/*
* GRUB -- GRand Unified Bootloader
* Copyright (C) 2000,2001,2002,2003,2004,2005,2007,2008,2009,2010 Free Software Foundation, Inc.
*
* GRUB 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 3 of the License, or
* (at your option) any later version.
*
* GRUB 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 GRUB. If not, see .
*/
#include
#include
#include
#include
#include
#include
#include
#include
#include
/* #define FULOONG 1 */
#ifdef FULOONG
#define GRUB_MACHINE_SERIAL_PORT GRUB_MACHINE_SERIAL_PORT2
#define GRUB_MACHINE_SERIAL_DIVISOR_115200 GRUB_MACHINE_SERIAL_PORT2_DIVISOR_115200
#else
#define GRUB_MACHINE_SERIAL_PORT GRUB_MACHINE_SERIAL_PORT0
#define GRUB_MACHINE_SERIAL_DIVISOR_115200 GRUB_MACHINE_SERIAL_PORT0_DIVISOR_115200
#endif
.set noreorder
.set noat
.set nomacro
.global start,_start,__start
start:
_start:
__start:
/* Put serial init as soon as possible. But on Fuloong serial is past
Geode, so on Fuloong we need Geode first.
*/
#ifndef FULOONG
bal serial_hw_init
nop
#endif
/* Find CS5536 controller. */
/* $t4 chooses device in priority encoding. */
/* Resulting value is kept in GRUB_MACHINE_PCI_CONF_CTRL_REG.
This way we don't need to sacrifice a register for it. */
retry_cs5536:
/* We have only one bus (0). Function is 0. */
lui $t0, %hi(GRUB_MACHINE_PCI_CONF_CTRL_REG_ADDR)
lui $t1, %hi(GRUB_MACHINE_PCI_CONFSPACE)
lui $t3, %hi(GRUB_CS5536_PCIID)
addiu $t3, $t3, %lo(GRUB_CS5536_PCIID)
ori $t4, $zero, 1
1:
andi $t4, $t4, ((1 << GRUB_PCI_NUM_DEVICES) - 1)
/* In case of failure try again. CS5536 may be slow to come up. */
beql $t4, $zero, retry_cs5536
nop
sw $t4, %lo(GRUB_MACHINE_PCI_CONF_CTRL_REG_ADDR) ($t0)
lw $t2, (%lo(GRUB_MACHINE_PCI_CONFSPACE) + GRUB_PCI_REG_PCI_ID) ($t1)
bnel $t2, $t3, 1b
sll $t4, $t4, 1
#ifndef FULOONG
bal message
addiu $a0, $a0, %lo(cs5536_found)
bal printhex
move $a0, $t4
#endif
lui $t0, %hi(GRUB_MACHINE_PCI_CONFSPACE)
li $t1, GRUB_CS5536_MSR_MAILBOX_CONFIG_ENABLED
sw $t1, (%lo(GRUB_MACHINE_PCI_CONFSPACE) + GRUB_CS5536_MSR_MAILBOX_CONFIG) ($t0)
/* Set GPIO LBAR. */
lui $a0, %hi(GRUB_CS5536_MSR_GPIO_BAR)
addiu $a0, $a0, %lo(GRUB_CS5536_MSR_GPIO_BAR)
ori $a1, $zero, GRUB_CS5536_LBAR_GPIO
/* Set mask to 0xf and enabled bit to 1. */
bal wrmsr
ori $a2, $zero, ((GRUB_CS5536_LBAR_MASK_MASK \
| GRUB_CS5536_LBAR_ENABLE) >> 32)
bal gpio_init
nop
#ifdef FULOONG
bal serial_hw_init
nop
#endif
/* Initialise SMBus controller. */
/* Set SMBUS LBAR. */
lui $a0, %hi(GRUB_CS5536_MSR_SMB_BAR)
addiu $a0, $a0, %lo(GRUB_CS5536_MSR_SMB_BAR)
ori $a1, $zero, GRUB_CS5536_LBAR_SMBUS
/* Set mask to 0xf and enabled bit to 1. */
bal wrmsr
ori $a2, $zero, ((GRUB_CS5536_LBAR_MASK_MASK \
| GRUB_CS5536_LBAR_ENABLE) >> 32)
lui $a0, %hi(smbus_enabled)
bal message
addiu $a0, $a0, %lo(smbus_enabled)
lui $t0, %hi(GRUB_MACHINE_PCI_IO_BASE + GRUB_CS5536_LBAR_SMBUS)
/* Disable SMB. */
sb $zero, %lo(GRUB_MACHINE_PCI_IO_BASE + GRUB_CS5536_LBAR_SMBUS + GRUB_CS5536_SMB_REG_CTRL2) ($t0)
/* Disable interrupts. */
sb $zero, %lo(GRUB_MACHINE_PCI_IO_BASE + GRUB_CS5536_LBAR_SMBUS + GRUB_CS5536_SMB_REG_CTRL1) ($t0)
/* Set as master. */
sb $zero, %lo(GRUB_MACHINE_PCI_IO_BASE + GRUB_CS5536_LBAR_SMBUS + GRUB_CS5536_SMB_REG_ADDR) ($t0)
/* Launch SMBus controller at slowest speed possible. */
ori $t1, $zero, 0xff
sb $t1, %lo(GRUB_MACHINE_PCI_IO_BASE + GRUB_CS5536_LBAR_SMBUS + GRUB_CS5536_SMB_REG_CTRL3) ($t0)
sb $t1, %lo(GRUB_MACHINE_PCI_IO_BASE + GRUB_CS5536_LBAR_SMBUS + GRUB_CS5536_SMB_REG_CTRL2) ($t0)
/* Yeeloong has only one memory slot. */
/* Output first byte on serial for debugging. */
ori $a1, $zero, GRUB_SMB_RAM_START_ADDR
bal read_spd
move $a0, $zero
bal printhex
move $a0, $v0
bal read_spd
ori $a0, $zero, GRUB_SMBUS_SPD_MEMORY_TYPE_ADDR
ori $t0, $zero, GRUB_SMBUS_SPD_MEMORY_TYPE_DDR2
lui $a0, %hi(unimplemented_memory_type)
bne $t0, $v0, fatal
addiu $a0, $a0, %lo(unimplemented_memory_type)
/* And here is our goal: DDR2 controller initialisation. */
lui $t0, %hi(GRUB_CPU_LOONGSON_CORECFG)
ld $t1, %lo(GRUB_CPU_LOONGSON_CORECFG) ($t0)
/* Use addiu for sign-extension. */
addiu $t2, $zero, ~(GRUB_CPU_LOONGSON_CORECFG_DISABLE_DDR2_SPACE|GRUB_CPU_LOONGSON_CORECFG_BUFFER_CPU)
and $t1, $t1, $t2
sd $t1, %lo (GRUB_CPU_LOONGSON_CORECFG) ($t0)
b continue
. = start + GRUB_CPU_LOONGSON_FLASH_TLB_REFILL - GRUB_CPU_LOONGSON_FLASH_START
tlb_refill:
mfc0 $s1, GRUB_CPU_LOONGSON_COP0_EPC
mfc0 $s2, GRUB_CPU_LOONGSON_COP0_BADVADDR
move $s3, $ra
lui $a0, %hi(epc)
bal message
addiu $a0, $a0, %lo(epc)
bal printhex
move $a0, $s1
lui $a0, %hi(badvaddr)
bal message
addiu $a0, $a0, %lo(badvaddr)
bal printhex
move $a0, $s2
lui $a0, %hi(return_msg)
bal message
addiu $a0, $a0, %lo(return_msg)
bal printhex
move $a0, $s3
lui $a0, %hi(newline)
bal message
addiu $a0, $a0, %lo(newline)
lui $a0, %hi(unhandled_tlb_refill)
b fatal
addiu $a0, $a0, %lo(unhandled_tlb_refill)
. = start + GRUB_CPU_LOONGSON_FLASH_CACHE_ERROR - GRUB_CPU_LOONGSON_FLASH_START
cache_error:
lui $a0, %hi(unhandled_cache_error)
b fatal
addiu $a0, $a0, %lo(unhandled_cache_error)
. = start + GRUB_CPU_LOONGSON_FLASH_OTHER_EXCEPTION - GRUB_CPU_LOONGSON_FLASH_START
other_exception:
mfc0 $s0, GRUB_CPU_LOONGSON_COP0_CAUSE
mfc0 $s1, GRUB_CPU_LOONGSON_COP0_EPC
mfc0 $s2, GRUB_CPU_LOONGSON_COP0_BADVADDR
lui $a0, %hi(cause)
bal message
addiu $a0, $a0, %lo(cause)
bal printhex
move $a0, $s0
lui $a0, %hi(epc)
bal message
addiu $a0, $a0, %lo(epc)
bal printhex
move $a0, $s1
lui $a0, %hi(badvaddr)
bal message
addiu $a0, $a0, %lo(badvaddr)
bal printhex
move $a0, $s2
lui $a0, %hi(newline)
bal message
addiu $a0, $a0, %lo(newline)
lui $a0, %hi(unhandled_exception)
b fatal
addiu $a0, $a0, %lo(unhandled_exception)
gpio_init:
lui $t0, %hi(GRUB_MACHINE_PCI_IO_BASE + GRUB_CS5536_LBAR_GPIO)
addiu $t0, $t0, %lo(GRUB_MACHINE_PCI_IO_BASE + GRUB_CS5536_LBAR_GPIO)
lui $t1, %hi (gpio_dump)
addiu $t1, $t1, %lo (gpio_dump)
1:
lw $t2, 0($t1)
sw $t2, 0($t0)
addiu $t0, $t0, 4
addiu $t1, $t1, 4
lui $t2, %hi (gpio_dump_end)
addiu $t2, $t2, %lo (gpio_dump_end)
bne $t1, $t2, 1b
nop
jr $ra
nop
/* Same as similarly named C function but in asm since
we need it early. */
/* In: none. Out: none. Clobbered: $t0, $t1, $t2, $a0, $a1, $a2. */
serial_hw_init:
move $t2, $ra
#ifdef FULOONG
lui $a0, %hi(GRUB_CS5536_MSR_DIVIL_LEG_IO)
addiu $a0, $a0, %lo(GRUB_CS5536_MSR_DIVIL_LEG_IO)
li $a1, (GRUB_CS5536_MSR_DIVIL_LEG_IO_UART2_COM3 \
| GRUB_CS5536_MSR_DIVIL_LEG_IO_F_REMAP \
| GRUB_CS5536_MSR_DIVIL_LEG_IO_MODE_X86 \
| GRUB_CS5536_MSR_DIVIL_LEG_IO_UART1_COM1 \
| GRUB_CS5536_MSR_DIVIL_LEG_IO_RTC_ENABLE0 \
| GRUB_CS5536_MSR_DIVIL_LEG_IO_RTC_ENABLE1)
bal wrmsr
move $a2, $zero
lui $a0, %hi(GRUB_CS5536_MSR_DIVIL_UART1_CONF)
addiu $a0, $a0, %lo(GRUB_CS5536_MSR_DIVIL_UART1_CONF)
li $a1, 2
bal wrmsr
move $a2, $zero
lui $a0, %hi(GRUB_CS5536_MSR_DIVIL_UART2_CONF)
addiu $a0, $a0, %lo(GRUB_CS5536_MSR_DIVIL_UART2_CONF)
li $a1, 2
bal wrmsr
move $a2, $zero
#endif
lui $t0, %hi (GRUB_MACHINE_SERIAL_PORT)
/* Turn off the interrupt. */
sb $zero, (%lo (GRUB_MACHINE_SERIAL_PORT) + UART_IER)($t0)
/* Set DLAB. */
ori $t1, $zero, UART_DLAB
sb $t1, (%lo (GRUB_MACHINE_SERIAL_PORT) + UART_LCR)($t0)
/* Set the baud rate 115200. */
ori $t1, $zero, GRUB_MACHINE_SERIAL_DIVISOR_115200
sb $t1, (%lo (GRUB_MACHINE_SERIAL_PORT) + UART_DLL)($t0)
sb $zero, (%lo (GRUB_MACHINE_SERIAL_PORT) + UART_DLH)($t0)
/* Set the line status. */
ori $t1, $zero, (UART_NO_PARITY | UART_8BITS_WORD | UART_1_STOP_BIT)
sb $t1, (%lo (GRUB_MACHINE_SERIAL_PORT) + UART_LCR)($t0)
/* Enable the FIFO. */
ori $t1, $zero, UART_ENABLE_FIFO_TRIGGER1
sb $t1, (%lo (GRUB_MACHINE_SERIAL_PORT) + UART_FCR)($t0)
/* Turn on DTR and RTS. */
ori $t1, $zero, UART_ENABLE_DTRRTS
sb $t1, (%lo (GRUB_MACHINE_SERIAL_PORT) + UART_MCR)($t0)
/* Let message return to original caller. */
lui $a0, %hi(notification_string)
addiu $a0, $a0, %lo(notification_string)
move $ra, $t2
/* Print message on serial console. */
/* In: $a0 = asciiz message. Out: none. Clobbered: $t0, $t1, $a0. */
message:
lui $t0, %hi (GRUB_MACHINE_SERIAL_PORT)
1:
lb $t1, (%lo (GRUB_MACHINE_SERIAL_PORT) + UART_LSR)($t0)
andi $t1, $t1, UART_EMPTY_TRANSMITTER
beq $t1, $zero, 1b
nop
lb $t1, 0($a0)
sb $t1, (%lo (GRUB_MACHINE_SERIAL_PORT) + UART_TX)($t0)
bne $t1, $zero, 1b
addiu $a0, $a0, 1
jr $ra
nop
/* Print 32-bit hexadecimal on serial.
In: $a0. Out: None. Clobbered: $a0, $t0, $t1, $t2
*/
printhex:
lui $t0, %hi (GRUB_MACHINE_SERIAL_PORT)
ori $t2, $zero, 8
1:
lb $t1, (%lo (GRUB_MACHINE_SERIAL_PORT) + UART_LSR)($t0)
andi $t1, $t1, UART_EMPTY_TRANSMITTER
beq $t1, $zero, 1b
nop
srl $t1, $a0, 28
addiu $t1, $t1, -10
blt $t1, $zero, 2f
sll $a0, $a0, 4
addiu $t1, $t1, 'A'-10-'0'
2: addiu $t1, $t1, '0'+10
sb $t1, (%lo (GRUB_MACHINE_SERIAL_PORT) + UART_TX)($t0)
addiu $t2, $t2, -1
bne $t2, $zero, 1b
nop
jr $ra
nop
fatal:
bal message
nop
self:
b self
nop
/* Write CS5536 MSR.
In: $a0 address, $a1 lower word, $a2 upper word.
Out: None
Clobbered: $t0
*/
wrmsr:
lui $t0, %hi(GRUB_MACHINE_PCI_CONFSPACE)
sw $a0, (%lo(GRUB_MACHINE_PCI_CONFSPACE) + GRUB_CS5536_MSR_MAILBOX_ADDR) ($t0)
sw $a1, (%lo(GRUB_MACHINE_PCI_CONFSPACE) + GRUB_CS5536_MSR_MAILBOX_DATA0) ($t0)
jr $ra
sw $a2, (%lo(GRUB_MACHINE_PCI_CONFSPACE) + GRUB_CS5536_MSR_MAILBOX_DATA1) ($t0)
/* Wait for SMBus data or empty transmitter. */
/* In: $a0 = exception handler. Out: none. Clobbered: $t0, $t1 */
smbus_wait:
1:
lui $t0, %hi(GRUB_CS5536_LBAR_SMBUS + GRUB_CS5536_SMB_REG_STATUS + GRUB_MACHINE_PCI_IO_BASE)
lb $t0, %lo(GRUB_CS5536_LBAR_SMBUS + GRUB_CS5536_SMB_REG_STATUS + GRUB_MACHINE_PCI_IO_BASE) ($t0)
andi $t1, $t0, GRUB_CS5536_SMB_REG_STATUS_SDAST
bne $t1, $zero, return
nop
andi $t1, $t0, (GRUB_CS5536_SMB_REG_STATUS_BER | GRUB_CS5536_SMB_REG_STATUS_NACK)
beq $t1, $zero, 1b
nop
jr $a0
nop
return:
jr $ra
nop
/* Read SPD byte. In: $a0 byte, $a1 device. Out: $v0 read byte (0x100 on failure).
Clobbered: $t0, $t1, $t2, $t3, $a0. */
read_spd:
move $t2, $a0
move $t3, $ra
lui $a0, %hi(read_spd_fail)
addiu $a0, $a0, %hi(read_spd_fail)
/* Send START. */
lui $t0, %hi(GRUB_CS5536_LBAR_SMBUS + GRUB_CS5536_SMB_REG_CTRL1 + GRUB_MACHINE_PCI_IO_BASE)
lb $t1, %lo(GRUB_CS5536_LBAR_SMBUS + GRUB_CS5536_SMB_REG_CTRL1 + GRUB_MACHINE_PCI_IO_BASE) ($t0)
ori $t1, $t1, GRUB_CS5536_SMB_REG_CTRL1_START
bal smbus_wait
sb $t1, %lo(GRUB_CS5536_LBAR_SMBUS + GRUB_CS5536_SMB_REG_CTRL1 + GRUB_MACHINE_PCI_IO_BASE) ($t0)
/* Send device address. */
lui $t0, %hi(GRUB_CS5536_LBAR_SMBUS + GRUB_CS5536_SMB_REG_DATA + GRUB_MACHINE_PCI_IO_BASE)
sll $t1, $a1, 1
bal smbus_wait
sb $t1, %lo(GRUB_CS5536_LBAR_SMBUS + GRUB_CS5536_SMB_REG_DATA + GRUB_MACHINE_PCI_IO_BASE) ($t0)
/* Send ACK. */
lui $t0, %hi(GRUB_CS5536_LBAR_SMBUS + GRUB_CS5536_SMB_REG_CTRL1 + GRUB_MACHINE_PCI_IO_BASE)
lb $t1, %lo(GRUB_CS5536_LBAR_SMBUS + GRUB_CS5536_SMB_REG_CTRL1 + GRUB_MACHINE_PCI_IO_BASE) ($t0)
ori $t1, $t1, GRUB_CS5536_SMB_REG_CTRL1_ACK
sb $t1, %lo(GRUB_CS5536_LBAR_SMBUS + GRUB_CS5536_SMB_REG_CTRL1 + GRUB_MACHINE_PCI_IO_BASE) ($t0)
/* Send byte address. */
lui $t0, %hi(GRUB_CS5536_LBAR_SMBUS + GRUB_CS5536_SMB_REG_DATA + GRUB_MACHINE_PCI_IO_BASE)
bal smbus_wait
sb $t2, %lo(GRUB_CS5536_LBAR_SMBUS + GRUB_CS5536_SMB_REG_DATA + GRUB_MACHINE_PCI_IO_BASE) ($t0)
/* Send START. */
lui $t0, %hi(GRUB_CS5536_LBAR_SMBUS + GRUB_CS5536_SMB_REG_CTRL1 + GRUB_MACHINE_PCI_IO_BASE)
lb $t1, %lo(GRUB_CS5536_LBAR_SMBUS + GRUB_CS5536_SMB_REG_CTRL1 + GRUB_MACHINE_PCI_IO_BASE) ($t0)
ori $t1, $t1, GRUB_CS5536_SMB_REG_CTRL1_START
bal smbus_wait
sb $t1, %lo(GRUB_CS5536_LBAR_SMBUS + GRUB_CS5536_SMB_REG_CTRL1 + GRUB_MACHINE_PCI_IO_BASE) ($t0)
/* Send device address. */
lui $t0, %hi(GRUB_CS5536_LBAR_SMBUS + GRUB_CS5536_SMB_REG_DATA + GRUB_MACHINE_PCI_IO_BASE)
sll $t1, $a1, 1
ori $t1, $t1, 1
bal smbus_wait
sb $t1, %lo(GRUB_CS5536_LBAR_SMBUS + GRUB_CS5536_SMB_REG_DATA + GRUB_MACHINE_PCI_IO_BASE) ($t0)
/* Send STOP. */
lui $t0, %hi(GRUB_CS5536_LBAR_SMBUS + GRUB_CS5536_SMB_REG_CTRL1 + GRUB_MACHINE_PCI_IO_BASE)
lb $t1, %lo(GRUB_CS5536_LBAR_SMBUS + GRUB_CS5536_SMB_REG_CTRL1 + GRUB_MACHINE_PCI_IO_BASE) ($t0)
ori $t1, $t1, GRUB_CS5536_SMB_REG_CTRL1_STOP
bal smbus_wait
sb $t1, %lo(GRUB_CS5536_LBAR_SMBUS + GRUB_CS5536_SMB_REG_CTRL1 + GRUB_MACHINE_PCI_IO_BASE) ($t0)
lui $t0, %hi(GRUB_CS5536_LBAR_SMBUS + GRUB_CS5536_SMB_REG_DATA + GRUB_MACHINE_PCI_IO_BASE)
lb $v0, %lo(GRUB_CS5536_LBAR_SMBUS + GRUB_CS5536_SMB_REG_DATA + GRUB_MACHINE_PCI_IO_BASE) ($t0)
jr $t3
andi $v0, $v0, 0xff
read_spd_fail:
jr $t3
ori $v0, $v0, 0x100
notification_string: .asciz "GRUB "
cs5536_found: .asciz "CS5536 at "
sm_failed: .asciz "SM transaction failed.\n\r"
unhandled_tlb_refill: .asciz "Unhandled TLB refill.\n\r"
unhandled_cache_error: .asciz "Unhandled cache error.\n\r"
unhandled_exception: .asciz "Unhandled exception.\n\r"
smbus_enabled: .asciz "SMBus controller enabled.\n\r"
unimplemented_memory_type: .asciz "non-DDR2 memory isn't supported.\n\r"
no_cas_latency: .asciz "Couldn't determine CAS latency.\n\r"
cause: .asciz "Cause: "
epc: .asciz "\n\rEPC: "
badvaddr: .asciz "\n\rBadVaddr: "
newline: .asciz "\n\r"
return_msg: .asciz "\n\rReturn address: "
caches_enabled: .asciz "Caches enabled\n\r"
.p2align 3
regdump:
.quad 0x0100010000000101 /* 0 */
.quad 0x0100010100000000 /* 2 */
.quad 0x0101000001000000 /* 3 */
.quad 0x0100020200010101 /* 4 */
.quad 0x0a04030603050203 /* 6 */
.quad 0x0f0e040000010a0b /* 7 */
#ifdef FULOONG
.quad 0x0000000100000001 /* 8 */
#else
.quad 0x0000010200000102 /* 8 */
#endif
.quad 0x0000060c00000000 /* 9 */
.quad 0x2323233f3f1f0200 /* a */
.quad 0x5f7f232323232323 /* b */
.quad 0x002a3c0615000000 /* c */
.quad 0x002a002a002a002a /* d */
.quad 0x002a002a002a002a /* e */
#ifdef FULOONG
.quad 0x00b40020005b0004 /* f */
#else
.quad 0x00b40020006d0004 /* f */
#endif
.quad 0x070007ff00000087 /* 10 */
.quad 0x000000000016101f /* 11 */
.quad 0x001c000000000000 /* 12 */
.quad 0x28e1000200c8006b /* 13 */
.quad 0x0000204200c8002f /* 14 */
.quad 0x0000000000030d40 /* 15 */
.quad 0 /* 16 */
.quad 0 /* 17 */
.quad 0 /* 18 */
.quad 0 /* 19 */
.quad 0 /* 1a */
.quad 0 /* 1b */
.quad 0 /* 1c */
/* Dump of GPIO connections. FIXME: Remove useless and macroify. */
gpio_dump:
#ifdef FULOONG
.long 0xffff0000, 0x2eefd110, 0xffff0000, 0xffff0000
.long 0x2eefd110, 0xffff0000, 0x1000efff, 0xefff1000
.long 0x3df3c20c, 0xffff0000, 0xffff0000, 0xffff0000
.long 0x7df3820c, 0x3df3c20c, 0xffff0000, 0x00000000
.long 0xffff0000, 0xffff0000, 0x3de3c21c, 0x3d83c27c
.long 0x00000000, 0x00000000, 0x00000000, 0x00000000
.long 0x00000000, 0x00000000, 0x00000000, 0x00000000
.long 0x00000000, 0x00000000, 0x00000000, 0x00000000
.long 0xffff0000, 0xffff0000, 0xffff0000, 0xffff0000
.long 0xffff0000, 0xffff0000, 0x0000ffff, 0xffff0000
.long 0xefff1000, 0xffff0000, 0xffff0000, 0xffff0000
.long 0xefff1000, 0xefff1000, 0xffff0000, 0x00000000
.long 0xffff0000, 0xffff0000, 0xefff1000, 0xefff1000
.long 0x00000000, 0x00000000, 0x00000000, 0x00000000
.long 0x00000000, 0x00000000, 0x00000000, 0x00000000
.long 0x00000000, 0x00000000, 0x00000000, 0x00000000
#else
.long 0xffff0000, 0x2ffdd002, 0xffff0000, 0xffff0000
.long 0x2fffd000, 0xffff0000, 0x1000efff, 0xefff1000
.long 0x3ffbc004, 0xffff0000, 0xffff0000, 0xffff0000
.long 0x3ffbc004, 0x3ffbc004, 0xffff0000, 0x00000000
.long 0xffff0000, 0xffff0000, 0x3ffbc004, 0x3f9bc064
.long 0x00000000, 0x00000000, 0x00000000, 0x00000000
.long 0x00000000, 0x00000000, 0x00000000, 0x00000000
.long 0x00000000, 0x00000000, 0x00000000, 0x00000000
.long 0xffff0000, 0xffff0000, 0xffff0000, 0xffff0000
.long 0xffff0000, 0xffff0000, 0x0000ffff, 0xffff0000
.long 0xefff1000, 0xffff0000, 0xffff0000, 0xffff0000
.long 0xefff1000, 0xefff1000, 0xffff0000, 0x00000000
.long 0xffff0000, 0xffff0000, 0xefff1000, 0xffff0000
.long 0x00000000, 0x00000000, 0x00000000, 0x00000000
.long 0x00000000, 0x00000000, 0x00000000, 0x00000000
.long 0x00000000, 0x50000000, 0x00000000, 0x00000000
#endif
gpio_dump_end:
.p2align
write_dumpreg:
ld $t2, 0($t6)
sd $t2, 0($t4)
addiu $t4, $t4, GRUB_CPU_LOONGSON_DDR2_REG_STEP
jr $ra
addiu $t6, $t6, GRUB_CPU_LOONGSON_DDR2_REG_SIZE
continue:
lui $t4, %hi(GRUB_CPU_LOONGSON_DDR2_BASE)
addiu $t4, $t4, %lo(GRUB_CPU_LOONGSON_DDR2_BASE)
lui $t6, %hi(regdump)
/* 0 */
bal write_dumpreg
addiu $t6, $t6, %lo(regdump)
/* 1 */
ori $a1, $a1, GRUB_SMB_RAM_START_ADDR
move $t8, $zero
lui $t5, 0x0001
bal read_spd
ori $a0, $zero, GRUB_SMBUS_SPD_MEMORY_NUM_BANKS_ADDR
ori $t7, $zero, 8
bne $v0, $t7, 1f
ori $t5, $t5, 0x0001
ori $t8, $t8, GRUB_CPU_LOONGSON_DDR2_REG1_HI_8BANKS
1:
dsll $t8, $t8, 32
or $t5, $t5, $t8
sd $t5, 0 ($t4)
addiu $t4, $t4, GRUB_CPU_LOONGSON_DDR2_REG_STEP
/* 2 */
bal write_dumpreg
nop
/* 3 */
bal write_dumpreg
nop
/* 4 */
bal write_dumpreg
nop
/* 5 */
/* FIXME: figure termination resistance. */
ori $t5, $zero, 0x2
bal read_spd
ori $a0, $zero, GRUB_SMBUS_SPD_MEMORY_NUM_ROWS_ADDR
/* $v0 = 15 - $v0. */
xori $v0, $v0, 0xf
andi $v0, $v0, 0x7
sll $v0, $v0, 8
or $t5, $t5, $v0
/* Find the fastest supported CAS latency. */
bal read_spd
ori $a0, $zero, GRUB_SMBUS_SPD_MEMORY_CAS_LATENCY_ADDR
ori $t0, $zero, GRUB_SMBUS_SPD_MEMORY_CAS_LATENCY_MIN_VALUE
ori $t1, $zero, (1 << GRUB_SMBUS_SPD_MEMORY_CAS_LATENCY_MIN_VALUE)
2:
and $t2, $t1, $v0
bne $t2, $zero, 1f
ori $t3, $zero, 8
lui $a0, %hi(no_cas_latency)
beq $t0, $t3, fatal
addiu $a0, $a0, %lo(no_cas_latency)
addiu $t0, $t0, 1
b 2b
sll $t1, $t1, 1
1:
sll $t0, $t0, 16
or $t5, $t5, $t0
bal read_spd
ori $a0, $zero, GRUB_SMBUS_SPD_MEMORY_NUM_COLUMNS_ADDR
/* $v0 = 15 - ($v0 + 1) = 14 - $v0. */
addiu $v0, $v0, 1
xori $v0, $v0, 0xf
andi $v0, $v0, 0x7
sll $v0, 24
or $t5, $t5, $v0
sd $t5, 0 ($t4)
addiu $t4, $t4, GRUB_CPU_LOONGSON_DDR2_REG_STEP
ori $t7, $zero, 0x16
1:
ld $t2, 0($t6)
sd $t2, 0($t4)
addiu $t4, $t4, GRUB_CPU_LOONGSON_DDR2_REG_STEP
addiu $t7, $t7, -1
bne $t7, $zero, 1b
addiu $t6, $t6, GRUB_CPU_LOONGSON_DDR2_REG_SIZE
lui $t4, %hi(GRUB_CPU_LOONGSON_DDR2_BASE)
ld $t5, (%lo(GRUB_CPU_LOONGSON_DDR2_BASE) + 0x30) ($t4)
ori $t0, $zero, 1
dsll $t0, $t0, 40
or $t5, $t5, $t0
sd $t5, (%lo(GRUB_CPU_LOONGSON_DDR2_BASE) + 0x30) ($t4)
/* Desactivate DDR2 registers. */
lui $t0, %hi (GRUB_CPU_LOONGSON_CORECFG)
ld $t1, %lo (GRUB_CPU_LOONGSON_CORECFG) ($t0)
ori $t1, $t1, GRUB_CPU_LOONGSON_CORECFG_DISABLE_DDR2_SPACE
sd $t1, %lo (GRUB_CPU_LOONGSON_CORECFG) ($t0)
/* Enable cache. */
mfc0 $t0, GRUB_CPU_LOONGSON_COP0_CACHE_CONFIG
addiu $t1, $zero, ~GRUB_CPU_LOONGSON_CACHE_TYPE_MASK
and $t0, $t1, $t1
/* Set line size to 32 bytes and disabled cache. */
ori $t0, $t0, (GRUB_CPU_LOONGSON_COP0_CACHE_CONFIG_ILINESIZE \
| GRUB_CPU_LOONGSON_COP0_CACHE_CONFIG_DLINESIZE \
| GRUB_CPU_LOONGSON_CACHE_ACCELERATED)
mtc0 $t0, GRUB_CPU_LOONGSON_COP0_CACHE_CONFIG
/* Invalidate all I-cache entries. */
srl $t1, $t0, GRUB_CPU_LOONGSON_COP0_CACHE_ISIZE_SHIFT
andi $t1, $t1, GRUB_CPU_LOONGSON_COP0_CACHE_SIZE_MASK
ori $t2, $zero, (1 << (GRUB_CPU_LOONGSON_COP0_CACHE_SIZE_OFFSET \
- GRUB_CPU_LOONGSON_CACHE_LINE_SIZE_LOG_BIG \
- GRUB_CPU_LOONGSON_I_CACHE_LOG_WAYS))
sll $t1, $t2, $t1
lui $t2, 0x8000
1:
cache GRUB_CPU_LOONGSON_COP0_I_INDEX_INVALIDATE, 0($t2)
addiu $t1, $t1, -1
bne $t1, $zero, 1b
addiu $t2, $t2, (1 << GRUB_CPU_LOONGSON_COP0_I_INDEX_BIT_OFFSET)
/* Invalidate all D-cache entries. */
srl $t1, $t0, GRUB_CPU_LOONGSON_COP0_CACHE_DSIZE_SHIFT
andi $t1, $t1, GRUB_CPU_LOONGSON_COP0_CACHE_SIZE_MASK
ori $t2, $zero, (1 << (GRUB_CPU_LOONGSON_COP0_CACHE_SIZE_OFFSET \
- GRUB_CPU_LOONGSON_CACHE_LINE_SIZE_LOG_BIG \
- GRUB_CPU_LOONGSON_D_CACHE_LOG_WAYS))
sll $t1, $t2, $t1
lui $t2, 0x8000
mtc0 $zero, GRUB_CPU_LOONGSON_COP0_CACHE_TAGLO
mtc0 $zero, GRUB_CPU_LOONGSON_COP0_CACHE_TAGHI
1:
/* All four ways. */
cache GRUB_CPU_LOONGSON_COP0_D_INDEX_TAG_STORE, 0($t2)
cache GRUB_CPU_LOONGSON_COP0_D_INDEX_TAG_STORE, 1($t2)
cache GRUB_CPU_LOONGSON_COP0_D_INDEX_TAG_STORE, 2($t2)
cache GRUB_CPU_LOONGSON_COP0_D_INDEX_TAG_STORE, 3($t2)
addiu $t1, $t1, -1
bne $t1, $zero, 1b
addiu $t2, $t2, (1 << GRUB_CPU_LOONGSON_COP0_D_INDEX_BIT_OFFSET)
/* Invalidate all S-cache entries. */
ori $t1, $zero, (1 << (GRUB_CPU_LOONGSON_SECONDARY_CACHE_LOG_SIZE \
- GRUB_CPU_LOONGSON_CACHE_LINE_SIZE_LOG_BIG \
- GRUB_CPU_LOONGSON_S_CACHE_LOG_WAYS))
lui $t2, 0x8000
mtc0 $zero, GRUB_CPU_LOONGSON_COP0_CACHE_TAGLO
mtc0 $zero, GRUB_CPU_LOONGSON_COP0_CACHE_TAGHI
1:
/* All four ways. */
cache GRUB_CPU_LOONGSON_COP0_S_INDEX_TAG_STORE, 0($t2)
cache GRUB_CPU_LOONGSON_COP0_S_INDEX_TAG_STORE, 1($t2)
cache GRUB_CPU_LOONGSON_COP0_S_INDEX_TAG_STORE, 2($t2)
cache GRUB_CPU_LOONGSON_COP0_S_INDEX_TAG_STORE, 3($t2)
addiu $t1, $t1, -1
bne $t1, $zero, 1b
addiu $t2, $t2, (1 << GRUB_CPU_LOONGSON_COP0_D_INDEX_BIT_OFFSET)
/* Finally enable cache. */
mfc0 $t0, GRUB_CPU_LOONGSON_COP0_CACHE_CONFIG
addiu $t1, $zero, ~GRUB_CPU_LOONGSON_CACHE_TYPE_MASK
and $t0, $t1, $t1
ori $t0, $t0, GRUB_CPU_LOONGSON_CACHE_CACHED
mtc0 $t0, GRUB_CPU_LOONGSON_COP0_CACHE_CONFIG
lui $a0, %hi(caches_enabled)
bal message
addiu $a0, $a0, %lo(caches_enabled)
/* Set ROM delay cycles to 1. */
lui $t0, %hi(GRUB_CPU_LOONGSON_LIOCFG)
lw $t1, %lo(GRUB_CPU_LOONGSON_LIOCFG) ($t0)
addiu $t2, $zero, ~(GRUB_CPU_LOONGSON_ROM_DELAY_MASK \
<< GRUB_CPU_LOONGSON_ROM_DELAY_OFFSET)
and $t1, $t1, $t2
ori $t1, $t1, (1 << GRUB_CPU_LOONGSON_ROM_DELAY_OFFSET)
sw $t1, %lo(GRUB_CPU_LOONGSON_LIOCFG) ($t0)
addiu $a0, $zero, -1
addiu $a1, $zero, -1
/* Take advantage of cache. */
lui $t0, %hi(cached_continue - 0x20000000)
addiu $t0, $t0, %lo(cached_continue - 0x20000000)
jr $t0
#ifdef FULOONG
addiu $a2, $zero, -(1 + GRUB_ARCH_MACHINE_FULOONG)
#else
addiu $a2, $zero, -(1 + GRUB_ARCH_MACHINE_YEELOONG)
#endif
cached_continue: