Commit d4d37bde authored by Linus Torvalds's avatar Linus Torvalds

Merge branch 'upstream' of git://ftp.linux-mips.org/pub/scm/upstream-linus

* 'upstream' of git://ftp.linux-mips.org/pub/scm/upstream-linus:
  MIPS: PowerTV: Fix support for timer interrupts with > 64 external IRQs
  MIPS: PowerTV: Streamline access to platform device registers
  MIPS: Fix vmlinuz build for 32bit-only math shells
  MIPS: Add support of LZO-compressed kernels
parents 551e28db 010c108d
......@@ -1311,6 +1311,7 @@ config SYS_SUPPORTS_ZBOOT
select HAVE_KERNEL_GZIP
select HAVE_KERNEL_BZIP2
select HAVE_KERNEL_LZMA
select HAVE_KERNEL_LZO
config SYS_SUPPORTS_ZBOOT_UART16550
bool
......
......@@ -14,8 +14,11 @@
# compressed kernel load addr: VMLINUZ_LOAD_ADDRESS > VMLINUX_LOAD_ADDRESS + VMLINUX_SIZE
VMLINUX_SIZE := $(shell wc -c $(objtree)/$(KBUILD_IMAGE) 2>/dev/null | cut -d' ' -f1)
VMLINUX_SIZE := $(shell [ -n "$(VMLINUX_SIZE)" ] && echo $$(($(VMLINUX_SIZE) + (65536 - $(VMLINUX_SIZE) % 65536))))
VMLINUZ_LOAD_ADDRESS := 0x$(shell [ -n "$(VMLINUX_SIZE)" ] && printf %x $$(($(VMLINUX_LOAD_ADDRESS) + $(VMLINUX_SIZE))))
VMLINUX_SIZE := $(shell [ -n "$(VMLINUX_SIZE)" ] && echo -n $$(($(VMLINUX_SIZE) + (65536 - $(VMLINUX_SIZE) % 65536))))
# VMLINUZ_LOAD_ADDRESS = concat "high32 of VMLINUX_LOAD_ADDRESS" and "(low32 of VMLINUX_LOAD_ADDRESS) + VMLINUX_SIZE"
HIGH32 := $(shell A=$(VMLINUX_LOAD_ADDRESS); [ $${\#A} -gt 10 ] && expr substr "$(VMLINUX_LOAD_ADDRESS)" 3 $$(($${\#A} - 10)))
LOW32 := $(shell [ -n "$(HIGH32)" ] && A=11 || A=3; expr substr "$(VMLINUX_LOAD_ADDRESS)" $${A} 8)
VMLINUZ_LOAD_ADDRESS := 0x$(shell [ -n "$(VMLINUX_SIZE)" -a -n "$(LOW32)" ] && printf "$(HIGH32)%08x" $$(($(VMLINUX_SIZE) + 0x$(LOW32))))
# set the default size of the mallocing area for decompressing
BOOT_HEAP_SIZE := 0x400000
......@@ -41,9 +44,11 @@ $(obj)/vmlinux.bin: $(KBUILD_IMAGE)
suffix_$(CONFIG_KERNEL_GZIP) = gz
suffix_$(CONFIG_KERNEL_BZIP2) = bz2
suffix_$(CONFIG_KERNEL_LZMA) = lzma
suffix_$(CONFIG_KERNEL_LZO) = lzo
tool_$(CONFIG_KERNEL_GZIP) = gzip
tool_$(CONFIG_KERNEL_BZIP2) = bzip2
tool_$(CONFIG_KERNEL_LZMA) = lzma
tool_$(CONFIG_KERNEL_LZO) = lzo
$(obj)/vmlinux.$(suffix_y): $(obj)/vmlinux.bin
$(call if_changed,$(tool_y))
......
......@@ -77,6 +77,10 @@ void *memset(void *s, int c, size_t n)
#include "../../../../lib/decompress_unlzma.c"
#endif
#ifdef CONFIG_KERNEL_LZO
#include "../../../../lib/decompress_unlzo.c"
#endif
void decompress_kernel(unsigned long boot_heap_start)
{
int zimage_size;
......
......@@ -135,6 +135,7 @@ extern void free_irqno(unsigned int irq);
#define CP0_LEGACY_COMPARE_IRQ 7
extern int cp0_compare_irq;
extern int cp0_compare_irq_shift;
extern int cp0_perfcount_irq;
#endif /* _ASM_IRQ_H */
/*
* asic_reg_map.h
*
* A macro-enclosed list of the elements for the register_map structure for
* use in defining and manipulating the structure.
*
* Copyright (C) 2009 Cisco Systems, Inc.
*
* 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., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
REGISTER_MAP_ELEMENT(eic_slow0_strt_add)
REGISTER_MAP_ELEMENT(eic_cfg_bits)
REGISTER_MAP_ELEMENT(eic_ready_status)
REGISTER_MAP_ELEMENT(chipver3)
REGISTER_MAP_ELEMENT(chipver2)
REGISTER_MAP_ELEMENT(chipver1)
REGISTER_MAP_ELEMENT(chipver0)
REGISTER_MAP_ELEMENT(uart1_intstat)
REGISTER_MAP_ELEMENT(uart1_inten)
REGISTER_MAP_ELEMENT(uart1_config1)
REGISTER_MAP_ELEMENT(uart1_config2)
REGISTER_MAP_ELEMENT(uart1_divisorhi)
REGISTER_MAP_ELEMENT(uart1_divisorlo)
REGISTER_MAP_ELEMENT(uart1_data)
REGISTER_MAP_ELEMENT(uart1_status)
REGISTER_MAP_ELEMENT(int_stat_3)
REGISTER_MAP_ELEMENT(int_stat_2)
REGISTER_MAP_ELEMENT(int_stat_1)
REGISTER_MAP_ELEMENT(int_stat_0)
REGISTER_MAP_ELEMENT(int_config)
REGISTER_MAP_ELEMENT(int_int_scan)
REGISTER_MAP_ELEMENT(ien_int_3)
REGISTER_MAP_ELEMENT(ien_int_2)
REGISTER_MAP_ELEMENT(ien_int_1)
REGISTER_MAP_ELEMENT(ien_int_0)
REGISTER_MAP_ELEMENT(int_level_3_3)
REGISTER_MAP_ELEMENT(int_level_3_2)
REGISTER_MAP_ELEMENT(int_level_3_1)
REGISTER_MAP_ELEMENT(int_level_3_0)
REGISTER_MAP_ELEMENT(int_level_2_3)
REGISTER_MAP_ELEMENT(int_level_2_2)
REGISTER_MAP_ELEMENT(int_level_2_1)
REGISTER_MAP_ELEMENT(int_level_2_0)
REGISTER_MAP_ELEMENT(int_level_1_3)
REGISTER_MAP_ELEMENT(int_level_1_2)
REGISTER_MAP_ELEMENT(int_level_1_1)
REGISTER_MAP_ELEMENT(int_level_1_0)
REGISTER_MAP_ELEMENT(int_level_0_3)
REGISTER_MAP_ELEMENT(int_level_0_2)
REGISTER_MAP_ELEMENT(int_level_0_1)
REGISTER_MAP_ELEMENT(int_level_0_0)
REGISTER_MAP_ELEMENT(int_docsis_en)
REGISTER_MAP_ELEMENT(mips_pll_setup)
REGISTER_MAP_ELEMENT(usb_fs)
REGISTER_MAP_ELEMENT(test_bus)
REGISTER_MAP_ELEMENT(crt_spare)
REGISTER_MAP_ELEMENT(usb2_ohci_int_mask)
REGISTER_MAP_ELEMENT(usb2_strap)
REGISTER_MAP_ELEMENT(ehci_hcapbase)
REGISTER_MAP_ELEMENT(ohci_hc_revision)
REGISTER_MAP_ELEMENT(bcm1_bs_lmi_steer)
REGISTER_MAP_ELEMENT(usb2_control)
REGISTER_MAP_ELEMENT(usb2_stbus_obc)
REGISTER_MAP_ELEMENT(usb2_stbus_mess_size)
REGISTER_MAP_ELEMENT(usb2_stbus_chunk_size)
REGISTER_MAP_ELEMENT(pcie_regs)
REGISTER_MAP_ELEMENT(tim_ch)
REGISTER_MAP_ELEMENT(tim_cl)
REGISTER_MAP_ELEMENT(gpio_dout)
REGISTER_MAP_ELEMENT(gpio_din)
REGISTER_MAP_ELEMENT(gpio_dir)
REGISTER_MAP_ELEMENT(watchdog)
REGISTER_MAP_ELEMENT(front_panel)
REGISTER_MAP_ELEMENT(misc_clk_ctl1)
REGISTER_MAP_ELEMENT(misc_clk_ctl2)
REGISTER_MAP_ELEMENT(crt_ext_ctl)
REGISTER_MAP_ELEMENT(register_maps)
......@@ -35,11 +35,12 @@ enum asic_type {
#define CRONUS_11 0x0B4C1C21
#define CRONUSLITE_10 0x0B4C1C40
#define NAND_FLASH_BASE 0x03000000
#define ZEUS_IO_BASE 0x09000000
#define NAND_FLASH_BASE 0x03000000
#define CALLIOPE_IO_BASE 0x08000000
#define CRONUS_IO_BASE 0x09000000
#define ASIC_IO_SIZE 0x01000000
#define CRONUS_IO_BASE 0x09000000
#define ZEUS_IO_BASE 0x09000000
#define ASIC_IO_SIZE 0x01000000
/* Definitions for backward compatibility */
#define UART1_INTSTAT uart1_intstat
......@@ -52,96 +53,62 @@ enum asic_type {
#define UART1_STATUS uart1_status
/* ASIC register enumeration */
union register_map_entry {
unsigned long phys;
u32 *virt;
};
#define REGISTER_MAP_ELEMENT(x) union register_map_entry x;
struct register_map {
u32 eic_slow0_strt_add;
u32 eic_cfg_bits;
u32 eic_ready_status;
u32 chipver3;
u32 chipver2;
u32 chipver1;
u32 chipver0;
u32 uart1_intstat;
u32 uart1_inten;
u32 uart1_config1;
u32 uart1_config2;
u32 uart1_divisorhi;
u32 uart1_divisorlo;
u32 uart1_data;
u32 uart1_status;
u32 int_stat_3;
u32 int_stat_2;
u32 int_stat_1;
u32 int_stat_0;
u32 int_config;
u32 int_int_scan;
u32 ien_int_3;
u32 ien_int_2;
u32 ien_int_1;
u32 ien_int_0;
u32 int_level_3_3;
u32 int_level_3_2;
u32 int_level_3_1;
u32 int_level_3_0;
u32 int_level_2_3;
u32 int_level_2_2;
u32 int_level_2_1;
u32 int_level_2_0;
u32 int_level_1_3;
u32 int_level_1_2;
u32 int_level_1_1;
u32 int_level_1_0;
u32 int_level_0_3;
u32 int_level_0_2;
u32 int_level_0_1;
u32 int_level_0_0;
u32 int_docsis_en;
u32 mips_pll_setup;
u32 usb_fs;
u32 test_bus;
u32 crt_spare;
u32 usb2_ohci_int_mask;
u32 usb2_strap;
u32 ehci_hcapbase;
u32 ohci_hc_revision;
u32 bcm1_bs_lmi_steer;
u32 usb2_control;
u32 usb2_stbus_obc;
u32 usb2_stbus_mess_size;
u32 usb2_stbus_chunk_size;
u32 pcie_regs;
u32 tim_ch;
u32 tim_cl;
u32 gpio_dout;
u32 gpio_din;
u32 gpio_dir;
u32 watchdog;
u32 front_panel;
u32 register_maps;
#include <asm/mach-powertv/asic_reg_map.h>
};
#undef REGISTER_MAP_ELEMENT
/**
* register_map_offset_phys - add an offset to the physical address
* @map: Pointer to the &struct register_map
* @offset: Value to add
*
* Only adds the base to non-zero physical addresses
*/
static inline void register_map_offset_phys(struct register_map *map,
unsigned long offset)
{
#define REGISTER_MAP_ELEMENT(x) do { \
if (map->x.phys != 0) \
map->x.phys += offset; \
} while (false);
#include <asm/mach-powertv/asic_reg_map.h>
#undef REGISTER_MAP_ELEMENT
}
/**
* register_map_virtualize - Convert &register_map to virtual addresses
* @map: Pointer to &register_map to virtualize
*/
static inline void register_map_virtualize(struct register_map *map)
{
#define REGISTER_MAP_ELEMENT(x) do { \
map->x.virt = (!map->x.phys) ? NULL : \
UNCAC_ADDR(phys_to_virt(map->x.phys)); \
} while (false);
#include <asm/mach-powertv/asic_reg_map.h>
#undef REGISTER_MAP_ELEMENT
}
extern enum asic_type asic;
extern const struct register_map *register_map;
extern unsigned long asic_phy_base; /* Physical address of ASIC */
extern unsigned long asic_base; /* Virtual address of ASIC */
extern struct register_map _asic_register_map;
/*
* Macros to interface to registers through their ioremapped address
* asic_reg_offset Returns the offset of a given register from the start
* of the ASIC address space
* asic_reg_phys_addr Returns the physical address of the given register
* asic_reg_addr Returns the iomapped virtual address of the given
* register.
*/
#define asic_reg_offset(x) (register_map->x)
#define asic_reg_phys_addr(x) (asic_phy_base + asic_reg_offset(x))
#define asic_reg_addr(x) \
((unsigned int *) (asic_base + asic_reg_offset(x)))
#define asic_reg_addr(x) (_asic_register_map.x.virt)
#define asic_reg_phys_addr(x) (virt_to_phys((void *) CAC_ADDR( \
(unsigned long) asic_reg_addr(x))))
/*
* The asic_reg macro is gone. It should be replaced by either asic_read or
......
......@@ -405,6 +405,16 @@
#define ST0_CU3 0x80000000
#define ST0_XX 0x80000000 /* MIPS IV naming */
/*
* Bitfields and bit numbers in the coprocessor 0 IntCtl register. (MIPSR2)
*
* Refer to your MIPS R4xx0 manual, chapter 5 for explanation.
*/
#define INTCTLB_IPPCI 26
#define INTCTLF_IPPCI (_ULCAST_(7) << INTCTLB_IPPCI)
#define INTCTLB_IPTI 29
#define INTCTLF_IPTI (_ULCAST_(7) << INTCTLB_IPTI)
/*
* Bitfields and bit numbers in the coprocessor 0 cause register.
*
......@@ -434,6 +444,8 @@
#define CAUSEF_IV (_ULCAST_(1) << 23)
#define CAUSEB_CE 28
#define CAUSEF_CE (_ULCAST_(3) << 28)
#define CAUSEB_TI 30
#define CAUSEF_TI (_ULCAST_(1) << 30)
#define CAUSEB_BD 31
#define CAUSEF_BD (_ULCAST_(1) << 31)
......
......@@ -97,7 +97,7 @@ void mips_event_handler(struct clock_event_device *dev)
*/
static int c0_compare_int_pending(void)
{
return (read_c0_cause() >> cp0_compare_irq) & 0x100;
return (read_c0_cause() >> cp0_compare_irq_shift) & (1ul << CAUSEB_IP);
}
/*
......
......@@ -1403,6 +1403,7 @@ extern void flush_tlb_handlers(void);
* Timer interrupt
*/
int cp0_compare_irq;
int cp0_compare_irq_shift;
/*
* Performance counter IRQ or -1 if shared with timer
......@@ -1493,8 +1494,9 @@ void __cpuinit per_cpu_trap_init(void)
* o read IntCtl.IPPCI to determine the performance counter interrupt
*/
if (cpu_has_mips_r2) {
cp0_compare_irq = (read_c0_intctl() >> 29) & 7;
cp0_perfcount_irq = (read_c0_intctl() >> 26) & 7;
cp0_compare_irq_shift = CAUSEB_TI - CAUSEB_IP;
cp0_compare_irq = (read_c0_intctl() >> INTCTLB_IPTI) & 7;
cp0_perfcount_irq = (read_c0_intctl() >> INTCTLB_IPPCI) & 7;
if (cp0_perfcount_irq == cp0_compare_irq)
cp0_perfcount_irq = -1;
} else {
......
......@@ -23,76 +23,79 @@
* Description: Defines the platform resources for the SA settop.
*/
#include <linux/init.h>
#include <asm/mach-powertv/asic.h>
const struct register_map calliope_register_map = {
.eic_slow0_strt_add = 0x800000,
.eic_cfg_bits = 0x800038,
.eic_ready_status = 0x80004c,
#define CALLIOPE_ADDR(x) (CALLIOPE_IO_BASE + (x))
.chipver3 = 0xA00800,
.chipver2 = 0xA00804,
.chipver1 = 0xA00808,
.chipver0 = 0xA0080c,
const struct register_map calliope_register_map __initdata = {
.eic_slow0_strt_add = {.phys = CALLIOPE_ADDR(0x800000)},
.eic_cfg_bits = {.phys = CALLIOPE_ADDR(0x800038)},
.eic_ready_status = {.phys = CALLIOPE_ADDR(0x80004c)},
.chipver3 = {.phys = CALLIOPE_ADDR(0xA00800)},
.chipver2 = {.phys = CALLIOPE_ADDR(0xA00804)},
.chipver1 = {.phys = CALLIOPE_ADDR(0xA00808)},
.chipver0 = {.phys = CALLIOPE_ADDR(0xA0080c)},
/* The registers of IRBlaster */
.uart1_intstat = 0xA01800,
.uart1_inten = 0xA01804,
.uart1_config1 = 0xA01808,
.uart1_config2 = 0xA0180C,
.uart1_divisorhi = 0xA01810,
.uart1_divisorlo = 0xA01814,
.uart1_data = 0xA01818,
.uart1_status = 0xA0181C,
.uart1_intstat = {.phys = CALLIOPE_ADDR(0xA01800)},
.uart1_inten = {.phys = CALLIOPE_ADDR(0xA01804)},
.uart1_config1 = {.phys = CALLIOPE_ADDR(0xA01808)},
.uart1_config2 = {.phys = CALLIOPE_ADDR(0xA0180C)},
.uart1_divisorhi = {.phys = CALLIOPE_ADDR(0xA01810)},
.uart1_divisorlo = {.phys = CALLIOPE_ADDR(0xA01814)},
.uart1_data = {.phys = CALLIOPE_ADDR(0xA01818)},
.uart1_status = {.phys = CALLIOPE_ADDR(0xA0181C)},
.int_stat_3 = 0xA02800,
.int_stat_2 = 0xA02804,
.int_stat_1 = 0xA02808,
.int_stat_0 = 0xA0280c,
.int_config = 0xA02810,
.int_int_scan = 0xA02818,
.ien_int_3 = 0xA02830,
.ien_int_2 = 0xA02834,
.ien_int_1 = 0xA02838,
.ien_int_0 = 0xA0283c,
.int_level_3_3 = 0xA02880,
.int_level_3_2 = 0xA02884,
.int_level_3_1 = 0xA02888,
.int_level_3_0 = 0xA0288c,
.int_level_2_3 = 0xA02890,
.int_level_2_2 = 0xA02894,
.int_level_2_1 = 0xA02898,
.int_level_2_0 = 0xA0289c,
.int_level_1_3 = 0xA028a0,
.int_level_1_2 = 0xA028a4,
.int_level_1_1 = 0xA028a8,
.int_level_1_0 = 0xA028ac,
.int_level_0_3 = 0xA028b0,
.int_level_0_2 = 0xA028b4,
.int_level_0_1 = 0xA028b8,
.int_level_0_0 = 0xA028bc,
.int_docsis_en = 0xA028F4,
.int_stat_3 = {.phys = CALLIOPE_ADDR(0xA02800)},
.int_stat_2 = {.phys = CALLIOPE_ADDR(0xA02804)},
.int_stat_1 = {.phys = CALLIOPE_ADDR(0xA02808)},
.int_stat_0 = {.phys = CALLIOPE_ADDR(0xA0280c)},
.int_config = {.phys = CALLIOPE_ADDR(0xA02810)},
.int_int_scan = {.phys = CALLIOPE_ADDR(0xA02818)},
.ien_int_3 = {.phys = CALLIOPE_ADDR(0xA02830)},
.ien_int_2 = {.phys = CALLIOPE_ADDR(0xA02834)},
.ien_int_1 = {.phys = CALLIOPE_ADDR(0xA02838)},
.ien_int_0 = {.phys = CALLIOPE_ADDR(0xA0283c)},
.int_level_3_3 = {.phys = CALLIOPE_ADDR(0xA02880)},
.int_level_3_2 = {.phys = CALLIOPE_ADDR(0xA02884)},
.int_level_3_1 = {.phys = CALLIOPE_ADDR(0xA02888)},
.int_level_3_0 = {.phys = CALLIOPE_ADDR(0xA0288c)},
.int_level_2_3 = {.phys = CALLIOPE_ADDR(0xA02890)},
.int_level_2_2 = {.phys = CALLIOPE_ADDR(0xA02894)},
.int_level_2_1 = {.phys = CALLIOPE_ADDR(0xA02898)},
.int_level_2_0 = {.phys = CALLIOPE_ADDR(0xA0289c)},
.int_level_1_3 = {.phys = CALLIOPE_ADDR(0xA028a0)},
.int_level_1_2 = {.phys = CALLIOPE_ADDR(0xA028a4)},
.int_level_1_1 = {.phys = CALLIOPE_ADDR(0xA028a8)},
.int_level_1_0 = {.phys = CALLIOPE_ADDR(0xA028ac)},
.int_level_0_3 = {.phys = CALLIOPE_ADDR(0xA028b0)},
.int_level_0_2 = {.phys = CALLIOPE_ADDR(0xA028b4)},
.int_level_0_1 = {.phys = CALLIOPE_ADDR(0xA028b8)},
.int_level_0_0 = {.phys = CALLIOPE_ADDR(0xA028bc)},
.int_docsis_en = {.phys = CALLIOPE_ADDR(0xA028F4)},
.mips_pll_setup = 0x980000,
.usb_fs = 0x980030, /* -default 72800028- */
.test_bus = 0x9800CC,
.crt_spare = 0x9800d4,
.usb2_ohci_int_mask = 0x9A000c,
.usb2_strap = 0x9A0014,
.ehci_hcapbase = 0x9BFE00,
.ohci_hc_revision = 0x9BFC00,
.bcm1_bs_lmi_steer = 0x9E0004,
.usb2_control = 0x9E0054,
.usb2_stbus_obc = 0x9BFF00,
.usb2_stbus_mess_size = 0x9BFF04,
.usb2_stbus_chunk_size = 0x9BFF08,
.mips_pll_setup = {.phys = CALLIOPE_ADDR(0x980000)},
.usb_fs = {.phys = CALLIOPE_ADDR(0x980030)},
.test_bus = {.phys = CALLIOPE_ADDR(0x9800CC)},
.crt_spare = {.phys = CALLIOPE_ADDR(0x9800d4)},
.usb2_ohci_int_mask = {.phys = CALLIOPE_ADDR(0x9A000c)},
.usb2_strap = {.phys = CALLIOPE_ADDR(0x9A0014)},
.ehci_hcapbase = {.phys = CALLIOPE_ADDR(0x9BFE00)},
.ohci_hc_revision = {.phys = CALLIOPE_ADDR(0x9BFC00)},
.bcm1_bs_lmi_steer = {.phys = CALLIOPE_ADDR(0x9E0004)},
.usb2_control = {.phys = CALLIOPE_ADDR(0x9E0054)},
.usb2_stbus_obc = {.phys = CALLIOPE_ADDR(0x9BFF00)},
.usb2_stbus_mess_size = {.phys = CALLIOPE_ADDR(0x9BFF04)},
.usb2_stbus_chunk_size = {.phys = CALLIOPE_ADDR(0x9BFF08)},
.pcie_regs = 0x000000, /* -doesn't exist- */
.tim_ch = 0xA02C10,
.tim_cl = 0xA02C14,
.gpio_dout = 0xA02c20,
.gpio_din = 0xA02c24,
.gpio_dir = 0xA02c2C,
.watchdog = 0xA02c30,
.front_panel = 0x000000, /* -not used- */
.pcie_regs = {.phys = 0x000000}, /* -doesn't exist- */
.tim_ch = {.phys = CALLIOPE_ADDR(0xA02C10)},
.tim_cl = {.phys = CALLIOPE_ADDR(0xA02C14)},
.gpio_dout = {.phys = CALLIOPE_ADDR(0xA02c20)},
.gpio_din = {.phys = CALLIOPE_ADDR(0xA02c24)},
.gpio_dir = {.phys = CALLIOPE_ADDR(0xA02c2C)},
.watchdog = {.phys = CALLIOPE_ADDR(0xA02c30)},
.front_panel = {.phys = 0x000000}, /* -not used- */
};
......@@ -23,76 +23,79 @@
* Description: Defines the platform resources for the SA settop.
*/
#include <linux/init.h>
#include <asm/mach-powertv/asic.h>
const struct register_map cronus_register_map = {
.eic_slow0_strt_add = 0x000000,
.eic_cfg_bits = 0x000038,
.eic_ready_status = 0x00004C,
#define CRONUS_ADDR(x) (CRONUS_IO_BASE + (x))
.chipver3 = 0x2A0800,
.chipver2 = 0x2A0804,
.chipver1 = 0x2A0808,
.chipver0 = 0x2A080C,
const struct register_map cronus_register_map __initdata = {
.eic_slow0_strt_add = {.phys = CRONUS_ADDR(0x000000)},
.eic_cfg_bits = {.phys = CRONUS_ADDR(0x000038)},
.eic_ready_status = {.phys = CRONUS_ADDR(0x00004C)},
.chipver3 = {.phys = CRONUS_ADDR(0x2A0800)},
.chipver2 = {.phys = CRONUS_ADDR(0x2A0804)},
.chipver1 = {.phys = CRONUS_ADDR(0x2A0808)},
.chipver0 = {.phys = CRONUS_ADDR(0x2A080C)},
/* The registers of IRBlaster */
.uart1_intstat = 0x2A1800,
.uart1_inten = 0x2A1804,
.uart1_config1 = 0x2A1808,
.uart1_config2 = 0x2A180C,
.uart1_divisorhi = 0x2A1810,
.uart1_divisorlo = 0x2A1814,
.uart1_data = 0x2A1818,
.uart1_status = 0x2A181C,
.uart1_intstat = {.phys = CRONUS_ADDR(0x2A1800)},
.uart1_inten = {.phys = CRONUS_ADDR(0x2A1804)},
.uart1_config1 = {.phys = CRONUS_ADDR(0x2A1808)},
.uart1_config2 = {.phys = CRONUS_ADDR(0x2A180C)},
.uart1_divisorhi = {.phys = CRONUS_ADDR(0x2A1810)},
.uart1_divisorlo = {.phys = CRONUS_ADDR(0x2A1814)},
.uart1_data = {.phys = CRONUS_ADDR(0x2A1818)},
.uart1_status = {.phys = CRONUS_ADDR(0x2A181C)},
.int_stat_3 = 0x2A2800,
.int_stat_2 = 0x2A2804,
.int_stat_1 = 0x2A2808,
.int_stat_0 = 0x2A280C,
.int_config = 0x2A2810,
.int_int_scan = 0x2A2818,
.ien_int_3 = 0x2A2830,
.ien_int_2 = 0x2A2834,
.ien_int_1 = 0x2A2838,
.ien_int_0 = 0x2A283C,
.int_level_3_3 = 0x2A2880,
.int_level_3_2 = 0x2A2884,
.int_level_3_1 = 0x2A2888,
.int_level_3_0 = 0x2A288C,
.int_level_2_3 = 0x2A2890,
.int_level_2_2 = 0x2A2894,
.int_level_2_1 = 0x2A2898,
.int_level_2_0 = 0x2A289C,
.int_level_1_3 = 0x2A28A0,
.int_level_1_2 = 0x2A28A4,
.int_level_1_1 = 0x2A28A8,
.int_level_1_0 = 0x2A28AC,
.int_level_0_3 = 0x2A28B0,
.int_level_0_2 = 0x2A28B4,
.int_level_0_1 = 0x2A28B8,
.int_level_0_0 = 0x2A28BC,
.int_docsis_en = 0x2A28F4,
.int_stat_3 = {.phys = CRONUS_ADDR(0x2A2800)},
.int_stat_2 = {.phys = CRONUS_ADDR(0x2A2804)},
.int_stat_1 = {.phys = CRONUS_ADDR(0x2A2808)},
.int_stat_0 = {.phys = CRONUS_ADDR(0x2A280C)},
.int_config = {.phys = CRONUS_ADDR(0x2A2810)},
.int_int_scan = {.phys = CRONUS_ADDR(0x2A2818)},
.ien_int_3 = {.phys = CRONUS_ADDR(0x2A2830)},
.ien_int_2 = {.phys = CRONUS_ADDR(0x2A2834)},
.ien_int_1 = {.phys = CRONUS_ADDR(0x2A2838)},
.ien_int_0 = {.phys = CRONUS_ADDR(0x2A283C)},
.int_level_3_3 = {.phys = CRONUS_ADDR(0x2A2880)},
.int_level_3_2 = {.phys = CRONUS_ADDR(0x2A2884)},
.int_level_3_1 = {.phys = CRONUS_ADDR(0x2A2888)},
.int_level_3_0 = {.phys = CRONUS_ADDR(0x2A288C)},
.int_level_2_3 = {.phys = CRONUS_ADDR(0x2A2890)},
.int_level_2_2 = {.phys = CRONUS_ADDR(0x2A2894)},
.int_level_2_1 = {.phys = CRONUS_ADDR(0x2A2898)},
.int_level_2_0 = {.phys = CRONUS_ADDR(0x2A289C)},
.int_level_1_3 = {.phys = CRONUS_ADDR(0x2A28A0)},
.int_level_1_2 = {.phys = CRONUS_ADDR(0x2A28A4)},
.int_level_1_1 = {.phys = CRONUS_ADDR(0x2A28A8)},
.int_level_1_0 = {.phys = CRONUS_ADDR(0x2A28AC)},
.int_level_0_3 = {.phys = CRONUS_ADDR(0x2A28B0)},
.int_level_0_2 = {.phys = CRONUS_ADDR(0x2A28B4)},
.int_level_0_1 = {.phys = CRONUS_ADDR(0x2A28B8)},
.int_level_0_0 = {.phys = CRONUS_ADDR(0x2A28BC)},
.int_docsis_en = {.phys = CRONUS_ADDR(0x2A28F4)},
.mips_pll_setup = 0x1C0000,
.usb_fs = 0x1C0018,
.test_bus = 0x1C00CC,
.crt_spare = 0x1c00d4,
.usb2_ohci_int_mask = 0x20000C,
.usb2_strap = 0x200014,
.ehci_hcapbase = 0x21FE00,
.ohci_hc_revision = 0x1E0000,
.bcm1_bs_lmi_steer = 0x2E0008,
.usb2_control = 0x2E004C,
.usb2_stbus_obc = 0x21FF00,
.usb2_stbus_mess_size = 0x21FF04,
.usb2_stbus_chunk_size = 0x21FF08,
.mips_pll_setup = {.phys = CRONUS_ADDR(0x1C0000)},
.usb_fs = {.phys = CRONUS_ADDR(0x1C0018)},
.test_bus = {.phys = CRONUS_ADDR(0x1C00CC)},
.crt_spare = {.phys = CRONUS_ADDR(0x1c00d4)},
.usb2_ohci_int_mask = {.phys = CRONUS_ADDR(0x20000C)},
.usb2_strap = {.phys = CRONUS_ADDR(0x200014)},
.ehci_hcapbase = {.phys = CRONUS_ADDR(0x21FE00)},
.ohci_hc_revision = {.phys = CRONUS_ADDR(0x1E0000)},
.bcm1_bs_lmi_steer = {.phys = CRONUS_ADDR(0x2E0008)},
.usb2_control = {.phys = CRONUS_ADDR(0x2E004C)},
.usb2_stbus_obc = {.phys = CRONUS_ADDR(0x21FF00)},
.usb2_stbus_mess_size = {.phys = CRONUS_ADDR(0x21FF04)},
.usb2_stbus_chunk_size = {.phys = CRONUS_ADDR(0x21FF08)},
.pcie_regs = 0x220000,
.tim_ch = 0x2A2C10,
.tim_cl = 0x2A2C14,
.gpio_dout = 0x2A2C20,
.gpio_din = 0x2A2C24,
.gpio_dir = 0x2A2C2C,
.watchdog = 0x2A2C30,
.front_panel = 0x2A3800,
.pcie_regs = {.phys = CRONUS_ADDR(0x220000)},
.tim_ch = {.phys = CRONUS_ADDR(0x2A2C10)},
.tim_cl = {.phys = CRONUS_ADDR(0x2A2C14)},
.gpio_dout = {.phys = CRONUS_ADDR(0x2A2C20)},
.gpio_din = {.phys = CRONUS_ADDR(0x2A2C24)},
.gpio_dir = {.phys = CRONUS_ADDR(0x2A2C2C)},
.watchdog = {.phys = CRONUS_ADDR(0x2A2C30)},
.front_panel = {.phys = CRONUS_ADDR(0x2A3800)},
};
......@@ -23,76 +23,79 @@
* Description: Defines the platform resources for the SA settop.
*/
#include <linux/init.h>
#include <asm/mach-powertv/asic.h>
const struct register_map zeus_register_map = {
.eic_slow0_strt_add = 0x000000,
.eic_cfg_bits = 0x000038,
.eic_ready_status = 0x00004c,
#define ZEUS_ADDR(x) (ZEUS_IO_BASE + (x))
.chipver3 = 0x280800,
.chipver2 = 0x280804,
.chipver1 = 0x280808,
.chipver0 = 0x28080c,
const struct register_map zeus_register_map __initdata = {
.eic_slow0_strt_add = {.phys = ZEUS_ADDR(0x000000)},
.eic_cfg_bits = {.phys = ZEUS_ADDR(0x000038)},
.eic_ready_status = {.phys = ZEUS_ADDR(0x00004c)},
.chipver3 = {.phys = ZEUS_ADDR(0x280800)},
.chipver2 = {.phys = ZEUS_ADDR(0x280804)},
.chipver1 = {.phys = ZEUS_ADDR(0x280808)},
.chipver0 = {.phys = ZEUS_ADDR(0x28080c)},
/* The registers of IRBlaster */
.uart1_intstat = 0x281800,
.uart1_inten = 0x281804,
.uart1_config1 = 0x281808,
.uart1_config2 = 0x28180C,
.uart1_divisorhi = 0x281810,
.uart1_divisorlo = 0x281814,
.uart1_data = 0x281818,
.uart1_status = 0x28181C,
.uart1_intstat = {.phys = ZEUS_ADDR(0x281800)},
.uart1_inten = {.phys = ZEUS_ADDR(0x281804)},
.uart1_config1 = {.phys = ZEUS_ADDR(0x281808)},
.uart1_config2 = {.phys = ZEUS_ADDR(0x28180C)},
.uart1_divisorhi = {.phys = ZEUS_ADDR(0x281810)},
.uart1_divisorlo = {.phys = ZEUS_ADDR(0x281814)},
.uart1_data = {.phys = ZEUS_ADDR(0x281818)},
.uart1_status = {.phys = ZEUS_ADDR(0x28181C)},
.int_stat_3 = 0x282800,
.int_stat_2 = 0x282804,
.int_stat_1 = 0x282808,
.int_stat_0 = 0x28280c,
.int_config = 0x282810,
.int_int_scan = 0x282818,
.ien_int_3 = 0x282830,
.ien_int_2 = 0x282834,
.ien_int_1 = 0x282838,
.ien_int_0 = 0x28283c,
.int_level_3_3 = 0x282880,
.int_level_3_2 = 0x282884,
.int_level_3_1 = 0x282888,
.int_level_3_0 = 0x28288c,
.int_level_2_3 = 0x282890,
.int_level_2_2 = 0x282894,
.int_level_2_1 = 0x282898,
.int_level_2_0 = 0x28289c,
.int_level_1_3 = 0x2828a0,
.int_level_1_2 = 0x2828a4,
.int_level_1_1 = 0x2828a8,
.int_level_1_0 = 0x2828ac,
.int_level_0_3 = 0x2828b0,
.int_level_0_2 = 0x2828b4,
.int_level_0_1 = 0x2828b8,
.int_level_0_0 = 0x2828bc,
.int_docsis_en = 0x2828F4,
.int_stat_3 = {.phys = ZEUS_ADDR(0x282800)},
.int_stat_2 = {.phys = ZEUS_ADDR(0x282804)},
.int_stat_1 = {.phys = ZEUS_ADDR(0x282808)},
.int_stat_0 = {.phys = ZEUS_ADDR(0x28280c)},
.int_config = {.phys = ZEUS_ADDR(0x282810)},
.int_int_scan = {.phys = ZEUS_ADDR(0x282818)},
.ien_int_3 = {.phys = ZEUS_ADDR(0x282830)},
.ien_int_2 = {.phys = ZEUS_ADDR(0x282834)},
.ien_int_1 = {.phys = ZEUS_ADDR(0x282838)},
.ien_int_0 = {.phys = ZEUS_ADDR(0x28283c)},
.int_level_3_3 = {.phys = ZEUS_ADDR(0x282880)},
.int_level_3_2 = {.phys = ZEUS_ADDR(0x282884)},
.int_level_3_1 = {.phys = ZEUS_ADDR(0x282888)},
.int_level_3_0 = {.phys = ZEUS_ADDR(0x28288c)},
.int_level_2_3 = {.phys = ZEUS_ADDR(0x282890)},
.int_level_2_2 = {.phys = ZEUS_ADDR(0x282894)},
.int_level_2_1 = {.phys = ZEUS_ADDR(0x282898)},
.int_level_2_0 = {.phys = ZEUS_ADDR(0x28289c)},
.int_level_1_3 = {.phys = ZEUS_ADDR(0x2828a0)},
.int_level_1_2 = {.phys = ZEUS_ADDR(0x2828a4)},
.int_level_1_1 = {.phys = ZEUS_ADDR(0x2828a8)},
.int_level_1_0 = {.phys = ZEUS_ADDR(0x2828ac)},
.int_level_0_3 = {.phys = ZEUS_ADDR(0x2828b0)},
.int_level_0_2 = {.phys = ZEUS_ADDR(0x2828b4)},
.int_level_0_1 = {.phys = ZEUS_ADDR(0x2828b8)},
.int_level_0_0 = {.phys = ZEUS_ADDR(0x2828bc)},
.int_docsis_en = {.phys = ZEUS_ADDR(0x2828F4)},
.mips_pll_setup = 0x1a0000,
.usb_fs = 0x1a0018,
.test_bus = 0x1a0238,
.crt_spare = 0x1a0090,
.usb2_ohci_int_mask = 0x1e000c,
.usb2_strap = 0x1e0014,
.ehci_hcapbase = 0x1FFE00,
.ohci_hc_revision = 0x1FFC00,
.bcm1_bs_lmi_steer = 0x2C0008,
.usb2_control = 0x2c01a0,
.usb2_stbus_obc = 0x1FFF00,
.usb2_stbus_mess_size = 0x1FFF04,
.usb2_stbus_chunk_size = 0x1FFF08,
.mips_pll_setup = {.phys = ZEUS_ADDR(0x1a0000)},
.usb_fs = {.phys = ZEUS_ADDR(0x1a0018)},
.test_bus = {.phys = ZEUS_ADDR(0x1a0238)},
.crt_spare = {.phys = ZEUS_ADDR(0x1a0090)},
.usb2_ohci_int_mask = {.phys = ZEUS_ADDR(0x1e000c)},
.usb2_strap = {.phys = ZEUS_ADDR(0x1e0014)},
.ehci_hcapbase = {.phys = ZEUS_ADDR(0x1FFE00)},
.ohci_hc_revision = {.phys = ZEUS_ADDR(0x1FFC00)},
.bcm1_bs_lmi_steer = {.phys = ZEUS_ADDR(0x2C0008)},
.usb2_control = {.phys = ZEUS_ADDR(0x2c01a0)},
.usb2_stbus_obc = {.phys = ZEUS_ADDR(0x1FFF00)},
.usb2_stbus_mess_size = {.phys = ZEUS_ADDR(0x1FFF04)},
.usb2_stbus_chunk_size = {.phys = ZEUS_ADDR(0x1FFF08)},
.pcie_regs = 0x200000,
.tim_ch = 0x282C10,
.tim_cl = 0x282C14,
.gpio_dout = 0x282c20,
.gpio_din = 0x282c24,
.gpio_dir = 0x282c2C,
.watchdog = 0x282c30,
.front_panel = 0x283800,
.pcie_regs = {.phys = ZEUS_ADDR(0x200000)},
.tim_ch = {.phys = ZEUS_ADDR(0x282C10)},
.tim_cl = {.phys = ZEUS_ADDR(0x282C14)},
.gpio_dout = {.phys = ZEUS_ADDR(0x282c20)},
.gpio_din = {.phys = ZEUS_ADDR(0x282c24)},
.gpio_dir = {.phys = ZEUS_ADDR(0x282c2C)},
.watchdog = {.phys = ZEUS_ADDR(0x282c30)},
.front_panel = {.phys = ZEUS_ADDR(0x283800)},
};
......@@ -67,8 +67,8 @@ enum asic_type asic;
unsigned int platform_features;
unsigned int platform_family;
const struct register_map *register_map;
EXPORT_SYMBOL(register_map); /* Exported for testing */
struct register_map _asic_register_map;
EXPORT_SYMBOL(_asic_register_map); /* Exported for testing */
unsigned long asic_phy_base;
unsigned long asic_base;
EXPORT_SYMBOL(asic_base); /* Exported for testing */
......@@ -418,6 +418,15 @@ void platform_unconfigure_usb_ohci()
{
}
static void __init set_register_map(unsigned long phys_base,
const struct register_map *map)
{
asic_phy_base = phys_base;
_asic_register_map = *map;
register_map_virtualize(&_asic_register_map);
asic_base = (unsigned long)ioremap_nocache(phys_base, ASIC_IO_SIZE);
}
/**
* configure_platform - configuration based on platform type.
*/
......@@ -431,10 +440,7 @@ void __init configure_platform(void)
case FAMILY_1500VZF:
platform_features = FFS_CAPABLE;
asic = ASIC_CALLIOPE;
asic_phy_base = CALLIOPE_IO_BASE;
register_map = &calliope_register_map;
asic_base = (unsigned long)ioremap_nocache(asic_phy_base,
ASIC_IO_SIZE);
set_register_map(CALLIOPE_IO_BASE, &calliope_register_map);
if (platform_family == FAMILY_1500VZE) {
gp_resources = non_dvr_vze_calliope_resources;
......@@ -455,10 +461,7 @@ void __init configure_platform(void)
platform_features = FFS_CAPABLE | PCIE_CAPABLE |
DISPLAY_CAPABLE;
asic = ASIC_ZEUS;
asic_phy_base = ZEUS_IO_BASE;
register_map = &zeus_register_map;
asic_base = (unsigned long)ioremap_nocache(asic_phy_base,
ASIC_IO_SIZE);
set_register_map(ZEUS_IO_BASE, &zeus_register_map);
gp_resources = non_dvr_zeus_resources;
pr_info("Platform: 4500 - ZEUS, NON_DVR_CAPABLE\n");
......@@ -471,11 +474,6 @@ void __init configure_platform(void)
/* The settop has PCIE but it isn't used, so don't advertise
* it*/
platform_features = FFS_CAPABLE | DISPLAY_CAPABLE;
asic_phy_base = CRONUS_IO_BASE; /* same as Cronus */
register_map = &cronus_register_map; /* same as Cronus */
asic_base = (unsigned long)ioremap_nocache(asic_phy_base,
ASIC_IO_SIZE);
gp_resources = non_dvr_cronuslite_resources;
/* ASIC version will determine if this is a real CronusLite or
* Castrati(Cronus) */
......@@ -489,6 +487,9 @@ void __init configure_platform(void)
else
asic = ASIC_CRONUSLITE;
/* Cronus and Cronus Lite have the same register map */
set_register_map(CRONUS_IO_BASE, &cronus_register_map);
gp_resources = non_dvr_cronuslite_resources;
pr_info("Platform: 4600 - %s, NON_DVR_CAPABLE, "
"chipversion=0x%08X\n",
(asic == ASIC_CRONUS) ? "CRONUS" : "CRONUS LITE",
......@@ -498,10 +499,7 @@ void __init configure_platform(void)
case FAMILY_4600VZA:
platform_features = FFS_CAPABLE | DISPLAY_CAPABLE;
asic = ASIC_CRONUS;
asic_phy_base = CRONUS_IO_BASE;
register_map = &cronus_register_map;
asic_base = (unsigned long)ioremap_nocache(asic_phy_base,
ASIC_IO_SIZE);
set_register_map(CRONUS_IO_BASE, &cronus_register_map);
gp_resources = non_dvr_cronus_resources;
pr_info("Platform: Vz Class A - CRONUS, NON_DVR_CAPABLE\n");
......@@ -512,10 +510,7 @@ void __init configure_platform(void)
platform_features = DVR_CAPABLE | PCIE_CAPABLE |
DISPLAY_CAPABLE;
asic = ASIC_ZEUS;
asic_phy_base = ZEUS_IO_BASE;
register_map = &zeus_register_map;
asic_base = (unsigned long)ioremap_nocache(asic_phy_base,
ASIC_IO_SIZE);
set_register_map(ZEUS_IO_BASE, &zeus_register_map);
gp_resources = dvr_zeus_resources;
pr_info("Platform: 8500/RNG200 - ZEUS, DVR_CAPABLE\n");
......@@ -526,10 +521,7 @@ void __init configure_platform(void)
platform_features = DVR_CAPABLE | PCIE_CAPABLE |
DISPLAY_CAPABLE;
asic = ASIC_CRONUS;
asic_phy_base = CRONUS_IO_BASE;
register_map = &cronus_register_map;
asic_base = (unsigned long)ioremap_nocache(asic_phy_base,
ASIC_IO_SIZE);
set_register_map(CRONUS_IO_BASE, &cronus_register_map);
gp_resources = dvr_cronus_resources;
pr_info("Platform: 8600/Vz Class B - CRONUS, "
......
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