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- Minor mod to reset16.inc to work with newer binutils hopefully this works with older ones... 

- Update apic.h to include the APIC_TASK_PRI register definition
- Update mptable.c to have a reasonable board OEM and productid
- Additional testfiles for romcc.
- Split out auto.c and early failover.c moving their generic bits elsewere
- Enable cache of the rom
- Fixes to amd8111_lpc.c so that we successfully setup virtual wire mode on the ioapic


git-svn-id: svn://svn.coreboot.org/coreboot/trunk@880 2b7e53f0-3cfb-0310-b3e9-8179ed1497e1
This commit is contained in:
Eric Biederman 2003-06-17 08:42:17 +00:00
parent f96a810f11
commit 8d9c123812
17 changed files with 718 additions and 428 deletions
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8
src/arch/i386/lib/cpu.c
View File

@ -68,6 +68,11 @@ static void interrupts_on()
low |= APIC_DEFAULT_BASE;
wrmsr(APIC_BASE_MSR, low, high);
/*
* Set Task Priority to 'accept all'.
*/
apic_write_around(APIC_TASKPRI,
apic_read_around(APIC_TASKPRI) & ~APIC_TPRI_MASK);
/* Put the local apic in virtual wire mode */
apic_write_around(APIC_SPIV,
@ -91,10 +96,9 @@ static void interrupts_on()
| (APIC_LVT_REMOTE_IRR |APIC_SEND_PENDING |
APIC_DELIVERY_MODE_NMI)
);
#if 1
printk_debug(" apic_id: %d ",
apic_read(APIC_ID));
#endif
#else /* APIC */
#ifdef i686

2
src/cpu/i386/reset16.inc
View File

@ -13,7 +13,7 @@ EXT(reset_vector):
* other assemblers to tell it where the segment registers
* are pointing in memory right now.
*/
jmp EXT(_start_offset)
jmp EXT(_start)
#elif (_ROMBASE < 0x100000)
ljmp $((_ROMBASE & 0xf0000)>>4),$EXT(_start_offset);
#else

2
src/cpu/k8/earlymtrr.inc
View File

@ -46,7 +46,7 @@ set_var_mtrr:
wrmsr
#if defined(XIP_ROM_SIZE) && defined(XIP_ROM_BASE)
/* enable write back cachine so we can do execute in place
/* enable write base caching so we can do execute in place
* on the flash rom.
*/
movl $0x202, %ecx

2
src/include/cpu/p6/apic.h
View File

@ -10,6 +10,8 @@
#define APIC_ID 0x020
#define APIC_LVR 0x030
#define APIC_TASKPRI 0x80
#define APIC_TPRI_MASK 0xFF
#define APIC_ARBID 0x090
#define APIC_RRR 0x0C0
#define APIC_SVR 0x0f0

29
src/mainboard/amd/solo/auto.c
View File

@ -20,7 +20,9 @@ static int boot_cpu(void)
msr = rdmsr(0x1b);
bsp = !!(msr.lo & (1 << 8));
if (bsp) {
print_debug("Bootstrap cpu\r\n");
print_debug("Bootstrap processor\r\n");
} else {
print_debug("Application processor\r\n");
}
return bsp;
@ -110,14 +112,19 @@ static void dump_spd_registers(void)
}
}
static void main(void)
{
uart_init();
console_init();
#if 0
print_debug(" XIP_ROM_BASE: ");
print_debug_hex32(XIP_ROM_BASE);
print_debug(" XIP_ROM_SIZE: ");
print_debug_hex32(XIP_ROM_SIZE);
print_debug("\r\n");
#endif
if (boot_cpu() && !cpu_init_detected()) {
setup_default_resource_map();
setup_coherent_ht_domain();
enumerate_ht_chain();
print_pci_devices();
@ -125,17 +132,7 @@ static void main(void)
sdram_initialize();
dump_spd_registers();
#if 0
ram_fill( 0x00100000, 0x00180000);
ram_verify(0x00100000, 0x00180000);
#endif
#ifdef MEMORY_1024MB
ram_fill( 0x00000000, 0x00001000);
ram_verify(0x00000000, 0x00001000);
#endif
#ifdef MEMROY_512MB
ram_fill( 0x00000000, 0x01ffffff);
ram_verify(0x00000000, 0x01ffffff);
#endif
/* Check the first 8M */
ram_check(0x00100000, 0x00800000);
}
}

4
src/mainboard/amd/solo/mptable.c
View File

@ -7,8 +7,8 @@
void *smp_write_config_table(void *v, unsigned long * processor_map)
{
static const char sig[4] = "PCMP";
static const char oem[8] = "LNXI ";
static const char productid[12] = "P4DPR ";
static const char oem[8] = "AMD ";
static const char productid[12] = "SOLO7 ";
struct mp_config_table *mc;
mc = (void *)(((char *)v) + SMP_FLOATING_TABLE_LEN);

281
src/northbridge/amd/amdk8/coherent_ht.c
View File

@ -1,3 +1,11 @@
#define COHERENT_AMD_SOLO 1 /* AMD Solo motherboard */
#define COHERENT_ARIMA_HDAMA 2 /* Arima HDAMA motherboard */
#ifndef COHERENT_CONFIG
#define COHERENT_CONFIG COHERENT_AMD_SOLO
#endif
static void setup_coherent_ht_domain(void)
{
static const unsigned int register_values[] = {
@ -296,278 +304,6 @@ static void setup_coherent_ht_domain(void)
* F0:0xB8 i = 1,
* F0:0xD8 i = 2,
*/
/* Careful set limit registers before base registers which contain the enables */
/* DRAM Limit i Registers
* F1:0x44 i = 0
* F1:0x4C i = 1
* F1:0x54 i = 2
* F1:0x5C i = 3
* F1:0x64 i = 4
* F1:0x6C i = 5
* F1:0x74 i = 6
* F1:0x7C i = 7
* [ 2: 0] Destination Node ID
* 000 = Node 0
* 001 = Node 1
* 010 = Node 2
* 011 = Node 3
* 100 = Node 4
* 101 = Node 5
* 110 = Node 6
* 111 = Node 7
* [ 7: 3] Reserved
* [10: 8] Interleave select
* specifies the values of A[14:12] to use with interleave enable.
* [15:11] Reserved
* [31:16] DRAM Limit Address i Bits 39-24
* This field defines the upper address bits of a 40 bit address
* that define the end of the DRAM region.
*/
#if MEMORY_1024MB
PCI_ADDR(0, 0x18, 1, 0x44), 0x0000f8f8, 0x003f0000,
#endif
#if MEMORY_512MB
PCI_ADDR(0, 0x18, 1, 0x44), 0x0000f8f8, 0x001f0000,
#endif
PCI_ADDR(0, 0x18, 1, 0x4C), 0x0000f8f8, 0x00000001,
PCI_ADDR(0, 0x18, 1, 0x54), 0x0000f8f8, 0x00000002,
PCI_ADDR(0, 0x18, 1, 0x5C), 0x0000f8f8, 0x00000003,
PCI_ADDR(0, 0x18, 1, 0x64), 0x0000f8f8, 0x00000004,
PCI_ADDR(0, 0x18, 1, 0x6C), 0x0000f8f8, 0x00000005,
PCI_ADDR(0, 0x18, 1, 0x74), 0x0000f8f8, 0x00000006,
PCI_ADDR(0, 0x18, 1, 0x7C), 0x0000f8f8, 0x00000007,
/* DRAM Base i Registers
* F1:0x40 i = 0
* F1:0x48 i = 1
* F1:0x50 i = 2
* F1:0x58 i = 3
* F1:0x60 i = 4
* F1:0x68 i = 5
* F1:0x70 i = 6
* F1:0x78 i = 7
* [ 0: 0] Read Enable
* 0 = Reads Disabled
* 1 = Reads Enabled
* [ 1: 1] Write Enable
* 0 = Writes Disabled
* 1 = Writes Enabled
* [ 7: 2] Reserved
* [10: 8] Interleave Enable
* 000 = No interleave
* 001 = Interleave on A[12] (2 nodes)
* 010 = reserved
* 011 = Interleave on A[12] and A[14] (4 nodes)
* 100 = reserved
* 101 = reserved
* 110 = reserved
* 111 = Interleve on A[12] and A[13] and A[14] (8 nodes)
* [15:11] Reserved
* [13:16] DRAM Base Address i Bits 39-24
* This field defines the upper address bits of a 40-bit address
* that define the start of the DRAM region.
*/
PCI_ADDR(0, 0x18, 1, 0x40), 0x0000f8fc, 0x00000003,
#if MEMORY_1024MB
PCI_ADDR(0, 0x18, 1, 0x48), 0x0000f8fc, 0x00400000,
PCI_ADDR(0, 0x18, 1, 0x50), 0x0000f8fc, 0x00400000,
PCI_ADDR(0, 0x18, 1, 0x58), 0x0000f8fc, 0x00400000,
PCI_ADDR(0, 0x18, 1, 0x60), 0x0000f8fc, 0x00400000,
PCI_ADDR(0, 0x18, 1, 0x68), 0x0000f8fc, 0x00400000,
PCI_ADDR(0, 0x18, 1, 0x70), 0x0000f8fc, 0x00400000,
PCI_ADDR(0, 0x18, 1, 0x78), 0x0000f8fc, 0x00400000,
#endif
#if MEMORY_512MB
PCI_ADDR(0, 0x18, 1, 0x48), 0x0000f8fc, 0x00200000,
PCI_ADDR(0, 0x18, 1, 0x50), 0x0000f8fc, 0x00200000,
PCI_ADDR(0, 0x18, 1, 0x58), 0x0000f8fc, 0x00200000,
PCI_ADDR(0, 0x18, 1, 0x60), 0x0000f8fc, 0x00200000,
PCI_ADDR(0, 0x18, 1, 0x68), 0x0000f8fc, 0x00200000,
PCI_ADDR(0, 0x18, 1, 0x70), 0x0000f8fc, 0x00200000,
PCI_ADDR(0, 0x18, 1, 0x78), 0x0000f8fc, 0x00200000,
#endif
/* Memory-Mapped I/O Limit i Registers
* F1:0x84 i = 0
* F1:0x8C i = 1
* F1:0x94 i = 2
* F1:0x9C i = 3
* F1:0xA4 i = 4
* F1:0xAC i = 5
* F1:0xB4 i = 6
* F1:0xBC i = 7
* [ 2: 0] Destination Node ID
* 000 = Node 0
* 001 = Node 1
* 010 = Node 2
* 011 = Node 3
* 100 = Node 4
* 101 = Node 5
* 110 = Node 6
* 111 = Node 7
* [ 3: 3] Reserved
* [ 5: 4] Destination Link ID
* 00 = Link 0
* 01 = Link 1
* 10 = Link 2
* 11 = Reserved
* [ 6: 6] Reserved
* [ 7: 7] Non-Posted
* 0 = CPU writes may be posted
* 1 = CPU writes must be non-posted
* [31: 8] Memory-Mapped I/O Limit Address i (39-16)
* This field defines the upp adddress bits of a 40-bit address that
* defines the end of a memory-mapped I/O region n
*/
PCI_ADDR(0, 0x18, 1, 0x84), 0x00000048, 0x00e1ff00,
PCI_ADDR(0, 0x18, 1, 0x8C), 0x00000048, 0x00dfff00,
PCI_ADDR(0, 0x18, 1, 0x94), 0x00000048, 0x00e3ff00,
PCI_ADDR(0, 0x18, 1, 0x9C), 0x00000048, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xA4), 0x00000048, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xAC), 0x00000048, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xB4), 0x00000048, 0x00000b00,
PCI_ADDR(0, 0x18, 1, 0xBC), 0x00000048, 0x00fe0b00,
/* Memory-Mapped I/O Base i Registers
* F1:0x80 i = 0
* F1:0x88 i = 1
* F1:0x90 i = 2
* F1:0x98 i = 3
* F1:0xA0 i = 4
* F1:0xA8 i = 5
* F1:0xB0 i = 6
* F1:0xB8 i = 7
* [ 0: 0] Read Enable
* 0 = Reads disabled
* 1 = Reads Enabled
* [ 1: 1] Write Enable
* 0 = Writes disabled
* 1 = Writes Enabled
* [ 2: 2] Cpu Disable
* 0 = Cpu can use this I/O range
* 1 = Cpu requests do not use this I/O range
* [ 3: 3] Lock
* 0 = base/limit registers i are read/write
* 1 = base/limit registers i are read-only
* [ 7: 4] Reserved
* [31: 8] Memory-Mapped I/O Base Address i (39-16)
* This field defines the upper address bits of a 40bit address
* that defines the start of memory-mapped I/O region i
*/
PCI_ADDR(0, 0x18, 1, 0x80), 0x000000f0, 0x00e00003,
PCI_ADDR(0, 0x18, 1, 0x88), 0x000000f0, 0x00d80003,
PCI_ADDR(0, 0x18, 1, 0x90), 0x000000f0, 0x00e20003,
PCI_ADDR(0, 0x18, 1, 0x98), 0x000000f0, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xA0), 0x000000f0, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xA8), 0x000000f0, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xB0), 0x000000f0, 0x00000a03,
#if MEMORY_1024MB
PCI_ADDR(0, 0x18, 1, 0xB8), 0x000000f0, 0x00400003,
#endif
#if MEMORY_512MB
PCI_ADDR(0, 0x18, 1, 0xB8), 0x000000f0, 0x00200003,
#endif
/* PCI I/O Limit i Registers
* F1:0xC4 i = 0
* F1:0xCC i = 1
* F1:0xD4 i = 2
* F1:0xDC i = 3
* [ 2: 0] Destination Node ID
* 000 = Node 0
* 001 = Node 1
* 010 = Node 2
* 011 = Node 3
* 100 = Node 4
* 101 = Node 5
* 110 = Node 6
* 111 = Node 7
* [ 3: 3] Reserved
* [ 5: 4] Destination Link ID
* 00 = Link 0
* 01 = Link 1
* 10 = Link 2
* 11 = reserved
* [11: 6] Reserved
* [24:12] PCI I/O Limit Address i
* This field defines the end of PCI I/O region n
* [31:25] Reserved
*/
PCI_ADDR(0, 0x18, 1, 0xC4), 0xFE000FC8, 0x0000d000,
PCI_ADDR(0, 0x18, 1, 0xCC), 0xFE000FC8, 0x000ff000,
PCI_ADDR(0, 0x18, 1, 0xD4), 0xFE000FC8, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xDC), 0xFE000FC8, 0x00000000,
/* PCI I/O Base i Registers
* F1:0xC0 i = 0
* F1:0xC8 i = 1
* F1:0xD0 i = 2
* F1:0xD8 i = 3
* [ 0: 0] Read Enable
* 0 = Reads Disabled
* 1 = Reads Enabled
* [ 1: 1] Write Enable
* 0 = Writes Disabled
* 1 = Writes Enabled
* [ 3: 2] Reserved
* [ 4: 4] VGA Enable
* 0 = VGA matches Disabled
* 1 = matches all address < 64K and where A[9:0] is in the
* range 3B0-3BB or 3C0-3DF independen of the base & limit registers
* [ 5: 5] ISA Enable
* 0 = ISA matches Disabled
* 1 = Blocks address < 64K and in the last 768 bytes of eack 1K block
* from matching agains this base/limit pair
* [11: 6] Reserved
* [24:12] PCI I/O Base i
* This field defines the start of PCI I/O region n
* [31:25] Reserved
*/
PCI_ADDR(0, 0x18, 1, 0xC0), 0xFE000FCC, 0x0000d003,
PCI_ADDR(0, 0x18, 1, 0xC8), 0xFE000FCC, 0x00001013,
PCI_ADDR(0, 0x18, 1, 0xD0), 0xFE000FCC, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xD8), 0xFE000FCC, 0x00000000,
/* Config Base and Limit i Registers
* F1:0xE0 i = 0
* F1:0xE4 i = 1
* F1:0xE8 i = 2
* F1:0xEC i = 3
* [ 0: 0] Read Enable
* 0 = Reads Disabled
* 1 = Reads Enabled
* [ 1: 1] Write Enable
* 0 = Writes Disabled
* 1 = Writes Enabled
* [ 2: 2] Device Number Compare Enable
* 0 = The ranges are based on bus number
* 1 = The ranges are ranges of devices on bus 0
* [ 3: 3] Reserved
* [ 6: 4] Destination Node
* 000 = Node 0
* 001 = Node 1
* 010 = Node 2
* 011 = Node 3
* 100 = Node 4
* 101 = Node 5
* 110 = Node 6
* 111 = Node 7
* [ 7: 7] Reserved
* [ 9: 8] Destination Link
* 00 = Link 0
* 01 = Link 1
* 10 = Link 2
* 11 - Reserved
* [15:10] Reserved
* [23:16] Bus Number Base i
* This field defines the lowest bus number in configuration region i
* [31:24] Bus Number Limit i
* This field defines the highest bus number in configuration regin i
*/
PCI_ADDR(0, 0x18, 1, 0xE0), 0x0000FC88, 0xff000003,
PCI_ADDR(0, 0x18, 1, 0xE4), 0x0000FC88, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xE8), 0x0000FC88, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xEC), 0x0000FC88, 0x00000000,
};
int i;
int max;
@ -598,4 +334,3 @@ static void setup_coherent_ht_domain(void)
}
print_debug("done.\r\n");
}

510
src/northbridge/amd/amdk8/raminit.c
View File

@ -1,7 +1,43 @@
#define MEMORY_512MB 0 /* SuSE Solo configuration */
#define MEMORY_1024MB 1 /* LNXI Solo configuration */
#define MEMORY_SUSE_SOLO 1 /* SuSE Solo configuration */
#define MEMORY_LNXI_SOLO 2 /* LNXI Solo configuration */
#define MEMORY_LNXI_HDAMA 3 /* LNXI HDAMA configuration */
static void sdram_set_registers(void)
#ifndef MEMORY_CONFIG
#define MEMORY_CONFIG MEMORY_SUSE_SOLO
#endif
static void setup_resource_map(const unsigned int *register_values, int max)
{
int i;
print_debug("setting up resource map....\r\n");
for(i = 0; i < max; i += 3) {
device_t dev;
unsigned where;
unsigned long reg;
#if 0
print_debug_hex32(register_values[i]);
print_debug(" <-");
print_debug_hex32(register_values[i+2]);
print_debug("\r\n");
#endif
dev = register_values[i] & ~0xff;
where = register_values[i] & 0xff;
reg = pci_read_config32(dev, where);
reg &= register_values[i+1];
reg |= register_values[i+2];
pci_write_config32(dev, where, reg);
#if 0
reg = pci_read_config32(register_values[i]);
reg &= register_values[i+1];
reg |= register_values[i+2] & ~register_values[i+1];
pci_write_config32(register_values[i], reg);
#endif
}
print_debug("done.\r\n");
}
static void setup_default_resource_map(void)
{
static const unsigned int register_values[] = {
/* Careful set limit registers before base registers which contain the enables */
@ -31,12 +67,7 @@ static void sdram_set_registers(void)
* This field defines the upper address bits of a 40 bit address
* that define the end of the DRAM region.
*/
#if MEMORY_1024MB
PCI_ADDR(0, 0x18, 1, 0x44), 0x0000f8f8, 0x003f0000,
#endif
#if MEMORY_512MB
PCI_ADDR(0, 0x18, 1, 0x44), 0x0000f8f8, 0x001f0000,
#endif
PCI_ADDR(0, 0x18, 1, 0x44), 0x0000f8f8, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0x4C), 0x0000f8f8, 0x00000001,
PCI_ADDR(0, 0x18, 1, 0x54), 0x0000f8f8, 0x00000002,
PCI_ADDR(0, 0x18, 1, 0x5C), 0x0000f8f8, 0x00000003,
@ -74,25 +105,14 @@ static void sdram_set_registers(void)
* This field defines the upper address bits of a 40-bit address
* that define the start of the DRAM region.
*/
PCI_ADDR(0, 0x18, 1, 0x40), 0x0000f8fc, 0x00000003,
#if MEMORY_1024MB
PCI_ADDR(0, 0x18, 1, 0x48), 0x0000f8fc, 0x00400000,
PCI_ADDR(0, 0x18, 1, 0x50), 0x0000f8fc, 0x00400000,
PCI_ADDR(0, 0x18, 1, 0x58), 0x0000f8fc, 0x00400000,
PCI_ADDR(0, 0x18, 1, 0x60), 0x0000f8fc, 0x00400000,
PCI_ADDR(0, 0x18, 1, 0x68), 0x0000f8fc, 0x00400000,
PCI_ADDR(0, 0x18, 1, 0x70), 0x0000f8fc, 0x00400000,
PCI_ADDR(0, 0x18, 1, 0x78), 0x0000f8fc, 0x00400000,
#endif
#if MEMORY_512MB
PCI_ADDR(0, 0x18, 1, 0x48), 0x0000f8fc, 0x00200000,
PCI_ADDR(0, 0x18, 1, 0x50), 0x0000f8fc, 0x00200000,
PCI_ADDR(0, 0x18, 1, 0x58), 0x0000f8fc, 0x00200000,
PCI_ADDR(0, 0x18, 1, 0x60), 0x0000f8fc, 0x00200000,
PCI_ADDR(0, 0x18, 1, 0x68), 0x0000f8fc, 0x00200000,
PCI_ADDR(0, 0x18, 1, 0x70), 0x0000f8fc, 0x00200000,
PCI_ADDR(0, 0x18, 1, 0x78), 0x0000f8fc, 0x00200000,
#endif
PCI_ADDR(0, 0x18, 1, 0x40), 0x0000f8fc, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0x48), 0x0000f8fc, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0x50), 0x0000f8fc, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0x58), 0x0000f8fc, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0x60), 0x0000f8fc, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0x68), 0x0000f8fc, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0x70), 0x0000f8fc, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0x78), 0x0000f8fc, 0x00000000,
/* Memory-Mapped I/O Limit i Registers
* F1:0x84 i = 0
@ -126,14 +146,14 @@ static void sdram_set_registers(void)
* This field defines the upp adddress bits of a 40-bit address that
* defines the end of a memory-mapped I/O region n
*/
PCI_ADDR(0, 0x18, 1, 0x84), 0x00000048, 0x00e1ff00,
PCI_ADDR(0, 0x18, 1, 0x8C), 0x00000048, 0x00dfff00,
PCI_ADDR(0, 0x18, 1, 0x94), 0x00000048, 0x00e3ff00,
PCI_ADDR(0, 0x18, 1, 0x84), 0x00000048, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0x8C), 0x00000048, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0x94), 0x00000048, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0x9C), 0x00000048, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xA4), 0x00000048, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xAC), 0x00000048, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xB4), 0x00000048, 0x00000b00,
PCI_ADDR(0, 0x18, 1, 0xBC), 0x00000048, 0x00fe0b00,
PCI_ADDR(0, 0x18, 1, 0xB4), 0x00000048, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xBC), 0x00000048, 0x00000000,
/* Memory-Mapped I/O Base i Registers
* F1:0x80 i = 0
@ -161,19 +181,14 @@ static void sdram_set_registers(void)
* This field defines the upper address bits of a 40bit address
* that defines the start of memory-mapped I/O region i
*/
PCI_ADDR(0, 0x18, 1, 0x80), 0x000000f0, 0x00e00003,
PCI_ADDR(0, 0x18, 1, 0x88), 0x000000f0, 0x00d80003,
PCI_ADDR(0, 0x18, 1, 0x90), 0x000000f0, 0x00e20003,
PCI_ADDR(0, 0x18, 1, 0x80), 0x000000f0, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0x88), 0x000000f0, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0x90), 0x000000f0, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0x98), 0x000000f0, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xA0), 0x000000f0, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xA8), 0x000000f0, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xB0), 0x000000f0, 0x00000a03,
#if MEMORY_1024MB
PCI_ADDR(0, 0x18, 1, 0xB8), 0x000000f0, 0x00400003,
#endif
#if MEMORY_512MB
PCI_ADDR(0, 0x18, 1, 0xB8), 0x000000f0, 0x00200003,
#endif
PCI_ADDR(0, 0x18, 1, 0xB0), 0x000000f0, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xB8), 0x000000f0, 0x00000000,
/* PCI I/O Limit i Registers
* F1:0xC4 i = 0
@ -200,8 +215,8 @@ static void sdram_set_registers(void)
* This field defines the end of PCI I/O region n
* [31:25] Reserved
*/
PCI_ADDR(0, 0x18, 1, 0xC4), 0xFE000FC8, 0x0000d000,
PCI_ADDR(0, 0x18, 1, 0xCC), 0xFE000FC8, 0x000ff000,
PCI_ADDR(0, 0x18, 1, 0xC4), 0xFE000FC8, 0x01fff000,
PCI_ADDR(0, 0x18, 1, 0xCC), 0xFE000FC8, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xD4), 0xFE000FC8, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xDC), 0xFE000FC8, 0x00000000,
@ -230,8 +245,8 @@ static void sdram_set_registers(void)
* This field defines the start of PCI I/O region n
* [31:25] Reserved
*/
PCI_ADDR(0, 0x18, 1, 0xC0), 0xFE000FCC, 0x0000d003,
PCI_ADDR(0, 0x18, 1, 0xC8), 0xFE000FCC, 0x00001013,
PCI_ADDR(0, 0x18, 1, 0xC0), 0xFE000FCC, 0x00000003,
PCI_ADDR(0, 0x18, 1, 0xC8), 0xFE000FCC, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xD0), 0xFE000FCC, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xD8), 0xFE000FCC, 0x00000000,
@ -275,6 +290,350 @@ static void sdram_set_registers(void)
PCI_ADDR(0, 0x18, 1, 0xE4), 0x0000FC88, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xE8), 0x0000FC88, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xEC), 0x0000FC88, 0x00000000,
};
int max;
max = sizeof(register_values)/sizeof(register_values[0]);
setup_resource_map(register_values, max);
}
static void sdram_set_registers(void)
{
static const unsigned int register_values[] = {
/* Careful set limit registers before base registers which contain the enables */
/* DRAM Limit i Registers
* F1:0x44 i = 0
* F1:0x4C i = 1
* F1:0x54 i = 2
* F1:0x5C i = 3
* F1:0x64 i = 4
* F1:0x6C i = 5
* F1:0x74 i = 6
* F1:0x7C i = 7
* [ 2: 0] Destination Node ID
* 000 = Node 0
* 001 = Node 1
* 010 = Node 2
* 011 = Node 3
* 100 = Node 4
* 101 = Node 5
* 110 = Node 6
* 111 = Node 7
* [ 7: 3] Reserved
* [10: 8] Interleave select
* specifies the values of A[14:12] to use with interleave enable.
* [15:11] Reserved
* [31:16] DRAM Limit Address i Bits 39-24
* This field defines the upper address bits of a 40 bit address
* that define the end of the DRAM region.
*/
#if MEMORY_CONFIG == MEMORY_LNXI_SOLO
PCI_ADDR(0, 0x18, 1, 0x44), 0x0000f8f8, 0x003f0000,
PCI_ADDR(0, 0x18, 1, 0x4C), 0x0000f8f8, 0x00000001,
#endif
#if MEMORY_CONFIG == MEMORY_SUSE_SOLO
PCI_ADDR(0, 0x18, 1, 0x44), 0x0000f8f8, 0x001f0000,
PCI_ADDR(0, 0x18, 1, 0x4C), 0x0000f8f8, 0x00000001,
#endif
#if MEMORY_CONFIG == MEMORY_LNXI_HDAMA
PCI_ADDR(0, 0x18, 1, 0x44), 0x0000f8f8, 0x003f0000,
PCI_ADDR(0, 0x18, 1, 0x4C), 0x0000f8f8, 0x007f0001,
#endif
PCI_ADDR(0, 0x18, 1, 0x54), 0x0000f8f8, 0x00000002,
PCI_ADDR(0, 0x18, 1, 0x5C), 0x0000f8f8, 0x00000003,
PCI_ADDR(0, 0x18, 1, 0x64), 0x0000f8f8, 0x00000004,
PCI_ADDR(0, 0x18, 1, 0x6C), 0x0000f8f8, 0x00000005,
PCI_ADDR(0, 0x18, 1, 0x74), 0x0000f8f8, 0x00000006,
PCI_ADDR(0, 0x18, 1, 0x7C), 0x0000f8f8, 0x00000007,
/* DRAM Base i Registers
* F1:0x40 i = 0
* F1:0x48 i = 1
* F1:0x50 i = 2
* F1:0x58 i = 3
* F1:0x60 i = 4
* F1:0x68 i = 5
* F1:0x70 i = 6
* F1:0x78 i = 7
* [ 0: 0] Read Enable
* 0 = Reads Disabled
* 1 = Reads Enabled
* [ 1: 1] Write Enable
* 0 = Writes Disabled
* 1 = Writes Enabled
* [ 7: 2] Reserved
* [10: 8] Interleave Enable
* 000 = No interleave
* 001 = Interleave on A[12] (2 nodes)
* 010 = reserved
* 011 = Interleave on A[12] and A[14] (4 nodes)
* 100 = reserved
* 101 = reserved
* 110 = reserved
* 111 = Interleve on A[12] and A[13] and A[14] (8 nodes)
* [15:11] Reserved
* [13:16] DRAM Base Address i Bits 39-24
* This field defines the upper address bits of a 40-bit address
* that define the start of the DRAM region.
*/
PCI_ADDR(0, 0x18, 1, 0x40), 0x0000f8fc, 0x00000003,
#if MEMORY_CONFIG == MEMORY_LNXI_SOLO
PCI_ADDR(0, 0x18, 1, 0x48), 0x0000f8fc, 0x00400000,
PCI_ADDR(0, 0x18, 1, 0x50), 0x0000f8fc, 0x00400000,
PCI_ADDR(0, 0x18, 1, 0x58), 0x0000f8fc, 0x00400000,
PCI_ADDR(0, 0x18, 1, 0x60), 0x0000f8fc, 0x00400000,
PCI_ADDR(0, 0x18, 1, 0x68), 0x0000f8fc, 0x00400000,
PCI_ADDR(0, 0x18, 1, 0x70), 0x0000f8fc, 0x00400000,
PCI_ADDR(0, 0x18, 1, 0x78), 0x0000f8fc, 0x00400000,
#endif
#if MEMORY_CONFIG == MEMORY_SUSE_SOLO
PCI_ADDR(0, 0x18, 1, 0x48), 0x0000f8fc, 0x00200000,
PCI_ADDR(0, 0x18, 1, 0x50), 0x0000f8fc, 0x00200000,
PCI_ADDR(0, 0x18, 1, 0x58), 0x0000f8fc, 0x00200000,
PCI_ADDR(0, 0x18, 1, 0x60), 0x0000f8fc, 0x00200000,
PCI_ADDR(0, 0x18, 1, 0x68), 0x0000f8fc, 0x00200000,
PCI_ADDR(0, 0x18, 1, 0x70), 0x0000f8fc, 0x00200000,
PCI_ADDR(0, 0x18, 1, 0x78), 0x0000f8fc, 0x00200000,
#endif
#if MEMORY_CONFIG == MEMORY_LNXI_HDAMA
PCI_ADDR(0, 0x18, 1, 0x48), 0x0000f8fc, 0x00400003,
PCI_ADDR(0, 0x18, 1, 0x50), 0x0000f8fc, 0x00800000,
PCI_ADDR(0, 0x18, 1, 0x58), 0x0000f8fc, 0x00800000,
PCI_ADDR(0, 0x18, 1, 0x60), 0x0000f8fc, 0x00800000,
PCI_ADDR(0, 0x18, 1, 0x68), 0x0000f8fc, 0x00800000,
PCI_ADDR(0, 0x18, 1, 0x70), 0x0000f8fc, 0x00800000,
PCI_ADDR(0, 0x18, 1, 0x78), 0x0000f8fc, 0x00800000,
PCI_ADDR(0, 0x18, 1, 0x78), 0x0000f8fc, 0x00800000,
#endif
/* Memory-Mapped I/O Limit i Registers
* F1:0x84 i = 0
* F1:0x8C i = 1
* F1:0x94 i = 2
* F1:0x9C i = 3
* F1:0xA4 i = 4
* F1:0xAC i = 5
* F1:0xB4 i = 6
* F1:0xBC i = 7
* [ 2: 0] Destination Node ID
* 000 = Node 0
* 001 = Node 1
* 010 = Node 2
* 011 = Node 3
* 100 = Node 4
* 101 = Node 5
* 110 = Node 6
* 111 = Node 7
* [ 3: 3] Reserved
* [ 5: 4] Destination Link ID
* 00 = Link 0
* 01 = Link 1
* 10 = Link 2
* 11 = Reserved
* [ 6: 6] Reserved
* [ 7: 7] Non-Posted
* 0 = CPU writes may be posted
* 1 = CPU writes must be non-posted
* [31: 8] Memory-Mapped I/O Limit Address i (39-16)
* This field defines the upp adddress bits of a 40-bit address that
* defines the end of a memory-mapped I/O region n
*/
#if (MEMORY_CONFIG == MEMORY_LNXI_SOLO) || (MEMORY_CONFIG == MEMORY_SUSE_SOLO)
PCI_ADDR(0, 0x18, 1, 0x84), 0x00000048, 0x00e1ff00,
PCI_ADDR(0, 0x18, 1, 0x8C), 0x00000048, 0x00dfff00,
PCI_ADDR(0, 0x18, 1, 0x94), 0x00000048, 0x00e3ff00,
PCI_ADDR(0, 0x18, 1, 0x9C), 0x00000048, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xA4), 0x00000048, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xAC), 0x00000048, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xB4), 0x00000048, 0x00000b00,
PCI_ADDR(0, 0x18, 1, 0xBC), 0x00000048, 0x00fe0b00,
#endif
#if MEMORY_CONFIG == MEMORY_LNXI_HDAMA
PCI_ADDR(0, 0x18, 1, 0x84), 0x00000048, 0x00fe2f00,
PCI_ADDR(0, 0x18, 1, 0x8C), 0x00000048, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0x94), 0x00000048, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0x9C), 0x00000048, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xA4), 0x00000048, 0x00fec000,
PCI_ADDR(0, 0x18, 1, 0xAC), 0x00000048, 0x0000b000,
PCI_ADDR(0, 0x18, 1, 0xB4), 0x00000048, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xBC), 0x00000048, 0x00000000,
#endif
/* Memory-Mapped I/O Base i Registers
* F1:0x80 i = 0
* F1:0x88 i = 1
* F1:0x90 i = 2
* F1:0x98 i = 3
* F1:0xA0 i = 4
* F1:0xA8 i = 5
* F1:0xB0 i = 6
* F1:0xB8 i = 7
* [ 0: 0] Read Enable
* 0 = Reads disabled
* 1 = Reads Enabled
* [ 1: 1] Write Enable
* 0 = Writes disabled
* 1 = Writes Enabled
* [ 2: 2] Cpu Disable
* 0 = Cpu can use this I/O range
* 1 = Cpu requests do not use this I/O range
* [ 3: 3] Lock
* 0 = base/limit registers i are read/write
* 1 = base/limit registers i are read-only
* [ 7: 4] Reserved
* [31: 8] Memory-Mapped I/O Base Address i (39-16)
* This field defines the upper address bits of a 40bit address
* that defines the start of memory-mapped I/O region i
*/
#if (MEMORY_CONFIG == MEMORY_LNXI_SOLO) || (MEMORY_CONFIG == MEMORY_SUSE_SOLO)
PCI_ADDR(0, 0x18, 1, 0x80), 0x000000f0, 0x00e00003,
PCI_ADDR(0, 0x18, 1, 0x88), 0x000000f0, 0x00d80003,
PCI_ADDR(0, 0x18, 1, 0x90), 0x000000f0, 0x00e20003,
PCI_ADDR(0, 0x18, 1, 0x98), 0x000000f0, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xA0), 0x000000f0, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xA8), 0x000000f0, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xB0), 0x000000f0, 0x00000a03,
#endif
#if MEMORY_CONFIG == MEMORY_LNXI_SOLO
PCI_ADDR(0, 0x18, 1, 0xB8), 0x000000f0, 0x00400003,
#endif
#if MEMORY_CONFIG == MEMORY_SUSE_SOLO
PCI_ADDR(0, 0x18, 1, 0xB8), 0x000000f0, 0x00200003,
#endif
#if MEMORY_CONFIG == MEMORY_LNXI_HDAMA
PCI_ADDR(0, 0x18, 1, 0x80), 0x000000f0, 0x00fc0003,
PCI_ADDR(0, 0x18, 1, 0x88), 0x000000f0, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0x90), 0x000000f0, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0x98), 0x000000f0, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xA0), 0x000000f0, 0x00fec00e,
PCI_ADDR(0, 0x18, 1, 0xA8), 0x000000f0, 0x00000a03,
PCI_ADDR(0, 0x18, 1, 0xB0), 0x000000f0, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xB8), 0x000000f0, 0x00000000,
#endif
/* PCI I/O Limit i Registers
* F1:0xC4 i = 0
* F1:0xCC i = 1
* F1:0xD4 i = 2
* F1:0xDC i = 3
* [ 2: 0] Destination Node ID
* 000 = Node 0
* 001 = Node 1
* 010 = Node 2
* 011 = Node 3
* 100 = Node 4
* 101 = Node 5
* 110 = Node 6
* 111 = Node 7
* [ 3: 3] Reserved
* [ 5: 4] Destination Link ID
* 00 = Link 0
* 01 = Link 1
* 10 = Link 2
* 11 = reserved
* [11: 6] Reserved
* [24:12] PCI I/O Limit Address i
* This field defines the end of PCI I/O region n
* [31:25] Reserved
*/
#if (MEMORY_CONFIG == MEMORY_LNXI_SOLO) || (MEMORY_CONFIG == MEMORY_SUSE_SOLO)
PCI_ADDR(0, 0x18, 1, 0xC4), 0xFE000FC8, 0x0000d000,
PCI_ADDR(0, 0x18, 1, 0xCC), 0xFE000FC8, 0x000ff000,
PCI_ADDR(0, 0x18, 1, 0xD4), 0xFE000FC8, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xDC), 0xFE000FC8, 0x00000000,
#endif
#if MEMORY_CONFIG == MEMORY_LNXI_HDAMA
PCI_ADDR(0, 0x18, 1, 0xC4), 0xFE000FC8, 0x01fff000,
PCI_ADDR(0, 0x18, 1, 0xCC), 0xFE000FC8, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xD4), 0xFE000FC8, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xDC), 0xFE000FC8, 0x00000000,
#endif
/* PCI I/O Base i Registers
* F1:0xC0 i = 0
* F1:0xC8 i = 1
* F1:0xD0 i = 2
* F1:0xD8 i = 3
* [ 0: 0] Read Enable
* 0 = Reads Disabled
* 1 = Reads Enabled
* [ 1: 1] Write Enable
* 0 = Writes Disabled
* 1 = Writes Enabled
* [ 3: 2] Reserved
* [ 4: 4] VGA Enable
* 0 = VGA matches Disabled
* 1 = matches all address < 64K and where A[9:0] is in the
* range 3B0-3BB or 3C0-3DF independen of the base & limit registers
* [ 5: 5] ISA Enable
* 0 = ISA matches Disabled
* 1 = Blocks address < 64K and in the last 768 bytes of eack 1K block
* from matching agains this base/limit pair
* [11: 6] Reserved
* [24:12] PCI I/O Base i
* This field defines the start of PCI I/O region n
* [31:25] Reserved
*/
#if (MEMORY_CONFIG == MEMORY_LNXI_SOLO) || (MEMORY_CONFIG == MEMORY_SUSE_SOLO)
PCI_ADDR(0, 0x18, 1, 0xC0), 0xFE000FCC, 0x0000d003,
PCI_ADDR(0, 0x18, 1, 0xC8), 0xFE000FCC, 0x00001013,
PCI_ADDR(0, 0x18, 1, 0xD0), 0xFE000FCC, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xD8), 0xFE000FCC, 0x00000000,
#endif
#if MEMORY_CONFIG == MEMORY_LNXI_HDAMA
PCI_ADDR(0, 0x18, 1, 0xC0), 0xFE000FCC, 0x00000033,
PCI_ADDR(0, 0x18, 1, 0xC8), 0xFE000FCC, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xD0), 0xFE000FCC, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xD8), 0xFE000FCC, 0x00000000,
#endif
/* Config Base and Limit i Registers
* F1:0xE0 i = 0
* F1:0xE4 i = 1
* F1:0xE8 i = 2
* F1:0xEC i = 3
* [ 0: 0] Read Enable
* 0 = Reads Disabled
* 1 = Reads Enabled
* [ 1: 1] Write Enable
* 0 = Writes Disabled
* 1 = Writes Enabled
* [ 2: 2] Device Number Compare Enable
* 0 = The ranges are based on bus number
* 1 = The ranges are ranges of devices on bus 0
* [ 3: 3] Reserved
* [ 6: 4] Destination Node
* 000 = Node 0
* 001 = Node 1
* 010 = Node 2
* 011 = Node 3
* 100 = Node 4
* 101 = Node 5
* 110 = Node 6
* 111 = Node 7
* [ 7: 7] Reserved
* [ 9: 8] Destination Link
* 00 = Link 0
* 01 = Link 1
* 10 = Link 2
* 11 - Reserved
* [15:10] Reserved
* [23:16] Bus Number Base i
* This field defines the lowest bus number in configuration region i
* [31:24] Bus Number Limit i
* This field defines the highest bus number in configuration regin i
*/
#if (MEMORY_CONFIG == MEMORY_LNXI_SOLO) || (MEMORY_CONFIG == MEMORY_SUSE_SOLO)
PCI_ADDR(0, 0x18, 1, 0xE0), 0x0000FC88, 0xff000003,
PCI_ADDR(0, 0x18, 1, 0xE4), 0x0000FC88, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xE8), 0x0000FC88, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xEC), 0x0000FC88, 0x00000000,
#endif
#if MEMORY_CONFIG == MEMORY_LNXI_HDAMA
PCI_ADDR(0, 0x18, 1, 0xE0), 0x0000FC88, 0xff000003,
PCI_ADDR(0, 0x18, 1, 0xE4), 0x0000FC88, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xE8), 0x0000FC88, 0x00000000,
PCI_ADDR(0, 0x18, 1, 0xEC), 0x0000FC88, 0x00000000,
#endif
/* DRAM CS Base Address i Registers
* F2:0x40 i = 0
@ -298,15 +657,20 @@ static void sdram_set_registers(void)
* bits decode 32-MByte blocks of memory.
*/
PCI_ADDR(0, 0x18, 2, 0x40), 0x001f01fe, 0x00000001,
#if MEMORY_1024MB
#if MEMORY_CONFIG == MEMORY_LNXI_SOLO
PCI_ADDR(0, 0x18, 2, 0x44), 0x001f01fe, 0x01000001,
PCI_ADDR(0, 0x18, 2, 0x48), 0x001f01fe, 0x02000001,
PCI_ADDR(0, 0x18, 2, 0x4C), 0x001f01fe, 0x03000001,
#endif
#if MEMORY_512MB
#if MEMORY_CONFIG == MEMORY_SUSE_SOLO
PCI_ADDR(0, 0x18, 2, 0x44), 0x001f01fe, 0x00800001,
PCI_ADDR(0, 0x18, 2, 0x48), 0x001f01fe, 0x01000001,
PCI_ADDR(0, 0x18, 2, 0x4C), 0x001f01fe, 0x01800001,
#endif
#if MEMORY_CONFIG == MEMORY_LNXI_HDAMA
PCI_ADDR(0, 0x18, 2, 0x44), 0x001f01fe, 0x00001001,
PCI_ADDR(0, 0x18, 2, 0x48), 0x001f01fe, 0x00000000,
PCI_ADDR(0, 0x18, 2, 0x4C), 0x001f01fe, 0x00000000,
#endif
PCI_ADDR(0, 0x18, 2, 0x50), 0x001f01fe, 0x00000000,
PCI_ADDR(0, 0x18, 2, 0x54), 0x001f01fe, 0x00000000,
@ -331,17 +695,23 @@ static void sdram_set_registers(void)
* [31:30] Reserved
*
*/
#if MEMORY_1024MB
#if MEMORY_CONFIG == MEMORY_LNXI_SOLO
PCI_ADDR(0, 0x18, 2, 0x60), 0xC01f01ff, 0x00e0fe00,
PCI_ADDR(0, 0x18, 2, 0x64), 0xC01f01ff, 0x00e0fe00,
PCI_ADDR(0, 0x18, 2, 0x68), 0xC01f01ff, 0x00e0fe00,
PCI_ADDR(0, 0x18, 2, 0x6C), 0xC01f01ff, 0x00e0fe00,
#endif
#if MEMORY_512MB
#if MEMORY_CONFIG == MEMORY_SUSE_SOLO
PCI_ADDR(0, 0x18, 2, 0x60), 0xC01f01ff, 0x0060fe00,
PCI_ADDR(0, 0x18, 2, 0x64), 0xC01f01ff, 0x0060fe00,
PCI_ADDR(0, 0x18, 2, 0x68), 0xC01f01ff, 0x0060fe00,
PCI_ADDR(0, 0x18, 2, 0x6C), 0xC01f01ff, 0x0060fe00,
#endif
#if MEMORY_CONFIG == MEMORY_LNXI_HDAMA
PCI_ADDR(0, 0x18, 2, 0x60), 0xC01f01ff, 0x03e0ee00,
PCI_ADDR(0, 0x18, 2, 0x64), 0xC01f01ff, 0x03e0ee00,
PCI_ADDR(0, 0x18, 2, 0x68), 0xC01f01ff, 0x00000000,
PCI_ADDR(0, 0x18, 2, 0x6C), 0xC01f01ff, 0x00000000,
#endif
PCI_ADDR(0, 0x18, 2, 0x70), 0xC01f01ff, 0x00000000,
PCI_ADDR(0, 0x18, 2, 0x74), 0xC01f01ff, 0x00000000,
@ -367,11 +737,14 @@ static void sdram_set_registers(void)
* [11:11] Reserved
* [31:15]
*/
#if MEMORY_1024MB
#if MEMORY_CONFIG == MEMORY_LNXI_SOLO
PCI_ADDR(0, 0x18, 2, 0x80), 0xffff8888, 0x00000033,
#endif
#if MEMORY_512MB
#if MEMORY_CONFIG == MEMORY_SUSE_SOLO
PCI_ADDR(0, 0x18, 2, 0x80), 0xffff8888, 0x00000022,
#endif
#if MEMORY_CONFIG == MEMORY_LNXI_HDAMA
PCI_ADDR(0, 0x18, 2, 0x80), 0xffff8888, 0x00000003,
#endif
/* DRAM Timing Low Register
* F2:0x88
@ -437,7 +810,12 @@ static void sdram_set_registers(void)
* 1 = 3 bus clocks
* [31:29] Reserved
*/
#if (MEMORY_CONFIG == MEMORY_LNXI_SOLO) || (MEMORY_CONFIG == MEMORY_SUSE_SOLO)
PCI_ADDR(0, 0x18, 2, 0x88), 0xe8088008, 0x03623125,
#endif
#if MEMORY_CONFIG == MEMORY_LNXI_HDAMA
PCI_ADDR(0, 0x18, 2, 0x88), 0xe8088008, 0x13723335,
#endif
/* DRAM Timing High Register
* F2:0x8C
* [ 0: 0] Twtr (Write to Read Delay)
@ -467,13 +845,15 @@ static void sdram_set_registers(void)
* 001 = 2 Mem clocks after CAS# (Registered Dimms)
* [31:23] Reserved
*/
#if MEMORY_1024MB
#if MEMORY_CONFIG == MEMORY_LNXI_SOLO
PCI_ADDR(0, 0x18, 2, 0x8c), 0xff8fe08e, 0x00000930,
#endif
#if MEMORY_512MB
#if MEMORY_CONFIG == MEMORY_SUSE_SOLO
PCI_ADDR(0, 0x18, 2, 0x8c), 0xff8fe08e, 0x00000130,
#endif
#if MEMORY_CONFIG == MEMORY_LNXI_HDAMA
PCI_ADDR(0, 0x18, 2, 0x8c), 0xff8fe08e, 0x00100a20,
#endif
/* DRAM Config Low Register
* F2:0x90
* [ 0: 0] DLL Disable
@ -544,6 +924,7 @@ static void sdram_set_registers(void)
* 111 = Oldest entry in DCQ can be bypassed 7 times
* [31:28] Reserved
*/
#if (MEMORY_CONFIG == MEMORY_LNXI_SOLO) || (MEMORY_CONFIG == MEMORY_SUSE_SOLO)
PCI_ADDR(0, 0x18, 2, 0x90), 0xf0000000,
(4 << 25)|(0 << 24)|
(0 << 23)|(0 << 22)|(0 << 21)|(0 << 20)|
@ -551,6 +932,16 @@ static void sdram_set_registers(void)
(2 << 14)|(0 << 13)|(0 << 12)|
(0 << 11)|(0 << 10)|(0 << 9)|(0 << 8)|
(0 << 3) |(0 << 1) |(0 << 0),
#endif
#if MEMORY_CONFIG == MEMORY_LNXI_HDAMA
PCI_ADDR(0, 0x18, 2, 0x90), 0xf0000000,
(4 << 25)|(0 << 24)|
(0 << 23)|(0 << 22)|(0 << 21)|(0 << 20)|
(0 << 19)|(0 << 18)|(0 << 17)|(1 << 16)|
(2 << 14)|(0 << 13)|(0 << 12)|
(0 << 11)|(0 << 10)|(0 << 9)|(0 << 8)|
(0 << 3) |(0 << 1) |(0 << 0),
#endif
/* DRAM Config High Register
* F2:0x94
* [ 0: 3] Maximum Asynchronous Latency
@ -615,11 +1006,14 @@ static void sdram_set_registers(void)
* 1 = Enabled
* [31:30] Reserved
*/
#if MEMORY_1024MB
#if MEMORY_CONFIG == MEMORY_LNXI_SOLO
PCI_ADDR(0, 0x18, 2, 0x94), 0xc180f0f0, 0x0e2b0a05,
#endif
#if MEMORY_512MB
#if MEMORY_CONFIG == MEMORY_SUSE_SOLO
PCI_ADDR(0, 0x18, 2, 0x94), 0xc180f0f0, 0x0e2b0a06,
#endif
#if MEMORY_CONFIG == MEMORY_LNXI_HDAMA
PCI_ADDR(0, 0x18, 2, 0x94), 0xc180f0f0, 0x065b0b08,
#endif
/* DRAM Delay Line Register
* F2:0x98

7
src/pc80/mc146818rtc_early.c
View File

@ -1,6 +1,13 @@
#include <pc80/mc146818rtc.h>
#include <part/fallback_boot.h>
#ifndef MAX_REBOOT_CNT
#error "MAX_REBOOT_CNT not defined"
#endif
#if MAX_REBOOT_CNT > 15
#error "MAX_REBOOT_CNT too high"
#endif
static unsigned char cmos_read(unsigned char addr)
{
outb(addr, RTC_BASE_PORT + 0);

26
src/ram/ramtest.c
View File

@ -1,8 +1,24 @@
#if defined(i786)
#define HAVE_MOVNTI 1
#endif
#if defined(k8)
#define HAVE_MOVNTI 1
#endif
static void write_phys(unsigned long addr, unsigned long value)
{
#if HAVE_MOVNTI
asm volatile(
"movnti %1, (%0)"
: /* outputs */
: "r" (addr), "r" (value) /* inputs */
: /* clobbers */
);
#else
volatile unsigned long *ptr;
ptr = (void *)addr;
*ptr = value;
#endif
}
static unsigned long read_phys(unsigned long addr)
@ -12,7 +28,7 @@ static unsigned long read_phys(unsigned long addr)
return *ptr;
}
void ram_fill(unsigned long start, unsigned long stop)
static void ram_fill(unsigned long start, unsigned long stop)
{
unsigned long addr;
/*
@ -25,7 +41,7 @@ void ram_fill(unsigned long start, unsigned long stop)
print_debug("\r\n");
for(addr = start; addr < stop ; addr += 4) {
/* Display address being filled */
if ((addr & 0xffff) == 0) {
if (!(addr & 0xffff)) {
print_debug_hex32(addr);
print_debug("\r");
}
@ -36,7 +52,7 @@ void ram_fill(unsigned long start, unsigned long stop)
print_debug("\r\nDRAM filled\r\n");
}
void ram_verify(unsigned long start, unsigned long stop)
static void ram_verify(unsigned long start, unsigned long stop)
{
unsigned long addr;
/*
@ -50,7 +66,7 @@ void ram_verify(unsigned long start, unsigned long stop)
for(addr = start; addr < stop ; addr += 4) {
unsigned long value;
/* Display address being tested */
if ((addr & 0xffff) == 0) {
if (!(addr & 0xffff)) {
print_debug_hex32(addr);
print_debug("\r");
}
@ -69,7 +85,7 @@ void ram_verify(unsigned long start, unsigned long stop)
}
void ramcheck(unsigned long start, unsigned long stop)
void ram_check(unsigned long start, unsigned long stop)
{
int result;
/*

62
src/southbridge/amd/amd8111/amd8111_lpc.c
View File

@ -1,5 +1,5 @@
/*
* (C) 2003 Linux Networx
* (C) 2003 Linux Networx, SuSE Linux AG
*/
#include <console/console.h>
#include <device/device.h>
@ -28,38 +28,33 @@ static struct ioapicreg ioapicregvalues[] = {
#define NMI (4 << 8)
#define SMI (2 << 8)
#define INT (1 << 8)
/* IO-APIC virtual wire mode configuration */
/* mask, trigger, polarity, destination, delivery, vector */
{0x00, ENABLED | TRIGGER_EDGE | POLARITY_HIGH | PHYSICAL_DEST | ExtINT | 0, 0},
{0x01, DISABLED, NONE},
{0x02, ENABLED | TRIGGER_EDGE | POLARITY_HIGH | PHYSICAL_DEST | INT | 0, 0},
{0x03, DISABLED, NONE},
{0x04, DISABLED, NONE},
{0x05, DISABLED, NONE},
{0x06, DISABLED, NONE},
{0x07, DISABLED, NONE},
{0x08, DISABLED, NONE},
{0x09, DISABLED, NONE},
{0x0a, DISABLED, NONE},
{0x0b, DISABLED, NONE},
{0x0c, DISABLED, NONE},
{0x0d, DISABLED, NONE},
{0x0e, DISABLED, NONE},
{0x0f, DISABLED, NONE},
{0x10, DISABLED, NONE},
{0x11, DISABLED, NONE},
{0x12, DISABLED, NONE},
{0x13, DISABLED, NONE},
{0x14, DISABLED, NONE},
{0x14, DISABLED, NONE},
{0x15, DISABLED, NONE},
{0x16, DISABLED, NONE},
{0x17, DISABLED, NONE},
{0x18, DISABLED, NONE},
{0x19, DISABLED, NONE},
{0x20, DISABLED, NONE},
{0x21, DISABLED, NONE},
{0x22, DISABLED, NONE},
{0x23, DISABLED, NONE},
{ 0, ENABLED | TRIGGER_EDGE | POLARITY_HIGH | PHYSICAL_DEST | ExtINT, NONE},
{ 1, DISABLED, NONE},
{ 2, DISABLED, NONE},
{ 3, DISABLED, NONE},
{ 4, DISABLED, NONE},
{ 5, DISABLED, NONE},
{ 6, DISABLED, NONE},
{ 7, DISABLED, NONE},
{ 8, DISABLED, NONE},
{ 9, DISABLED, NONE},
{ 10, DISABLED, NONE},
{ 11, DISABLED, NONE},
{ 12, DISABLED, NONE},
{ 13, DISABLED, NONE},
{ 14, DISABLED, NONE},
{ 15, DISABLED, NONE},
{ 16, DISABLED, NONE},
{ 17, DISABLED, NONE},
{ 18, DISABLED, NONE},
{ 19, DISABLED, NONE},
{ 20, DISABLED, NONE},
{ 21, DISABLED, NONE},
{ 22, DISABLED, NONE},
{ 23, DISABLED, NONE},
/* Be careful and don't write past the end... */
};
static void setup_ioapic(void)
@ -71,6 +66,7 @@ static void setup_ioapic(void)
struct ioapicreg *a = ioapicregvalues;
l = (unsigned long *) ioapic_base;
for (i = 0; i < sizeof(ioapicregvalues) / sizeof(ioapicregvalues[0]);
i++, a++) {
l[0] = (a->reg * 2) + 0x10;
@ -95,13 +91,11 @@ static void lpc_init(struct device *dev)
printk_debug("lpc_init\n");
#if 0
/* IO APIC initialization */
byte = pci_read_config8(dev, 0x4B);
byte |= 1;
pci_write_config8(dev, 0x4B, byte);
setup_ioapic();
#endif
/* posted memory write enable */
byte = pci_read_config8(dev, 0x46);

1
util/nrv2b/nrv2b.c
View File

@ -43,6 +43,7 @@
#include <netinet/in.h>
#endif
#ifndef VERBOSE
#define Fprintf(x)
#define wterr 0

1
util/romcc/Makefile
View File

@ -50,6 +50,7 @@ TESTS=\
simple_test29.c \
simple_test30.c \
simple_test31.c \
simple_test32.c \
raminit_test.c \
raminit_test2.c \
raminit_test3.c \

152
util/romcc/romcc.c
View File

@ -9,7 +9,6 @@
#include <unistd.h>
#include <stdio.h>
#include <string.h>
#include <ctype.h>
#include <limits.h>
#define DEBUG_ERROR_MESSAGES 0
@ -18,6 +17,7 @@
#define DEBUG_CONSISTENCY 1
#warning "FIXME boundary cases with small types in larger registers"
#warning "FIXME give clear error messages about unused variables"
/* Control flow graph of a loop without goto.
*
@ -864,6 +864,10 @@ struct type {
#define REG_VIRT3 (MAX_REGISTERS + 3)
#define REG_VIRT4 (MAX_REGISTERS + 4)
#define REG_VIRT5 (MAX_REGISTERS + 5)
#define REG_VIRT6 (MAX_REGISTERS + 5)
#define REG_VIRT7 (MAX_REGISTERS + 5)
#define REG_VIRT8 (MAX_REGISTERS + 5)
#define REG_VIRT9 (MAX_REGISTERS + 5)
/* Provision for 8 register classes */
#if 1
@ -2156,6 +2160,14 @@ static int digitp(int c)
}
return ret;
}
static int digval(int c)
{
int val = -1;
if ((c >= '0') && (c <= '9')) {
val = c - '0';
}
return val;
}
static int hexdigitp(int c)
{
@ -3262,7 +3274,12 @@ static void preprocess(struct compile_state *state, int index)
}
/* Error if there are any characters after the include */
for(ptr = file->pos; *ptr != '\n'; ptr++) {
if (!isspace(*ptr)) {
switch(*ptr) {
case ' ':
case '\t':
case '\v':
break;
default:
error(state, 0, "garbage after include directive");
}
}
@ -4916,9 +4933,13 @@ static struct triple *flatten(
}
break;
}
case OP_PIECE:
MISC(ptr, 0) = flatten(state, first, MISC(ptr, 0));
use_triple(MISC(ptr, 0), ptr);
use_triple(ptr, MISC(ptr, 0));
break;
case OP_ADDRCONST:
case OP_SDECL:
case OP_PIECE:
MISC(ptr, 0) = flatten(state, first, MISC(ptr, 0));
use_triple(MISC(ptr, 0), ptr);
break;
@ -7639,11 +7660,17 @@ static void asm_statement(struct compile_state *state, struct triple *first)
while(more) {
struct triple *var;
struct triple *constraint;
char *str;
more = 0;
if (out > MAX_LHS) {
error(state, 0, "Maximum output count exceeded.");
}
constraint = string_constant(state);
str = constraint->u.blob;
if (str[0] != '=') {
error(state, 0, "Output constraint does not start with =");
}
constraint->u.blob = str + 1;
eat(state, TOK_LPAREN);
var = conditional_expr(state);
eat(state, TOK_RPAREN);
@ -7666,11 +7693,20 @@ static void asm_statement(struct compile_state *state, struct triple *first)
while(more) {
struct triple *val;
struct triple *constraint;
char *str;
more = 0;
if (in > MAX_RHS) {
error(state, 0, "Maximum input count exceeded.");
}
constraint = string_constant(state);
str = constraint->u.blob;
if (digitp(str[0] && str[1] == '\0')) {
int val;
val = digval(str[0]);
if ((val < 0) || (val >= out)) {
error(state, 0, "Invalid input constraint %d", val);
}
}
eat(state, TOK_LPAREN);
val = conditional_expr(state);
eat(state, TOK_RPAREN);
@ -7717,41 +7753,68 @@ static void asm_statement(struct compile_state *state, struct triple *first)
def = new_triple(state, OP_ASM, &void_type, clobbers + out, in);
def->u.ainfo = info;
/* Find the register constraints */
for(i = 0; i < out; i++) {
struct triple *constraint;
constraint = out_param[i].constraint;
info->tmpl.lhs[i] = arch_reg_constraint(state,
out_param[i].expr->type, constraint->u.blob);
free_triple(state, constraint);
}
for(; i - out < clobbers; i++) {
struct triple *constraint;
constraint = clob_param[i - out].constraint;
info->tmpl.lhs[i] = arch_reg_clobber(state, constraint->u.blob);
free_triple(state, constraint);
}
for(i = 0; i < in; i++) {
struct triple *constraint;
const char *str;
constraint = in_param[i].constraint;
info->tmpl.rhs[i] = arch_reg_constraint(state,
in_param[i].expr->type, constraint->u.blob);
RHS(def, i) = read_expr(state,in_param[i].expr);
str = constraint->u.blob;
if (digitp(str[0]) && str[1] == '\0') {
struct reg_info cinfo;
int val;
val = digval(str[0]);
cinfo.reg = info->tmpl.lhs[val].reg;
cinfo.regcm = arch_type_to_regcm(state, in_param[i].expr->type);
cinfo.regcm &= info->tmpl.lhs[val].regcm;
if (cinfo.reg == REG_UNSET) {
cinfo.reg = REG_VIRT0 + val;
}
if (cinfo.regcm == 0) {
error(state, 0, "No registers for %d", val);
}
info->tmpl.lhs[val] = cinfo;
info->tmpl.rhs[i] = cinfo;
} else {
info->tmpl.rhs[i] = arch_reg_constraint(state,
in_param[i].expr->type, str);
}
free_triple(state, constraint);
}
/* Now build the helper expressions */
for(i = 0; i < in; i++) {
RHS(def, i) = read_expr(state,in_param[i].expr);
}
flatten(state, first, def);
for(i = 0; i < out; i++) {
struct triple *piece;
struct triple *constraint;
constraint = out_param[i].constraint;
info->tmpl.lhs[i] = arch_reg_constraint(state,
out_param[i].expr->type, constraint->u.blob);
piece = triple(state, OP_PIECE, out_param[i].expr->type, def, 0);
piece->u.cval = i;
LHS(def, i) = piece;
flatten(state, first,
write_expr(state, out_param[i].expr, piece));
free_triple(state, constraint);
}
for(; i - out < clobbers; i++) {
struct triple *piece;
struct triple *constraint;
constraint = clob_param[i - out].constraint;
info->tmpl.lhs[i] = arch_reg_clobber(state, constraint->u.blob);
piece = triple(state, OP_PIECE, &void_type, def, 0);
piece->u.cval = i;
LHS(def, i) = piece;
flatten(state, first, piece);
free_triple(state, constraint);
}
}
@ -12195,11 +12258,18 @@ static void least_conflict(struct compile_state *state,
struct triple_reg_set *set;
size_t count;
#if 0
#define HI() fprintf(stderr, "%-10p(%-15s) %d\n", ins, tops(ins->op), __LINE__)
#else
#define HI()
#endif
#warning "FIXME handle instructions with left hand sides..."
/* Only instructions that introduce a new definition
* can be the conflict instruction.
*/
if (!triple_is_def(state, ins)) {
HI();
return;
}
@ -12216,11 +12286,13 @@ static void least_conflict(struct compile_state *state,
}
}
if (!edge && (lr != conflict->ref_range)) {
HI();
return;
}
count++;
}
if (count <= 1) {
HI();
return;
}
@ -12234,6 +12306,7 @@ static void least_conflict(struct compile_state *state,
}
}
if (!set && (conflict->ref_range != REG_UNSET)) {
HI();
return;
}
@ -12280,6 +12353,7 @@ static void least_conflict(struct compile_state *state,
;
}
}
HI();
return;
}
@ -12287,6 +12361,13 @@ static void find_range_conflict(struct compile_state *state,
struct reg_state *rstate, char *used, struct live_range *ref_range,
struct least_conflict *conflict)
{
#if 0
static void verify_blocks(struct compile_state *stae);
verify_blocks(state);
print_blocks(state, stderr);
print_dominators(state, stderr);
#endif
/* there are 3 kinds ways conflicts can occure.
* 1) the life time of 2 values simply overlap.
* 2) the 2 values feed into the same instruction.
@ -12314,10 +12395,28 @@ static void find_range_conflict(struct compile_state *state,
walk_variable_lifetimes(state, rstate->blocks, least_conflict, conflict);
if (!conflict->ins) {
internal_error(state, 0, "No conflict ins?");
struct live_range_edge *edge;
struct live_range_def *lrd;
fprintf(stderr, "edges:\n");
for(edge = ref_range->edges; edge; edge = edge->next) {
lrd = edge->node->defs;
do {
fprintf(stderr, " %-10p(%s)", lrd->def, tops(lrd->def->op));
lrd = lrd->next;
} while(lrd != edge->node->defs);
fprintf(stderr, "|\n");
}
fprintf(stderr, "range:\n");
lrd = ref_range->defs;
do {
fprintf(stderr, " %-10p(%s)", lrd->def, tops(lrd->def->op));
lrd = lrd->next;
} while(lrd != ref_range->defs);
fprintf(stderr,"\n");
internal_error(state, ref_range->defs->def, "No conflict ins?");
}
if (!conflict->live) {
internal_error(state, 0, "No conflict live?");
internal_error(state, ref_range->defs->def, "No conflict live?");
}
return;
}
@ -13899,7 +13998,9 @@ static void verify_uses(struct compile_state *state)
struct triple **expr;
expr = triple_rhs(state, ins, 0);
for(; expr; expr = triple_rhs(state, ins, expr)) {
for(set = *expr?(*expr)->use:0; set; set = set->next) {
struct triple *rhs;
rhs = *expr;
for(set = rhs?rhs->use:0; set; set = set->next) {
if (set->member == ins) {
break;
}
@ -13910,7 +14011,9 @@ static void verify_uses(struct compile_state *state)
}
expr = triple_lhs(state, ins, 0);
for(; expr; expr = triple_lhs(state, ins, expr)) {
for(set = *expr?(*expr)->use:0; set; set = set->next) {
struct triple *lhs;
lhs = *expr;
for(set = lhs?lhs->use:0; set; set = set->next) {
if (set->member == ins) {
break;
}
@ -14140,6 +14243,7 @@ static void print_op_asm(struct compile_state *state,
}
}
lhs = i;
fprintf(fp, "#ASM\n");
fputc('\t', fp);
for(ptr = info->str; *ptr; ptr++) {
char *next;
@ -14165,9 +14269,9 @@ static void print_op_asm(struct compile_state *state,
piece = (param < lhs)? LHS(ins, param) : RHS(ins, param - lhs);
fprintf(fp, "%s",
arch_reg_str(ID_REG(piece->id)));
ptr = next;
ptr = next -1;
}
fputc('\n', fp);
fprintf(fp, "\n#NOT ASM\n");
}

12
util/romcc/tests/simple_test22.c
View File

@ -21,7 +21,7 @@ static struct syscall_result syscall0(unsigned long nr)
long res;
asm volatile(
"int $0x80"
: "a" (res)
: "=a" (res)
: "a" (nr));
return syscall_return(res);
}
@ -31,7 +31,7 @@ static struct syscall_result syscall1(unsigned long nr, unsigned long arg1)
long res;
asm volatile(
"int $0x80"
: "a" (res)
: "=a" (res)
: "a" (nr), "b" (arg1));
return syscall_return(res);
@ -42,7 +42,7 @@ static struct syscall_result syscall2(unsigned long nr, unsigned long arg1, unsi
long res;
asm volatile(
"int $0x80"
: "a" (res)
: "=a" (res)
: "a" (nr), "b" (arg1), "c" (arg2));
return syscall_return(res);
@ -55,7 +55,7 @@ static struct syscall_result syscall3(unsigned long nr, unsigned long arg1, unsi
long res;
asm volatile(
"int $0x80"
: "a" (res)
: "=a" (res)
: "a" (nr), "b" (arg1), "c" (arg2), "d" (arg3));
return syscall_return(res);
@ -67,7 +67,7 @@ static struct syscall_result syscall4(unsigned long nr, unsigned long arg1, unsi
long res;
asm volatile(
"int $0x80"
: "a" (res)
: "=a" (res)
: "a" (nr), "b" (arg1), "c" (arg2), "d" (arg3), "S" (arg4));
return syscall_return(res);
@ -79,7 +79,7 @@ static struct syscall_result syscall5(unsigned long nr, unsigned long arg1, unsi
long res;
asm volatile(
"int $0x80"
: "a" (res)
: "=a" (res)
: "a" (nr), "b" (arg1), "c" (arg2), "d" (arg3),
"S" (arg4), "D" (arg5));
return syscall_return(res);

12
util/romcc/tests/simple_test30.c
View File

@ -21,7 +21,7 @@ static struct syscall_result syscall0(unsigned long nr)
long res;
asm volatile(
"int $0x80"
: "a" (res)
: "=a" (res)
: "a" (nr));
return syscall_return(res);
}
@ -31,7 +31,7 @@ static struct syscall_result syscall1(unsigned long nr, unsigned long arg1)
long res;
asm volatile(
"int $0x80"
: "a" (res)
: "=a" (res)
: "a" (nr), "b" (arg1));
return syscall_return(res);
@ -42,7 +42,7 @@ static struct syscall_result syscall2(unsigned long nr, unsigned long arg1, unsi
long res;
asm volatile(
"int $0x80"
: "a" (res)
: "=a" (res)
: "a" (nr), "b" (arg1), "c" (arg2));
return syscall_return(res);
@ -55,7 +55,7 @@ static struct syscall_result syscall3(unsigned long nr, unsigned long arg1, unsi
long res;
asm volatile(
"int $0x80"
: "a" (res)
: "=a" (res)
: "a" (nr), "b" (arg1), "c" (arg2), "d" (arg3));
return syscall_return(res);
@ -67,7 +67,7 @@ static struct syscall_result syscall4(unsigned long nr, unsigned long arg1, unsi
long res;
asm volatile(
"int $0x80"
: "a" (res)
: "=a" (res)
: "a" (nr), "b" (arg1), "c" (arg2), "d" (arg3), "S" (arg4));
return syscall_return(res);
@ -79,7 +79,7 @@ static struct syscall_result syscall5(unsigned long nr, unsigned long arg1, unsi
long res;
asm volatile(
"int $0x80"
: "a" (res)
: "=a" (res)
: "a" (nr), "b" (arg1), "c" (arg2), "d" (arg3),
"S" (arg4), "D" (arg5));
return syscall_return(res);

35
util/romcc/tests/simple_test32.c Normal file
View File

@ -0,0 +1,35 @@
void main(void)
{
unsigned long addr, start, stop;
start = 0x00100000;
stop = 0x00180000;
for(addr = start; addr < stop ;) {
unsigned char ch;
const char *str = "\r";
while((ch = *str++) != '\0') {
while(__builtin_inb(0x3f))
;
__builtin_outb(ch, 0x3f8);
while(__builtin_inb(0x3f))
;
}
asm (
"jmp 2f\n\t"
"1:\n\t"
"testl $0xffff, %0\n\t"
"jz 3f\n\t"
"movnti %0, (%0)\n\t"
"add $4, %0\n\t"
"2:\n\t"
"cmp %2, %0\n\t"
"jl 1b\n\t"
"3:\n\t"
: "=b" (addr) /* outputs */
: "0" (addr), "r" (stop) /* intputs */
: /* clobbers */
);
};
}