
[
0x1000
/
1
];
/* 0x028000-0x029000 */
uint16_t
s
[
0x1000
/
2
];
/* 0x028000-0x029000 */
uint32_t
l
[
0x1000
/
4
];
/* 0x028000-0x029000 */
uint64_t
d
[
0x1000
/
8
];
/* 0x028000-0x029000 */
union
{
uint8_t
c
[
0x100
/
1
];
uint16_t
s
[
0x100
/
2
];
uint32_t
l
[
0x100
/
4
];
uint64_t
d
[
0x100
/
8
];
}
f
[
8
];
}
p_type1_cfg
;
/* 0x028000-0x029000 */
char
_pad_029000
[
0x030000
-
0x029000
];
/* 0x030000-0x030007 -- PCI Interrupt Acknowledge Cycle */
union
{
uint8_t
c
[
8
/
1
];
uint16_t
s
[
8
/
2
];
uint32_t
l
[
8
/
4
];
uint64_t
d
[
8
/
8
];
}
p_pci_iack
;
/* 0x030000-0x030007 */
char
_pad_030007
[
0x040000
-
0x030008
];
/* 0x040000-0x030007 -- PCIX Special Cycle */
union
{
uint8_t
c
[
8
/
1
];
uint16_t
s
[
8
/
2
];
uint32_t
l
[
8
/
4
];
uint64_t
d
[
8
/
8
];
}
p_pcix_cycle
;
/* 0x040000-0x040007 */
}
pic_t
;
#endif
/* _ASM_IA64_SN_PCI_PIC_H */
include/asm-ia64/sn/pda.h
View file @
2b889c52
...
...
@@ -60,6 +60,7 @@ typedef struct pda_s {
int
sn_lb_int_war_ticks
;
int
sn_last_irq
;
int
sn_first_irq
;
int
sn_num_irqs
;
/* number of irqs targeted for this cpu */
}
pda_t
;
...
...
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