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qemu / seabios-hppa / c4c9fae1ba486a5be754d0a41ef1be9d2aef77c9 / . / src / optionroms.c
blob: 0be68524d290ac87f11b85ebbadc0e3f23ca2027 [file] [log] [blame]
// Option rom scanning code.
//
// Copyright (C) 2008 Kevin O'Connor <kevin@koconnor.net>
// Copyright (C) 2002 MandrakeSoft S.A.
//
// This file may be distributed under the terms of the GNU LGPLv3 license.
#include "bregs.h" // struct bregs
#include "farptr.h" // FLATPTR_TO_SEG
#include "config.h" // CONFIG_*
#include "util.h" // dprintf
#include "pci.h" // foreachpci
#include "pci_regs.h" // PCI_ROM_ADDRESS
#include "pci_ids.h" // PCI_CLASS_DISPLAY_VGA
#include "boot.h" // IPL
#include "paravirt.h" // qemu_cfg_*
/****************************************************************
* Definitions
****************************************************************/
struct rom_header {
u16 signature;
u8 size;
u8 initVector[4];
u8 reserved[17];
u16 pcioffset;
u16 pnpoffset;
} PACKED;
struct pci_data {
u32 signature;
u16 vendor;
u16 device;
u16 vitaldata;
u16 dlen;
u8 drevision;
u8 class_lo;
u16 class_hi;
u16 ilen;
u16 irevision;
u8 type;
u8 indicator;
u16 reserved;
} PACKED;
struct pnp_data {
u32 signature;
u8 revision;
u8 len;
u16 nextoffset;
u8 reserved_08;
u8 checksum;
u32 devid;
u16 manufacturer;
u16 productname;
u8 type_lo;
u16 type_hi;
u8 dev_flags;
u16 bcv;
u16 dv;
u16 bev;
u16 reserved_1c;
u16 staticresource;
} PACKED;
#define OPTION_ROM_SIGNATURE 0xaa55
#define OPTION_ROM_ALIGN 2048
#define OPTION_ROM_INITVECTOR offsetof(struct rom_header, initVector[0])
#define PCI_ROM_SIGNATURE 0x52494350 // PCIR
#define PCIROM_CODETYPE_X86 0
// The end of the last deployed rom.
u32 RomEnd;
/****************************************************************
* Helper functions
****************************************************************/
// Execute a given option rom.
static void
__callrom(struct rom_header *rom, u16 offset, u16 bdf)
{
u16 seg = FLATPTR_TO_SEG(rom);
dprintf(1, "Running option rom at %04x:%04x\n", seg, offset);
struct bregs br;
memset(&br, 0, sizeof(br));
br.flags = F_IF;
br.ax = bdf;
br.bx = 0xffff;
br.dx = 0xffff;
br.es = SEG_BIOS;
br.di = get_pnp_offset();
br.code = SEGOFF(seg, offset);
start_preempt();
call16big(&br);
finish_preempt();
debug_serial_setup();
}
// Execute a given option rom at the standard entry vector.
static void
callrom(struct rom_header *rom, u16 bdf)
{
__callrom(rom, OPTION_ROM_INITVECTOR, bdf);
}
// Execute a BCV option rom registered via add_bcv().
void
call_bcv(u16 seg, u16 ip)
{
__callrom(MAKE_FLATPTR(seg, 0), ip, 0);
}
// Verify that an option rom looks valid
static int
is_valid_rom(struct rom_header *rom)
{
dprintf(6, "Checking rom %p (sig %x size %d)\n"
, rom, rom->signature, rom->size);
if (rom->signature != OPTION_ROM_SIGNATURE)
return 0;
if (! rom->size)
return 0;
u32 len = rom->size * 512;
u8 sum = checksum(rom, len);
if (sum != 0) {
dprintf(1, "Found option rom with bad checksum: loc=%p len=%d sum=%x\n"
, rom, len, sum);
return 0;
}
return 1;
}
// Check if a valid option rom has a pnp struct; return it if so.
static struct pnp_data *
get_pnp_rom(struct rom_header *rom)
{
struct pnp_data *pnp = (void*)((u8*)rom + rom->pnpoffset);
if (pnp->signature != PNP_SIGNATURE)
return NULL;
return pnp;
}
// Check for multiple pnp option rom headers.
static struct pnp_data *
get_pnp_next(struct rom_header *rom, struct pnp_data *pnp)
{
if (! pnp->nextoffset)
return NULL;
pnp = (void*)((u8*)rom + pnp->nextoffset);
if (pnp->signature != PNP_SIGNATURE)
return NULL;
return pnp;
}
// Check if a valid option rom has a pci struct; return it if so.
static struct pci_data *
get_pci_rom(struct rom_header *rom)
{
struct pci_data *pci = (void*)((u32)rom + rom->pcioffset);
if (pci->signature != PCI_ROM_SIGNATURE)
return NULL;
return pci;
}
// Return the memory position up to which roms may be located.
static inline u32
max_rom()
{
extern u8 code32_start[];
if ((u32)code32_start > BUILD_BIOS_ADDR)
return BUILD_BIOS_ADDR;
return (u32)code32_start;
}
// Copy a rom to its permanent location below 1MiB
static struct rom_header *
copy_rom(struct rom_header *rom)
{
u32 romsize = rom->size * 512;
if (RomEnd + romsize > max_rom()) {
// Option rom doesn't fit.
dprintf(1, "Option rom %p doesn't fit.\n", rom);
return NULL;
}
dprintf(4, "Copying option rom (size %d) from %p to %x\n"
, romsize, rom, RomEnd);
iomemcpy((void*)RomEnd, rom, romsize);
return (void*)RomEnd;
}
// Run rom init code and note rom size.
static int
init_optionrom(struct rom_header *rom, u16 bdf, int isvga)
{
if (! is_valid_rom(rom))
return -1;
if (isvga || get_pnp_rom(rom))
// Only init vga and PnP roms here.
callrom(rom, bdf);
RomEnd = (u32)rom + ALIGN(rom->size * 512, OPTION_ROM_ALIGN);
return 0;
}
/****************************************************************
* Roms in CBFS
****************************************************************/
// Check if an option rom is at a hardcoded location or in CBFS.
static struct rom_header *
lookup_hardcode(u32 vendev)
{
if (OPTIONROM_VENDEV_1
&& ((OPTIONROM_VENDEV_1 >> 16)
| ((OPTIONROM_VENDEV_1 & 0xffff)) << 16) == vendev)
return copy_rom((void*)OPTIONROM_MEM_1);
if (OPTIONROM_VENDEV_2
&& ((OPTIONROM_VENDEV_2 >> 16)
| ((OPTIONROM_VENDEV_2 & 0xffff)) << 16) == vendev)
return copy_rom((void*)OPTIONROM_MEM_2);
int ret = cbfs_copy_optionrom((void*)RomEnd, max_rom() - RomEnd, vendev);
if (ret < 0)
return NULL;
return (void*)RomEnd;
}
// Run all roms in a given CBFS directory.
static void
run_cbfs_roms(const char *prefix, int isvga)
{
struct cbfs_file *file = NULL;
for (;;) {
file = cbfs_findprefix(prefix, file);
if (!file)
break;
int ret = cbfs_copyfile(file, (void*)RomEnd, max_rom() - RomEnd);
if (ret > 0)
init_optionrom((void*)RomEnd, 0, isvga);
}
}
static void
run_qemu_roms(const char *prefix, int isvga)
{
struct QemuCfgFile entry;
int plen = strlen(prefix);
int rc, dlen;
rc = qemu_cfg_first_file(&entry);
while (rc > 0) {
if (memcmp(prefix, entry.name, plen) == 0) {
dlen = qemu_cfg_read_file(&entry, (void*)RomEnd, max_rom() - RomEnd);
if (dlen > 0) {
dprintf(1, "init qemu rom: %s\n", entry.name);
init_optionrom((void*)RomEnd, 0, isvga);
}
}
rc = qemu_cfg_next_file(&entry);
}
}
/****************************************************************
* PCI roms
****************************************************************/
// Map the option rom of a given PCI device.
static struct rom_header *
map_pcirom(u16 bdf, u32 vendev)
{
dprintf(6, "Attempting to map option rom on dev %02x:%02x.%x\n"
, pci_bdf_to_bus(bdf), pci_bdf_to_dev(bdf), pci_bdf_to_fn(bdf));
u8 htype = pci_config_readb(bdf, PCI_HEADER_TYPE);
if ((htype & 0x7f) != PCI_HEADER_TYPE_NORMAL) {
dprintf(6, "Skipping non-normal pci device (type=%x)\n", htype);
return NULL;
}
u32 orig = pci_config_readl(bdf, PCI_ROM_ADDRESS);
pci_config_writel(bdf, PCI_ROM_ADDRESS, ~PCI_ROM_ADDRESS_ENABLE);
u32 sz = pci_config_readl(bdf, PCI_ROM_ADDRESS);
dprintf(6, "Option rom sizing returned %x %x\n", orig, sz);
orig &= ~PCI_ROM_ADDRESS_ENABLE;
if (!sz || sz == 0xffffffff)
goto fail;
if (orig == sz || (u32)(orig + 4*1024*1024) < 20*1024*1024) {
// Don't try to map to a pci addresses at its max, in the last
// 4MiB of ram, or the first 16MiB of ram.
dprintf(6, "Preset rom address doesn't look valid\n");
goto fail;
}
// Looks like a rom - enable it.
pci_config_writel(bdf, PCI_ROM_ADDRESS, orig | PCI_ROM_ADDRESS_ENABLE);
struct rom_header *rom = (void*)orig;
for (;;) {
dprintf(5, "Inspecting possible rom at %p (dv=%08x bdf=%x)\n"
, rom, vendev, bdf);
if (rom->signature != OPTION_ROM_SIGNATURE) {
dprintf(6, "No option rom signature (got %x)\n", rom->signature);
goto fail;
}
struct pci_data *pci = get_pci_rom(rom);
if (! pci) {
dprintf(6, "No valid pci signature found\n");
goto fail;
}
u32 vd = (pci->device << 16) | pci->vendor;
if (vd == vendev && pci->type == PCIROM_CODETYPE_X86)
// A match
break;
dprintf(6, "Didn't match dev/ven (got %08x) or type (got %d)\n"
, vd, pci->type);
if (pci->indicator & 0x80) {
dprintf(6, "No more images left\n");
goto fail;
}
rom = (void*)((u32)rom + pci->ilen * 512);
}
rom = copy_rom(rom);
pci_config_writel(bdf, PCI_ROM_ADDRESS, orig);
return rom;
fail:
// Not valid - restore original and exit.
pci_config_writel(bdf, PCI_ROM_ADDRESS, orig);
return NULL;
}
// Attempt to map and initialize the option rom on a given PCI device.
static int
init_pcirom(u16 bdf, int isvga)
{
u32 vendev = pci_config_readl(bdf, PCI_VENDOR_ID);
dprintf(4, "Attempting to init PCI bdf %02x:%02x.%x (dev/ven %08x)\n"
, pci_bdf_to_bus(bdf), pci_bdf_to_dev(bdf), pci_bdf_to_fn(bdf)
, vendev);
struct rom_header *rom = lookup_hardcode(vendev);
if (! rom)
rom = map_pcirom(bdf, vendev);
if (! rom)
// No ROM present.
return -1;
return init_optionrom(rom, bdf, isvga);
}
/****************************************************************
* Non-VGA option rom init
****************************************************************/
void
optionrom_setup()
{
if (! CONFIG_OPTIONROMS)
return;
dprintf(1, "Scan for option roms\n");
u32 post_vga = RomEnd;
if (CONFIG_OPTIONROMS_DEPLOYED) {
// Option roms are already deployed on the system.
u32 pos = RomEnd;
while (pos < max_rom()) {
int ret = init_optionrom((void*)pos, 0, 0);
if (ret)
pos += OPTION_ROM_ALIGN;
else
pos = RomEnd;
}
} else {
// Find and deploy PCI roms.
int bdf, max;
foreachpci(bdf, max) {
u16 v = pci_config_readw(bdf, PCI_CLASS_DEVICE);
if (v == 0x0000 || v == 0xffff || v == PCI_CLASS_DISPLAY_VGA
|| (CONFIG_ATA && v == PCI_CLASS_STORAGE_IDE))
continue;
init_pcirom(bdf, 0);
}
// Find and deploy CBFS roms not associated with a device.
run_cbfs_roms("genroms/", 0);
run_qemu_roms("genroms/", 0);
}
// All option roms found and deployed - now build BEV/BCV vectors.
u32 pos = post_vga;
while (pos < RomEnd) {
struct rom_header *rom = (void*)pos;
if (! is_valid_rom(rom)) {
pos += OPTION_ROM_ALIGN;
continue;
}
pos += ALIGN(rom->size * 512, OPTION_ROM_ALIGN);
struct pnp_data *pnp = get_pnp_rom(rom);
if (! pnp) {
// Legacy rom.
add_bcv(FLATPTR_TO_SEG(rom), OPTION_ROM_INITVECTOR, 0);
continue;
}
// PnP rom.
if (pnp->bev)
// Can boot system - add to IPL list.
add_bev(FLATPTR_TO_SEG(rom), pnp->bev, pnp->productname);
else
// Check for BCV (there may be multiple).
while (pnp && pnp->bcv) {
add_bcv(FLATPTR_TO_SEG(rom), pnp->bcv, pnp->productname);
pnp = get_pnp_next(rom, pnp);
}
}
}
/****************************************************************
* VGA init
****************************************************************/
// Call into vga code to turn on console.
void
vga_setup()
{
VGAbdf = -1;
RomEnd = BUILD_ROM_START;
if (! CONFIG_OPTIONROMS)
return;
dprintf(1, "Scan for VGA option rom\n");
if (CONFIG_OPTIONROMS_DEPLOYED) {
// Option roms are already deployed on the system.
init_optionrom((void*)BUILD_ROM_START, 0, 1);
} else {
// Find and deploy PCI VGA rom.
int bdf = VGAbdf = pci_find_vga();
if (bdf >= 0)
init_pcirom(bdf, 1);
// Find and deploy CBFS vga-style roms not associated with a device.
run_cbfs_roms("vgaroms/", 1);
run_qemu_roms("vgaroms/", 1);
}
if (RomEnd == BUILD_ROM_START) {
// No VGA rom found
RomEnd += OPTION_ROM_ALIGN;
return;
}
dprintf(1, "Turning on vga console\n");
struct bregs br;
memset(&br, 0, sizeof(br));
br.flags = F_IF;
br.ax = 0x0003;
call16_int(0x10, &br);
// Write to screen.
printf("Starting SeaBIOS (version %s)\n\n", VERSION);
}
void
s3_resume_vga_init()
{
if (!CONFIG_S3_RESUME_VGA_INIT)
return;
struct rom_header *rom = (void*)BUILD_ROM_START;
if (! is_valid_rom(rom))
return;
callrom(rom, 0);
}