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/*
* QEMU GT64120 PCI host
*
* Copyright (c) 2006,2007 Aurelien Jarno
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#include "hw.h"
#include "mips.h"
#include "pci.h"
#include "pci_host.h"
#include "pc.h"
//#define DEBUG
#ifdef DEBUG
#define DPRINTF(fmt, ...) fprintf(stderr, "%s: " fmt, __FUNCTION__, ##__VA_ARGS__)
#else
#define DPRINTF(fmt, ...)
#endif
#define GT_REGS (0x1000 >> 2)
/* CPU Configuration */
#define GT_CPU (0x000 >> 2)
#define GT_MULTI (0x120 >> 2)
/* CPU Address Decode */
#define GT_SCS10LD (0x008 >> 2)
#define GT_SCS10HD (0x010 >> 2)
#define GT_SCS32LD (0x018 >> 2)
#define GT_SCS32HD (0x020 >> 2)
#define GT_CS20LD (0x028 >> 2)
#define GT_CS20HD (0x030 >> 2)
#define GT_CS3BOOTLD (0x038 >> 2)
#define GT_CS3BOOTHD (0x040 >> 2)
#define GT_PCI0IOLD (0x048 >> 2)
#define GT_PCI0IOHD (0x050 >> 2)
#define GT_PCI0M0LD (0x058 >> 2)
#define GT_PCI0M0HD (0x060 >> 2)
#define GT_PCI0M1LD (0x080 >> 2)
#define GT_PCI0M1HD (0x088 >> 2)
#define GT_PCI1IOLD (0x090 >> 2)
#define GT_PCI1IOHD (0x098 >> 2)
#define GT_PCI1M0LD (0x0a0 >> 2)
#define GT_PCI1M0HD (0x0a8 >> 2)
#define GT_PCI1M1LD (0x0b0 >> 2)
#define GT_PCI1M1HD (0x0b8 >> 2)
#define GT_ISD (0x068 >> 2)
#define GT_SCS10AR (0x0d0 >> 2)
#define GT_SCS32AR (0x0d8 >> 2)
#define GT_CS20R (0x0e0 >> 2)
#define GT_CS3BOOTR (0x0e8 >> 2)
#define GT_PCI0IOREMAP (0x0f0 >> 2)
#define GT_PCI0M0REMAP (0x0f8 >> 2)
#define GT_PCI0M1REMAP (0x100 >> 2)
#define GT_PCI1IOREMAP (0x108 >> 2)
#define GT_PCI1M0REMAP (0x110 >> 2)
#define GT_PCI1M1REMAP (0x118 >> 2)
/* CPU Error Report */
#define GT_CPUERR_ADDRLO (0x070 >> 2)
#define GT_CPUERR_ADDRHI (0x078 >> 2)
#define GT_CPUERR_DATALO (0x128 >> 2) /* GT-64120A only */
#define GT_CPUERR_DATAHI (0x130 >> 2) /* GT-64120A only */
#define GT_CPUERR_PARITY (0x138 >> 2) /* GT-64120A only */
/* CPU Sync Barrier */
#define GT_PCI0SYNC (0x0c0 >> 2)
#define GT_PCI1SYNC (0x0c8 >> 2)
/* SDRAM and Device Address Decode */
#define GT_SCS0LD (0x400 >> 2)
#define GT_SCS0HD (0x404 >> 2)
#define GT_SCS1LD (0x408 >> 2)
#define GT_SCS1HD (0x40c >> 2)
#define GT_SCS2LD (0x410 >> 2)
#define GT_SCS2HD (0x414 >> 2)
#define GT_SCS3LD (0x418 >> 2)
#define GT_SCS3HD (0x41c >> 2)
#define GT_CS0LD (0x420 >> 2)
#define GT_CS0HD (0x424 >> 2)
#define GT_CS1LD (0x428 >> 2)
#define GT_CS1HD (0x42c >> 2)
#define GT_CS2LD (0x430 >> 2)
#define GT_CS2HD (0x434 >> 2)
#define GT_CS3LD (0x438 >> 2)
#define GT_CS3HD (0x43c >> 2)
#define GT_BOOTLD (0x440 >> 2)
#define GT_BOOTHD (0x444 >> 2)
#define GT_ADERR (0x470 >> 2)
/* SDRAM Configuration */
#define GT_SDRAM_CFG (0x448 >> 2)
#define GT_SDRAM_OPMODE (0x474 >> 2)
#define GT_SDRAM_BM (0x478 >> 2)
#define GT_SDRAM_ADDRDECODE (0x47c >> 2)
/* SDRAM Parameters */
#define GT_SDRAM_B0 (0x44c >> 2)
#define GT_SDRAM_B1 (0x450 >> 2)
#define GT_SDRAM_B2 (0x454 >> 2)
#define GT_SDRAM_B3 (0x458 >> 2)
/* Device Parameters */
#define GT_DEV_B0 (0x45c >> 2)
#define GT_DEV_B1 (0x460 >> 2)
#define GT_DEV_B2 (0x464 >> 2)
#define GT_DEV_B3 (0x468 >> 2)
#define GT_DEV_BOOT (0x46c >> 2)
/* ECC */
#define GT_ECC_ERRDATALO (0x480 >> 2) /* GT-64120A only */
#define GT_ECC_ERRDATAHI (0x484 >> 2) /* GT-64120A only */
#define GT_ECC_MEM (0x488 >> 2) /* GT-64120A only */
#define GT_ECC_CALC (0x48c >> 2) /* GT-64120A only */
#define GT_ECC_ERRADDR (0x490 >> 2) /* GT-64120A only */
/* DMA Record */
#define GT_DMA0_CNT (0x800 >> 2)
#define GT_DMA1_CNT (0x804 >> 2)
#define GT_DMA2_CNT (0x808 >> 2)
#define GT_DMA3_CNT (0x80c >> 2)
#define GT_DMA0_SA (0x810 >> 2)
#define GT_DMA1_SA (0x814 >> 2)
#define GT_DMA2_SA (0x818 >> 2)
#define GT_DMA3_SA (0x81c >> 2)
#define GT_DMA0_DA (0x820 >> 2)
#define GT_DMA1_DA (0x824 >> 2)
#define GT_DMA2_DA (0x828 >> 2)
#define GT_DMA3_DA (0x82c >> 2)
#define GT_DMA0_NEXT (0x830 >> 2)
#define GT_DMA1_NEXT (0x834 >> 2)
#define GT_DMA2_NEXT (0x838 >> 2)
#define GT_DMA3_NEXT (0x83c >> 2)
#define GT_DMA0_CUR (0x870 >> 2)
#define GT_DMA1_CUR (0x874 >> 2)
#define GT_DMA2_CUR (0x878 >> 2)
#define GT_DMA3_CUR (0x87c >> 2)
/* DMA Channel Control */
#define GT_DMA0_CTRL (0x840 >> 2)
#define GT_DMA1_CTRL (0x844 >> 2)
#define GT_DMA2_CTRL (0x848 >> 2)
#define GT_DMA3_CTRL (0x84c >> 2)
/* DMA Arbiter */
#define GT_DMA_ARB (0x860 >> 2)
/* Timer/Counter */
#define GT_TC0 (0x850 >> 2)
#define GT_TC1 (0x854 >> 2)
#define GT_TC2 (0x858 >> 2)
#define GT_TC3 (0x85c >> 2)
#define GT_TC_CONTROL (0x864 >> 2)
/* PCI Internal */
#define GT_PCI0_CMD (0xc00 >> 2)
#define GT_PCI0_TOR (0xc04 >> 2)
#define GT_PCI0_BS_SCS10 (0xc08 >> 2)
#define GT_PCI0_BS_SCS32 (0xc0c >> 2)
#define GT_PCI0_BS_CS20 (0xc10 >> 2)
#define GT_PCI0_BS_CS3BT (0xc14 >> 2)
#define GT_PCI1_IACK (0xc30 >> 2)
#define GT_PCI0_IACK (0xc34 >> 2)
#define GT_PCI0_BARE (0xc3c >> 2)
#define GT_PCI0_PREFMBR (0xc40 >> 2)
#define GT_PCI0_SCS10_BAR (0xc48 >> 2)
#define GT_PCI0_SCS32_BAR (0xc4c >> 2)
#define GT_PCI0_CS20_BAR (0xc50 >> 2)
#define GT_PCI0_CS3BT_BAR (0xc54 >> 2)
#define GT_PCI0_SSCS10_BAR (0xc58 >> 2)
#define GT_PCI0_SSCS32_BAR (0xc5c >> 2)
#define GT_PCI0_SCS3BT_BAR (0xc64 >> 2)
#define GT_PCI1_CMD (0xc80 >> 2)
#define GT_PCI1_TOR (0xc84 >> 2)
#define GT_PCI1_BS_SCS10 (0xc88 >> 2)
#define GT_PCI1_BS_SCS32 (0xc8c >> 2)
#define GT_PCI1_BS_CS20 (0xc90 >> 2)
#define GT_PCI1_BS_CS3BT (0xc94 >> 2)
#define GT_PCI1_BARE (0xcbc >> 2)
#define GT_PCI1_PREFMBR (0xcc0 >> 2)
#define GT_PCI1_SCS10_BAR (0xcc8 >> 2)
#define GT_PCI1_SCS32_BAR (0xccc >> 2)
#define GT_PCI1_CS20_BAR (0xcd0 >> 2)
#define GT_PCI1_CS3BT_BAR (0xcd4 >> 2)
#define GT_PCI1_SSCS10_BAR (0xcd8 >> 2)
#define GT_PCI1_SSCS32_BAR (0xcdc >> 2)
#define GT_PCI1_SCS3BT_BAR (0xce4 >> 2)
#define GT_PCI1_CFGADDR (0xcf0 >> 2)
#define GT_PCI1_CFGDATA (0xcf4 >> 2)
#define GT_PCI0_CFGADDR (0xcf8 >> 2)
#define GT_PCI0_CFGDATA (0xcfc >> 2)
/* Interrupts */
#define GT_INTRCAUSE (0xc18 >> 2)
#define GT_INTRMASK (0xc1c >> 2)
#define GT_PCI0_ICMASK (0xc24 >> 2)
#define GT_PCI0_SERR0MASK (0xc28 >> 2)
#define GT_CPU_INTSEL (0xc70 >> 2)
#define GT_PCI0_INTSEL (0xc74 >> 2)
#define GT_HINTRCAUSE (0xc98 >> 2)
#define GT_HINTRMASK (0xc9c >> 2)
#define GT_PCI0_HICMASK (0xca4 >> 2)
#define GT_PCI1_SERR1MASK (0xca8 >> 2)
#define PCI_MAPPING_ENTRY(regname) \
target_phys_addr_t regname ##_start; \
target_phys_addr_t regname ##_length; \
int regname ##_handle
typedef struct GT64120State {
SysBusDevice busdev;
PCIHostState pci;
uint32_t regs[GT_REGS];
PCI_MAPPING_ENTRY(PCI0IO);
PCI_MAPPING_ENTRY(ISD);
} GT64120State;
/* Adjust range to avoid touching space which isn't mappable via PCI */
/* XXX: Hardcoded values for Malta: 0x1e000000 - 0x1f100000
0x1fc00000 - 0x1fd00000 */
static void check_reserved_space (target_phys_addr_t *start,
target_phys_addr_t *length)
{
target_phys_addr_t begin = *start;
target_phys_addr_t end = *start + *length;
if (end >= 0x1e000000LL && end < 0x1f100000LL)
end = 0x1e000000LL;
if (begin >= 0x1e000000LL && begin < 0x1f100000LL)
begin = 0x1f100000LL;
if (end >= 0x1fc00000LL && end < 0x1fd00000LL)
end = 0x1fc00000LL;
if (begin >= 0x1fc00000LL && begin < 0x1fd00000LL)
begin = 0x1fd00000LL;
/* XXX: This is broken when a reserved range splits the requested range */
if (end >= 0x1f100000LL && begin < 0x1e000000LL)
end = 0x1e000000LL;
if (end >= 0x1fd00000LL && begin < 0x1fc00000LL)
end = 0x1fc00000LL;
*start = begin;
*length = end - begin;
}
static void gt64120_isd_mapping(GT64120State *s)
{
target_phys_addr_t start = s->regs[GT_ISD] << 21;
target_phys_addr_t length = 0x1000;
if (s->ISD_length)
cpu_register_physical_memory(s->ISD_start, s->ISD_length,
IO_MEM_UNASSIGNED);
check_reserved_space(&start, &length);
length = 0x1000;
/* Map new address */
DPRINTF("ISD: "TARGET_FMT_plx"@"TARGET_FMT_plx" -> "TARGET_FMT_plx"@"TARGET_FMT_plx", %x\n", s->ISD_length, s->ISD_start,
length, start, s->ISD_handle);
s->ISD_start = start;
s->ISD_length = length;
cpu_register_physical_memory(s->ISD_start, s->ISD_length, s->ISD_handle);
}
static void gt64120_pci_mapping(GT64120State *s)
{
/* Update IO mapping */
if ((s->regs[GT_PCI0IOLD] & 0x7f) <= s->regs[GT_PCI0IOHD])
{
/* Unmap old IO address */
if (s->PCI0IO_length)
{
cpu_register_physical_memory(s->PCI0IO_start, s->PCI0IO_length, IO_MEM_UNASSIGNED);
}
/* Map new IO address */
s->PCI0IO_start = s->regs[GT_PCI0IOLD] << 21;
s->PCI0IO_length = ((s->regs[GT_PCI0IOHD] + 1) - (s->regs[GT_PCI0IOLD] & 0x7f)) << 21;
isa_mem_base = s->PCI0IO_start;
isa_mmio_init(s->PCI0IO_start, s->PCI0IO_length);
}
}
static void gt64120_writel (void *opaque, target_phys_addr_t addr,
uint32_t val)
{
GT64120State *s = opaque;
uint32_t saddr;
if (!(s->regs[GT_CPU] & 0x00001000))
val = bswap32(val);
saddr = (addr & 0xfff) >> 2;
switch (saddr) {
/* CPU Configuration */
case GT_CPU:
s->regs[GT_CPU] = val;
break;
case GT_MULTI:
/* Read-only register as only one GT64xxx is present on the CPU bus */
break;
/* CPU Address Decode */
case GT_PCI0IOLD:
s->regs[GT_PCI0IOLD] = val & 0x00007fff;
s->regs[GT_PCI0IOREMAP] = val & 0x000007ff;
gt64120_pci_mapping(s);
break;
case GT_PCI0M0LD:
s->regs[GT_PCI0M0LD] = val & 0x00007fff;
s->regs[GT_PCI0M0REMAP] = val & 0x000007ff;
break;
case GT_PCI0M1LD:
s->regs[GT_PCI0M1LD] = val & 0x00007fff;
s->regs[GT_PCI0M1REMAP] = val & 0x000007ff;
break;
case GT_PCI1IOLD:
s->regs[GT_PCI1IOLD] = val & 0x00007fff;
s->regs[GT_PCI1IOREMAP] = val & 0x000007ff;
break;
case GT_PCI1M0LD:
s->regs[GT_PCI1M0LD] = val & 0x00007fff;
s->regs[GT_PCI1M0REMAP] = val & 0x000007ff;
break;
case GT_PCI1M1LD:
s->regs[GT_PCI1M1LD] = val & 0x00007fff;
s->regs[GT_PCI1M1REMAP] = val & 0x000007ff;
break;
case GT_PCI0IOHD:
s->regs[saddr] = val & 0x0000007f;
gt64120_pci_mapping(s);
break;
case GT_PCI0M0HD:
case GT_PCI0M1HD:
case GT_PCI1IOHD:
case GT_PCI1M0HD:
case GT_PCI1M1HD:
s->regs[saddr] = val & 0x0000007f;
break;
case GT_ISD:
s->regs[saddr] = val & 0x00007fff;
gt64120_isd_mapping(s);
break;
case GT_PCI0IOREMAP:
case GT_PCI0M0REMAP:
case GT_PCI0M1REMAP:
case GT_PCI1IOREMAP:
case GT_PCI1M0REMAP:
case GT_PCI1M1REMAP:
s->regs[saddr] = val & 0x000007ff;
break;
/* CPU Error Report */
case GT_CPUERR_ADDRLO:
case GT_CPUERR_ADDRHI:
case GT_CPUERR_DATALO:
case GT_CPUERR_DATAHI:
case GT_CPUERR_PARITY:
/* Read-only registers, do nothing */
break;
/* CPU Sync Barrier */
case GT_PCI0SYNC:
case GT_PCI1SYNC:
/* Read-only registers, do nothing */
break;
/* SDRAM and Device Address Decode */
case GT_SCS0LD:
case GT_SCS0HD:
case GT_SCS1LD:
case GT_SCS1HD:
case GT_SCS2LD:
case GT_SCS2HD:
case GT_SCS3LD:
case GT_SCS3HD:
case GT_CS0LD:
case GT_CS0HD:
case GT_CS1LD:
case GT_CS1HD:
case GT_CS2LD:
case GT_CS2HD:
case GT_CS3LD:
case GT_CS3HD:
case GT_BOOTLD:
case GT_BOOTHD:
case GT_ADERR:
/* SDRAM Configuration */
case GT_SDRAM_CFG:
case GT_SDRAM_OPMODE:
case GT_SDRAM_BM:
case GT_SDRAM_ADDRDECODE:
/* Accept and ignore SDRAM interleave configuration */
s->regs[saddr] = val;
break;
/* Device Parameters */
case GT_DEV_B0:
case GT_DEV_B1:
case GT_DEV_B2:
case GT_DEV_B3:
case GT_DEV_BOOT:
/* Not implemented */
DPRINTF ("Unimplemented device register offset 0x%x\n", saddr << 2);
break;
/* ECC */
case GT_ECC_ERRDATALO:
case GT_ECC_ERRDATAHI:
case GT_ECC_MEM:
case GT_ECC_CALC:
case GT_ECC_ERRADDR:
/* Read-only registers, do nothing */
break;
/* DMA Record */
case GT_DMA0_CNT:
case GT_DMA1_CNT:
case GT_DMA2_CNT:
case GT_DMA3_CNT:
case GT_DMA0_SA:
case GT_DMA1_SA:
case GT_DMA2_SA:
case GT_DMA3_SA:
case GT_DMA0_DA:
case GT_DMA1_DA:
case GT_DMA2_DA:
case GT_DMA3_DA:
case GT_DMA0_NEXT:
case GT_DMA1_NEXT:
case GT_DMA2_NEXT:
case GT_DMA3_NEXT:
case GT_DMA0_CUR:
case GT_DMA1_CUR:
case GT_DMA2_CUR:
case GT_DMA3_CUR:
/* Not implemented */
DPRINTF ("Unimplemented DMA register offset 0x%x\n", saddr << 2);
break;
/* DMA Channel Control */
case GT_DMA0_CTRL:
case GT_DMA1_CTRL:
case GT_DMA2_CTRL:
case GT_DMA3_CTRL:
/* Not implemented */
DPRINTF ("Unimplemented DMA register offset 0x%x\n", saddr << 2);
break;
/* DMA Arbiter */
case GT_DMA_ARB:
/* Not implemented */
DPRINTF ("Unimplemented DMA register offset 0x%x\n", saddr << 2);
break;
/* Timer/Counter */
case GT_TC0:
case GT_TC1:
case GT_TC2:
case GT_TC3:
case GT_TC_CONTROL:
/* Not implemented */
DPRINTF ("Unimplemented timer register offset 0x%x\n", saddr << 2);
break;
/* PCI Internal */
case GT_PCI0_CMD:
case GT_PCI1_CMD:
s->regs[saddr] = val & 0x0401fc0f;
break;
case GT_PCI0_TOR:
case GT_PCI0_BS_SCS10:
case GT_PCI0_BS_SCS32:
case GT_PCI0_BS_CS20:
case GT_PCI0_BS_CS3BT:
case GT_PCI1_IACK:
case GT_PCI0_IACK:
case GT_PCI0_BARE:
case GT_PCI0_PREFMBR:
case GT_PCI0_SCS10_BAR:
case GT_PCI0_SCS32_BAR:
case GT_PCI0_CS20_BAR:
case GT_PCI0_CS3BT_BAR:
case GT_PCI0_SSCS10_BAR:
case GT_PCI0_SSCS32_BAR:
case GT_PCI0_SCS3BT_BAR:
case GT_PCI1_TOR:
case GT_PCI1_BS_SCS10:
case GT_PCI1_BS_SCS32:
case GT_PCI1_BS_CS20:
case GT_PCI1_BS_CS3BT:
case GT_PCI1_BARE:
case GT_PCI1_PREFMBR:
case GT_PCI1_SCS10_BAR:
case GT_PCI1_SCS32_BAR:
case GT_PCI1_CS20_BAR:
case GT_PCI1_CS3BT_BAR:
case GT_PCI1_SSCS10_BAR:
case GT_PCI1_SSCS32_BAR:
case GT_PCI1_SCS3BT_BAR:
case GT_PCI1_CFGADDR:
case GT_PCI1_CFGDATA:
/* not implemented */
break;
case GT_PCI0_CFGADDR:
s->pci.config_reg = val & 0x80fffffc;
break;
case GT_PCI0_CFGDATA:
if (!(s->regs[GT_PCI0_CMD] & 1) && (s->pci.config_reg & 0x00fff800))
val = bswap32(val);
if (s->pci.config_reg & (1u << 31))
pci_data_write(s->pci.bus, s->pci.config_reg, val, 4);
break;
/* Interrupts */
case GT_INTRCAUSE:
/* not really implemented */
s->regs[saddr] = ~(~(s->regs[saddr]) | ~(val & 0xfffffffe));
s->regs[saddr] |= !!(s->regs[saddr] & 0xfffffffe);
DPRINTF("INTRCAUSE %x\n", val);
break;
case GT_INTRMASK:
s->regs[saddr] = val & 0x3c3ffffe;
DPRINTF("INTRMASK %x\n", val);
break;
case GT_PCI0_ICMASK:
s->regs[saddr] = val & 0x03fffffe;
DPRINTF("ICMASK %x\n", val);
break;
case GT_PCI0_SERR0MASK:
s->regs[saddr] = val & 0x0000003f;
DPRINTF("SERR0MASK %x\n", val);
break;
/* Reserved when only PCI_0 is configured. */
case GT_HINTRCAUSE:
case GT_CPU_INTSEL:
case GT_PCI0_INTSEL:
case GT_HINTRMASK:
case GT_PCI0_HICMASK:
case GT_PCI1_SERR1MASK:
/* not implemented */
break;
/* SDRAM Parameters */
case GT_SDRAM_B0:
case GT_SDRAM_B1:
case GT_SDRAM_B2:
case GT_SDRAM_B3:
/* We don't simulate electrical parameters of the SDRAM.
Accept, but ignore the values. */
s->regs[saddr] = val;
break;
default:
DPRINTF ("Bad register offset 0x%x\n", (int)addr);
break;
}
}
static uint32_t gt64120_readl (void *opaque,
target_phys_addr_t addr)
{
GT64120State *s = opaque;
uint32_t val;
uint32_t saddr;
saddr = (addr & 0xfff) >> 2;
switch (saddr) {
/* CPU Configuration */
case GT_MULTI:
/* Only one GT64xxx is present on the CPU bus, return
the initial value */
val = s->regs[saddr];
break;
/* CPU Error Report */
case GT_CPUERR_ADDRLO:
case GT_CPUERR_ADDRHI:
case GT_CPUERR_DATALO:
case GT_CPUERR_DATAHI:
case GT_CPUERR_PARITY:
/* Emulated memory has no error, always return the initial
values */
val = s->regs[saddr];
break;
/* CPU Sync Barrier */
case GT_PCI0SYNC:
case GT_PCI1SYNC:
/* Reading those register should empty all FIFO on the PCI
bus, which are not emulated. The return value should be
a random value that should be ignored. */
val = 0xc000ffee;
break;
/* ECC */
case GT_ECC_ERRDATALO:
case GT_ECC_ERRDATAHI:
case GT_ECC_MEM:
case GT_ECC_CALC:
case GT_ECC_ERRADDR:
/* Emulated memory has no error, always return the initial
values */
val = s->regs[saddr];
break;
case GT_CPU:
case GT_SCS10LD:
case GT_SCS10HD:
case GT_SCS32LD:
case GT_SCS32HD:
case GT_CS20LD:
case GT_CS20HD:
case GT_CS3BOOTLD:
case GT_CS3BOOTHD:
case GT_SCS10AR:
case GT_SCS32AR:
case GT_CS20R:
case GT_CS3BOOTR:
case GT_PCI0IOLD:
case GT_PCI0M0LD:
case GT_PCI0M1LD:
case GT_PCI1IOLD:
case GT_PCI1M0LD:
case GT_PCI1M1LD:
case GT_PCI0IOHD:
case GT_PCI0M0HD:
case GT_PCI0M1HD:
case GT_PCI1IOHD:
case GT_PCI1M0HD:
case GT_PCI1M1HD:
case GT_PCI0IOREMAP:
case GT_PCI0M0REMAP:
case GT_PCI0M1REMAP:
case GT_PCI1IOREMAP:
case GT_PCI1M0REMAP:
case GT_PCI1M1REMAP:
case GT_ISD:
val = s->regs[saddr];
break;
case GT_PCI0_IACK:
/* Read the IRQ number */
val = pic_read_irq(isa_pic);
break;
/* SDRAM and Device Address Decode */
case GT_SCS0LD:
case GT_SCS0HD:
case GT_SCS1LD:
case GT_SCS1HD:
case GT_SCS2LD:
case GT_SCS2HD:
case GT_SCS3LD:
case GT_SCS3HD:
case GT_CS0LD:
case GT_CS0HD:
case GT_CS1LD:
case GT_CS1HD:
case GT_CS2LD:
case GT_CS2HD:
case GT_CS3LD:
case GT_CS3HD:
case GT_BOOTLD:
case GT_BOOTHD:
case GT_ADERR:
val = s->regs[saddr];
break;
/* SDRAM Configuration */
case GT_SDRAM_CFG:
case GT_SDRAM_OPMODE:
case GT_SDRAM_BM:
case GT_SDRAM_ADDRDECODE:
val = s->regs[saddr];
break;
/* SDRAM Parameters */
case GT_SDRAM_B0:
case GT_SDRAM_B1:
case GT_SDRAM_B2:
case GT_SDRAM_B3:
/* We don't simulate electrical parameters of the SDRAM.
Just return the last written value. */
val = s->regs[saddr];
break;
/* Device Parameters */
case GT_DEV_B0:
case GT_DEV_B1:
case GT_DEV_B2:
case GT_DEV_B3:
case GT_DEV_BOOT:
val = s->regs[saddr];
break;
/* DMA Record */
case GT_DMA0_CNT:
case GT_DMA1_CNT:
case GT_DMA2_CNT:
case GT_DMA3_CNT:
case GT_DMA0_SA:
case GT_DMA1_SA:
case GT_DMA2_SA:
case GT_DMA3_SA:
case GT_DMA0_DA:
case GT_DMA1_DA:
case GT_DMA2_DA:
case GT_DMA3_DA:
case GT_DMA0_NEXT:
case GT_DMA1_NEXT:
case GT_DMA2_NEXT:
case GT_DMA3_NEXT:
case GT_DMA0_CUR:
case GT_DMA1_CUR:
case GT_DMA2_CUR:
case GT_DMA3_CUR:
val = s->regs[saddr];
break;
/* DMA Channel Control */
case GT_DMA0_CTRL:
case GT_DMA1_CTRL:
case GT_DMA2_CTRL:
case GT_DMA3_CTRL:
val = s->regs[saddr];
break;
/* DMA Arbiter */
case GT_DMA_ARB:
val = s->regs[saddr];
break;
/* Timer/Counter */
case GT_TC0:
case GT_TC1:
case GT_TC2:
case GT_TC3:
case GT_TC_CONTROL:
val = s->regs[saddr];
break;
/* PCI Internal */
case GT_PCI0_CFGADDR:
val = s->pci.config_reg;
break;
case GT_PCI0_CFGDATA:
if (!(s->pci.config_reg & (1 << 31)))
val = 0xffffffff;
else
val = pci_data_read(s->pci.bus, s->pci.config_reg, 4);
if (!(s->regs[GT_PCI0_CMD] & 1) && (s->pci.config_reg & 0x00fff800))
val = bswap32(val);
break;
case GT_PCI0_CMD:
case GT_PCI0_TOR:
case GT_PCI0_BS_SCS10:
case GT_PCI0_BS_SCS32:
case GT_PCI0_BS_CS20:
case GT_PCI0_BS_CS3BT:
case GT_PCI1_IACK:
case GT_PCI0_BARE:
case GT_PCI0_PREFMBR:
case GT_PCI0_SCS10_BAR:
case GT_PCI0_SCS32_BAR:
case GT_PCI0_CS20_BAR:
case GT_PCI0_CS3BT_BAR:
case GT_PCI0_SSCS10_BAR:
case GT_PCI0_SSCS32_BAR:
case GT_PCI0_SCS3BT_BAR:
case GT_PCI1_CMD:
case GT_PCI1_TOR:
case GT_PCI1_BS_SCS10:
case GT_PCI1_BS_SCS32:
case GT_PCI1_BS_CS20:
case GT_PCI1_BS_CS3BT:
case GT_PCI1_BARE:
case GT_PCI1_PREFMBR:
case GT_PCI1_SCS10_BAR:
case GT_PCI1_SCS32_BAR:
case GT_PCI1_CS20_BAR:
case GT_PCI1_CS3BT_BAR:
case GT_PCI1_SSCS10_BAR:
case GT_PCI1_SSCS32_BAR:
case GT_PCI1_SCS3BT_BAR:
case GT_PCI1_CFGADDR:
case GT_PCI1_CFGDATA:
val = s->regs[saddr];
break;
/* Interrupts */
case GT_INTRCAUSE:
val = s->regs[saddr];
DPRINTF("INTRCAUSE %x\n", val);
break;
case GT_INTRMASK:
val = s->regs[saddr];
DPRINTF("INTRMASK %x\n", val);
break;
case GT_PCI0_ICMASK:
val = s->regs[saddr];
DPRINTF("ICMASK %x\n", val);
break;
case GT_PCI0_SERR0MASK:
val = s->regs[saddr];
DPRINTF("SERR0MASK %x\n", val);
break;
/* Reserved when only PCI_0 is configured. */
case GT_HINTRCAUSE:
case GT_CPU_INTSEL:
case GT_PCI0_INTSEL:
case GT_HINTRMASK:
case GT_PCI0_HICMASK:
case GT_PCI1_SERR1MASK:
val = s->regs[saddr];
break;
default:
val = s->regs[saddr];
DPRINTF ("Bad register offset 0x%x\n", (int)addr);
break;
}
if (!(s->regs[GT_CPU] & 0x00001000))
val = bswap32(val);
return val;
}
static CPUWriteMemoryFunc * const gt64120_write[] = {
&gt64120_writel,
&gt64120_writel,
&gt64120_writel,
};
static CPUReadMemoryFunc * const gt64120_read[] = {
&gt64120_readl,
&gt64120_readl,
&gt64120_readl,
};
static int gt64120_pci_map_irq(PCIDevice *pci_dev, int irq_num)
{
int slot;
slot = (pci_dev->devfn >> 3);
switch (slot) {
/* PIIX4 USB */
case 10:
return 3;
/* AMD 79C973 Ethernet */
case 11:
return 1;
/* Crystal 4281 Sound */
case 12:
return 2;
/* PCI slot 1 to 4 */
case 18 ... 21:
return ((slot - 18) + irq_num) & 0x03;
/* Unknown device, don't do any translation */
default:
return irq_num;
}
}
static int pci_irq_levels[4];
static void gt64120_pci_set_irq(void *opaque, int irq_num, int level)
{
int i, pic_irq, pic_level;
qemu_irq *pic = opaque;
pci_irq_levels[irq_num] = level;
/* now we change the pic irq level according to the piix irq mappings */
/* XXX: optimize */
pic_irq = piix4_dev->config[0x60 + irq_num];
if (pic_irq < 16) {
/* The pic level is the logical OR of all the PCI irqs mapped
to it */
pic_level = 0;
for (i = 0; i < 4; i++) {
if (pic_irq == piix4_dev->config[0x60 + i])
pic_level |= pci_irq_levels[i];
}
qemu_set_irq(pic[pic_irq], pic_level);
}
}
static void gt64120_reset(void *opaque)
{
GT64120State *s = opaque;
/* FIXME: Malta specific hw assumptions ahead */
/* CPU Configuration */
#ifdef TARGET_WORDS_BIGENDIAN
s->regs[GT_CPU] = 0x00000000;
#else
s->regs[GT_CPU] = 0x00001000;
#endif
s->regs[GT_MULTI] = 0x00000003;
/* CPU Address decode */
s->regs[GT_SCS10LD] = 0x00000000;
s->regs[GT_SCS10HD] = 0x00000007;
s->regs[GT_SCS32LD] = 0x00000008;
s->regs[GT_SCS32HD] = 0x0000000f;
s->regs[GT_CS20LD] = 0x000000e0;
s->regs[GT_CS20HD] = 0x00000070;
s->regs[GT_CS3BOOTLD] = 0x000000f8;
s->regs[GT_CS3BOOTHD] = 0x0000007f;
s->regs[GT_PCI0IOLD] = 0x00000080;
s->regs[GT_PCI0IOHD] = 0x0000000f;
s->regs[GT_PCI0M0LD] = 0x00000090;
s->regs[GT_PCI0M0HD] = 0x0000001f;
s->regs[GT_ISD] = 0x000000a0;
s->regs[GT_PCI0M1LD] = 0x00000790;
s->regs[GT_PCI0M1HD] = 0x0000001f;
s->regs[GT_PCI1IOLD] = 0x00000100;
s->regs[GT_PCI1IOHD] = 0x0000000f;
s->regs[GT_PCI1M0LD] = 0x00000110;
s->regs[GT_PCI1M0HD] = 0x0000001f;
s->regs[GT_PCI1M1LD] = 0x00000120;
s->regs[GT_PCI1M1HD] = 0x0000002f;
s->regs[GT_SCS10AR] = 0x00000000;
s->regs[GT_SCS32AR] = 0x00000008;
s->regs[GT_CS20R] = 0x000000e0;
s->regs[GT_CS3BOOTR] = 0x000000f8;
s->regs[GT_PCI0IOREMAP] = 0x00000080;
s->regs[GT_PCI0M0REMAP] = 0x00000090;
s->regs[GT_PCI0M1REMAP] = 0x00000790;
s->regs[GT_PCI1IOREMAP] = 0x00000100;
s->regs[GT_PCI1M0REMAP] = 0x00000110;
s->regs[GT_PCI1M1REMAP] = 0x00000120;
/* CPU Error Report */
s->regs[GT_CPUERR_ADDRLO] = 0x00000000;
s->regs[GT_CPUERR_ADDRHI] = 0x00000000;
s->regs[GT_CPUERR_DATALO] = 0xffffffff;
s->regs[GT_CPUERR_DATAHI] = 0xffffffff;
s->regs[GT_CPUERR_PARITY] = 0x000000ff;
/* CPU Sync Barrier */
s->regs[GT_PCI0SYNC] = 0x00000000;
s->regs[GT_PCI1SYNC] = 0x00000000;
/* SDRAM and Device Address Decode */
s->regs[GT_SCS0LD] = 0x00000000;
s->regs[GT_SCS0HD] = 0x00000007;
s->regs[GT_SCS1LD] = 0x00000008;
s->regs[GT_SCS1HD] = 0x0000000f;
s->regs[GT_SCS2LD] = 0x00000010;
s->regs[GT_SCS2HD] = 0x00000017;
s->regs[GT_SCS3LD] = 0x00000018;
s->regs[GT_SCS3HD] = 0x0000001f;
s->regs[GT_CS0LD] = 0x000000c0;
s->regs[GT_CS0HD] = 0x000000c7;
s->regs[GT_CS1LD] = 0x000000c8;
s->regs[GT_CS1HD] = 0x000000cf;
s->regs[GT_CS2LD] = 0x000000d0;
s->regs[GT_CS2HD] = 0x000000df;
s->regs[GT_CS3LD] = 0x000000f0;
s->regs[GT_CS3HD] = 0x000000fb;
s->regs[GT_BOOTLD] = 0x000000fc;
s->regs[GT_BOOTHD] = 0x000000ff;
s->regs[GT_ADERR] = 0xffffffff;
/* SDRAM Configuration */
s->regs[GT_SDRAM_CFG] = 0x00000200;
s->regs[GT_SDRAM_OPMODE] = 0x00000000;
s->regs[GT_SDRAM_BM] = 0x00000007;
s->regs[GT_SDRAM_ADDRDECODE] = 0x00000002;
/* SDRAM Parameters */
s->regs[GT_SDRAM_B0] = 0x00000005;
s->regs[GT_SDRAM_B1] = 0x00000005;
s->regs[GT_SDRAM_B2] = 0x00000005;
s->regs[GT_SDRAM_B3] = 0x00000005;
/* ECC */
s->regs[GT_ECC_ERRDATALO] = 0x00000000;
s->regs[GT_ECC_ERRDATAHI] = 0x00000000;
s->regs[GT_ECC_MEM] = 0x00000000;
s->regs[GT_ECC_CALC] = 0x00000000;
s->regs[GT_ECC_ERRADDR] = 0x00000000;
/* Device Parameters */
s->regs[GT_DEV_B0] = 0x386fffff;
s->regs[GT_DEV_B1] = 0x386fffff;
s->regs[GT_DEV_B2] = 0x386fffff;
s->regs[GT_DEV_B3] = 0x386fffff;
s->regs[GT_DEV_BOOT] = 0x146fffff;
/* DMA registers are all zeroed at reset */
/* Timer/Counter */
s->regs[GT_TC0] = 0xffffffff;
s->regs[GT_TC1] = 0x00ffffff;
s->regs[GT_TC2] = 0x00ffffff;
s->regs[GT_TC3] = 0x00ffffff;
s->regs[GT_TC_CONTROL] = 0x00000000;
/* PCI Internal */
#ifdef TARGET_WORDS_BIGENDIAN
s->regs[GT_PCI0_CMD] = 0x00000000;
#else
s->regs[GT_PCI0_CMD] = 0x00010001;
#endif
s->regs[GT_PCI0_TOR] = 0x0000070f;
s->regs[GT_PCI0_BS_SCS10] = 0x00fff000;
s->regs[GT_PCI0_BS_SCS32] = 0x00fff000;
s->regs[GT_PCI0_BS_CS20] = 0x01fff000;
s->regs[GT_PCI0_BS_CS3BT] = 0x00fff000;
s->regs[GT_PCI1_IACK] = 0x00000000;
s->regs[GT_PCI0_IACK] = 0x00000000;
s->regs[GT_PCI0_BARE] = 0x0000000f;
s->regs[GT_PCI0_PREFMBR] = 0x00000040;
s->regs[GT_PCI0_SCS10_BAR] = 0x00000000;
s->regs[GT_PCI0_SCS32_BAR] = 0x01000000;
s->regs[GT_PCI0_CS20_BAR] = 0x1c000000;
s->regs[GT_PCI0_CS3BT_BAR] = 0x1f000000;
s->regs[GT_PCI0_SSCS10_BAR] = 0x00000000;
s->regs[GT_PCI0_SSCS32_BAR] = 0x01000000;
s->regs[GT_PCI0_SCS3BT_BAR] = 0x1f000000;
#ifdef TARGET_WORDS_BIGENDIAN
s->regs[GT_PCI1_CMD] = 0x00000000;
#else
s->regs[GT_PCI1_CMD] = 0x00010001;
#endif
s->regs[GT_PCI1_TOR] = 0x0000070f;
s->regs[GT_PCI1_BS_SCS10] = 0x00fff000;
s->regs[GT_PCI1_BS_SCS32] = 0x00fff000;
s->regs[GT_PCI1_BS_CS20] = 0x01fff000;
s->regs[GT_PCI1_BS_CS3BT] = 0x00fff000;
s->regs[GT_PCI1_BARE] = 0x0000000f;
s->regs[GT_PCI1_PREFMBR] = 0x00000040;
s->regs[GT_PCI1_SCS10_BAR] = 0x00000000;
s->regs[GT_PCI1_SCS32_BAR] = 0x01000000;
s->regs[GT_PCI1_CS20_BAR] = 0x1c000000;
s->regs[GT_PCI1_CS3BT_BAR] = 0x1f000000;
s->regs[GT_PCI1_SSCS10_BAR] = 0x00000000;
s->regs[GT_PCI1_SSCS32_BAR] = 0x01000000;
s->regs[GT_PCI1_SCS3BT_BAR] = 0x1f000000;
s->regs[GT_PCI1_CFGADDR] = 0x00000000;
s->regs[GT_PCI1_CFGDATA] = 0x00000000;
s->regs[GT_PCI0_CFGADDR] = 0x00000000;
/* Interrupt registers are all zeroed at reset */
gt64120_isd_mapping(s);
gt64120_pci_mapping(s);
}
static void gt64120_save(QEMUFile* f, void *opaque)
{
PCIDevice *d = opaque;
pci_device_save(d, f);
}
static int gt64120_load(QEMUFile* f, void *opaque, int version_id)
{
PCIDevice *d = opaque;
int ret;
if (version_id != 1)
return -EINVAL;
ret = pci_device_load(d, f);
if (ret < 0)
return ret;
return 0;
}
PCIBus *gt64120_register(qemu_irq *pic)
{
SysBusDevice *s;
GT64120State *d;
DeviceState *dev;
dev = qdev_create(NULL, "gt64120");
qdev_init_nofail(dev);
s = sysbus_from_qdev(dev);
d = FROM_SYSBUS(GT64120State, s);
d->pci.bus = pci_register_bus(&d->busdev.qdev, "pci",
gt64120_pci_set_irq, gt64120_pci_map_irq,
pic, PCI_DEVFN(18, 0), 4);
d->ISD_handle = cpu_register_io_memory(gt64120_read, gt64120_write, d,
DEVICE_NATIVE_ENDIAN);
pci_create_simple(d->pci.bus, PCI_DEVFN(0, 0), "gt64120_pci");
return d->pci.bus;
}
static int gt64120_init(SysBusDevice *dev)
{
GT64120State *s;
s = FROM_SYSBUS(GT64120State, dev);
/* FIXME: This value is computed from registers during reset, but some
devices (e.g. VGA card) need to know it when they are registered.
This also mean that changing the register to change the mapping
does not fully work. */
isa_mem_base = 0x10000000;
qemu_register_reset(gt64120_reset, s);
register_savevm(&dev->qdev, "GT64120 PCI Bus", 0, 1,
gt64120_save, gt64120_load, &s->pci);
return 0;
}
static int gt64120_pci_init(PCIDevice *d)
{
/* FIXME: Malta specific hw assumptions ahead */
pci_config_set_vendor_id(d->config, PCI_VENDOR_ID_MARVELL);
pci_config_set_device_id(d->config, PCI_DEVICE_ID_MARVELL_GT6412X);
pci_set_word(d->config + PCI_COMMAND, 0);
pci_set_word(d->config + PCI_STATUS,
PCI_STATUS_FAST_BACK | PCI_STATUS_DEVSEL_MEDIUM);
pci_set_byte(d->config + PCI_CLASS_REVISION, 0x10);
pci_config_set_prog_interface(d->config, 0);
pci_config_set_class(d->config, PCI_CLASS_BRIDGE_HOST);
pci_set_long(d->config + PCI_BASE_ADDRESS_0, 0x00000008);
pci_set_long(d->config + PCI_BASE_ADDRESS_1, 0x01000008);
pci_set_long(d->config + PCI_BASE_ADDRESS_2, 0x1c000000);
pci_set_long(d->config + PCI_BASE_ADDRESS_3, 0x1f000000);
pci_set_long(d->config + PCI_BASE_ADDRESS_4, 0x14000000);
pci_set_long(d->config + PCI_BASE_ADDRESS_5, 0x14000001);
pci_set_byte(d->config + 0x3d, 0x01);
return 0;
}
static PCIDeviceInfo gt64120_pci_info = {
.qdev.name = "gt64120_pci",
.qdev.size = sizeof(PCIDevice),
.init = gt64120_pci_init,
};
static void gt64120_pci_register_devices(void)
{
sysbus_register_dev("gt64120", sizeof(GT64120State),
gt64120_init);
pci_qdev_register(&gt64120_pci_info);
}
device_init(gt64120_pci_register_devices)
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