void
platform_start(__register_t a0 __unused, __register_t a1 __unused,
__register_t a2 __unused, __register_t a3 __unused)
{
vm_offset_t kernend;
uint64_t platform_counter_freq = PLATFORM_COUNTER_FREQ;
int i;
int argc = a0;
char **argv = (char **)MIPS_PHYS_TO_KSEG0(a1);
char **envp = (char **)MIPS_PHYS_TO_KSEG0(a2);
/* clear the BSS and SBSS segments */
kernend = (vm_offset_t)&end;
memset(&edata, 0, kernend - (vm_offset_t)(&edata));
mips_postboot_fixup();
/* Initialize pcpu stuff */
mips_pcpu0_init();
/* initialize console so that we have printf */
boothowto |= (RB_SERIAL | RB_MULTIPLE); /* Use multiple consoles */
boothowto |= (RB_VERBOSE);
cninit();
init_static_kenv(boot1_env, sizeof(boot1_env));
printf("U-Boot args (from %d args):\n", argc - 1);
if (argc == 1)
printf("\tNone\n");
for (i = 1; i < argc; i++) {
char *n = "argv ", *arg;
if (i > 99)
break;
if (argv[i])
{
arg = (char *)(intptr_t)MIPS_PHYS_TO_KSEG0(argv[i]);
printf("\targv[%d] = %s\n", i, arg);
sprintf(n, "argv%d", i);
setenv(n, arg);
}
}
printf("Environment:\n");
for (i = 0; envp[i] ; i++) {
char *n, *arg;
arg = (char *)(intptr_t)MIPS_PHYS_TO_KSEG0(envp[i]);
printf("\t%s\n", arg);
n = strsep(&arg, "=");
if (arg == NULL)
setenv(n, "1");
else
setenv(n, arg);
}
mips_init();
mips_timer_init_params(platform_counter_freq, 2);
}
void
platform_start(__register_t a0 __unused, __register_t a1 __unused,
__register_t a2 __unused, __register_t a3 __unused)
{
uint64_t platform_counter_freq;
uint32_t reg;
int argc, i, count = 0;
char **argv, **envp;
vm_offset_t kernend;
/*
* clear the BSS and SBSS segments, this should be first call in
* the function
*/
kernend = (vm_offset_t)&end;
memset(&edata, 0, kernend - (vm_offset_t)(&edata));
mips_postboot_fixup();
/* Initialize pcpu stuff */
mips_pcpu0_init();
argc = a0;
argv = (char**)a1;
envp = (char**)a2;
/*
* Protect ourselves from garbage in registers
*/
if (MIPS_IS_VALID_PTR(envp)) {
for (i = 0; envp[i]; i += 2)
{
if (strcmp(envp[i], "memsize") == 0)
realmem = btoc(strtoul(envp[i+1], NULL, 16));
else if (strcmp(envp[i], "ethaddr") == 0) {
count = sscanf(envp[i+1], "%x.%x.%x.%x.%x.%x",
&ar711_base_mac[0], &ar711_base_mac[1],
&ar711_base_mac[2], &ar711_base_mac[3],
&ar711_base_mac[4], &ar711_base_mac[5]);
if (count < 6)
memset(ar711_base_mac, 0,
sizeof(ar711_base_mac));
}
}
}
/*
* Just wild guess. RedBoot let us down and didn't reported
* memory size
*/
if (realmem == 0)
realmem = btoc(32*1024*1024);
/* phys_avail regions are in bytes */
phys_avail[0] = MIPS_KSEG0_TO_PHYS(kernel_kseg0_end);
phys_avail[1] = ctob(realmem);
physmem = realmem;
/*
* ns8250 uart code uses DELAY so ticker should be inititalized
* before cninit. And tick_init_params refers to hz, so * init_param1
* should be called first.
*/
init_param1();
platform_counter_freq = ar71xx_cpu_freq();
mips_timer_init_params(platform_counter_freq, 1);
cninit();
init_static_kenv(boot1_env, sizeof(boot1_env));
printf("platform frequency: %lld\n", platform_counter_freq);
printf("arguments: \n");
printf(" a0 = %08x\n", a0);
printf(" a1 = %08x\n", a1);
printf(" a2 = %08x\n", a2);
printf(" a3 = %08x\n", a3);
printf("Cmd line:");
if (MIPS_IS_VALID_PTR(argv)) {
for (i = 0; i < argc; i++) {
printf(" %s", argv[i]);
parse_argv(argv[i]);
}
}
else
printf ("argv is invalid");
printf("\n");
printf("Environment:\n");
if (MIPS_IS_VALID_PTR(envp)) {
for (i = 0; envp[i]; i+=2) {
printf(" %s = %s\n", envp[i], envp[i+1]);
setenv(envp[i], envp[i+1]);
}
}
else
printf ("envp is invalid\n");
init_param2(physmem);
mips_cpu_init();
pmap_bootstrap();
mips_proc0_init();
mutex_init();
/*
* Reset USB devices
*/
reg = ATH_READ_REG(AR71XX_RST_RESET);
reg |=
RST_RESET_USB_OHCI_DLL | RST_RESET_USB_HOST | RST_RESET_USB_PHY;
ATH_WRITE_REG(AR71XX_RST_RESET, reg);
DELAY(1000);
reg &=
~(RST_RESET_USB_OHCI_DLL | RST_RESET_USB_HOST | RST_RESET_USB_PHY);
ATH_WRITE_REG(AR71XX_RST_RESET, reg);
ATH_WRITE_REG(AR71XX_USB_CTRL_CONFIG,
USB_CTRL_CONFIG_OHCI_DES_SWAP | USB_CTRL_CONFIG_OHCI_BUF_SWAP |
USB_CTRL_CONFIG_EHCI_DES_SWAP | USB_CTRL_CONFIG_EHCI_BUF_SWAP);
ATH_WRITE_REG(AR71XX_USB_CTRL_FLADJ,
(32 << USB_CTRL_FLADJ_HOST_SHIFT) | (3 << USB_CTRL_FLADJ_A5_SHIFT));
DELAY(1000);
kdb_init();
#ifdef KDB
if (boothowto & RB_KDB)
kdb_enter(KDB_WHY_BOOTFLAGS, "Boot flags requested debugger");
#endif
}
void
platform_start(__register_t a0, __register_t a1, __register_t a2 __unused,
__register_t a3)
{
const struct octeon_feature_description *ofd;
uint64_t platform_counter_freq;
int rv;
mips_postboot_fixup();
/*
* Initialize boot parameters so that we can determine things like
* which console we shoud use, etc.
*/
octeon_boot_params_init(a3);
/* Initialize pcpu stuff */
mips_pcpu0_init();
mips_timer_early_init(cvmx_sysinfo_get()->cpu_clock_hz);
/* Initialize console. */
cninit();
/*
* Display information about the CPU.
*/
#if !defined(OCTEON_MODEL)
printf("Using runtime CPU model checks.\n");
#else
printf("Compiled for CPU model: " __XSTRING(OCTEON_MODEL) "\n");
#endif
strcpy(cpu_model, octeon_model_get_string(cvmx_get_proc_id()));
printf("CPU Model: %s\n", cpu_model);
printf("CPU clock: %uMHz Core Mask: %#x\n",
cvmx_sysinfo_get()->cpu_clock_hz / 1000000,
cvmx_sysinfo_get()->core_mask);
rv = octeon_model_version_check(cvmx_get_proc_id());
if (rv == -1)
panic("%s: kernel not compatible with this processor.", __func__);
/*
* Display information about the board.
*/
#if defined(OCTEON_BOARD_CAPK_0100ND)
strcpy(cpu_board, "CAPK-0100ND");
if (cvmx_sysinfo_get()->board_type != CVMX_BOARD_TYPE_CN3010_EVB_HS5) {
panic("Compiled for %s, but board type is %s.", cpu_board,
cvmx_board_type_to_string(cvmx_sysinfo_get()->board_type));
}
#else
strcpy(cpu_board,
cvmx_board_type_to_string(cvmx_sysinfo_get()->board_type));
#endif
printf("Board: %s\n", cpu_board);
printf("Board Type: %u Revision: %u/%u\n",
cvmx_sysinfo_get()->board_type,
cvmx_sysinfo_get()->board_rev_major,
cvmx_sysinfo_get()->board_rev_minor);
printf("Serial number: %s\n", cvmx_sysinfo_get()->board_serial_number);
/*
* Additional on-chip hardware/settings.
*
* XXX Display PCI host/target? What else?
*/
printf("MAC address base: %6D (%u configured)\n",
cvmx_sysinfo_get()->mac_addr_base, ":",
cvmx_sysinfo_get()->mac_addr_count);
octeon_ciu_reset();
/*
* Convert U-Boot 'bootoctlinux' loader command line arguments into
* boot flags and kernel environment variables.
*/
bootverbose = 1;
octeon_init_kenv(a3);
/*
* For some reason on the cn38xx simulator ebase register is set to
* 0x80001000 at bootup time. Move it back to the default, but
* when we move to having support for multiple executives, we need
* to rethink this.
*/
mips_wr_ebase(0x80000000);
octeon_memory_init();
init_param1();
init_param2(physmem);
mips_cpu_init();
pmap_bootstrap();
mips_proc0_init();
mutex_init();
kdb_init();
#ifdef KDB
if (boothowto & RB_KDB)
kdb_enter(KDB_WHY_BOOTFLAGS, "Boot flags requested debugger");
#endif
cpu_clock = cvmx_sysinfo_get()->cpu_clock_hz;
platform_counter_freq = cpu_clock;
octeon_timecounter.tc_frequency = cpu_clock;
platform_timecounter = &octeon_timecounter;
mips_timer_init_params(platform_counter_freq, 0);
set_cputicker(octeon_get_ticks, cpu_clock, 0);
#ifdef SMP
/*
* Clear any pending IPIs.
*/
cvmx_write_csr(CVMX_CIU_MBOX_CLRX(0), 0xffffffff);
#endif
printf("Octeon SDK: %s\n", OCTEON_SDK_VERSION_STRING);
printf("Available Octeon features:");
for (ofd = octeon_feature_descriptions; ofd->ofd_string != NULL; ofd++)
if (octeon_has_feature(ofd->ofd_feature))
printf(" %s", ofd->ofd_string);
printf("\n");
}
void
platform_start(__register_t a0, __register_t a1,
__register_t a2 __unused, __register_t a3 __unused)
{
uint64_t platform_counter_freq;
vm_offset_t kernend;
int argc = a0;
char **argv = (char **)a1;
int i, mem;
/* clear the BSS and SBSS segments */
kernend = (vm_offset_t)&end;
memset(&edata, 0, kernend - (vm_offset_t)(&edata));
mips_postboot_fixup();
/* Initialize pcpu stuff */
mips_pcpu0_init();
/*
* Looking for mem=XXM argument
*/
mem = 0; /* Just something to start with */
for (i=0; i < argc; i++) {
if (strncmp(argv[i], "mem=", 4) == 0) {
mem = strtol(argv[i] + 4, NULL, 0);
break;
}
}
bootverbose = 1;
if (mem > 0)
realmem = btoc(mem << 20);
else
realmem = btoc(32 << 20);
for (i = 0; i < 10; i++) {
phys_avail[i] = 0;
}
/* phys_avail regions are in bytes */
phys_avail[0] = MIPS_KSEG0_TO_PHYS(kernel_kseg0_end);
phys_avail[1] = ctob(realmem);
dump_avail[0] = phys_avail[0];
dump_avail[1] = phys_avail[1];
physmem = realmem;
/*
* ns8250 uart code uses DELAY so ticker should be inititalized
* before cninit. And tick_init_params refers to hz, so * init_param1
* should be called first.
*/
init_param1();
/* TODO: parse argc,argv */
platform_counter_freq = 330000000UL;
mips_timer_init_params(platform_counter_freq, 1);
cninit();
/* Panic here, after cninit */
if (mem == 0)
panic("No mem=XX parameter in arguments");
printf("cmd line: ");
for (i=0; i < argc; i++)
printf("%s ", argv[i]);
printf("\n");
init_param2(physmem);
mips_cpu_init();
pmap_bootstrap();
mips_proc0_init();
mutex_init();
kdb_init();
#ifdef KDB
if (boothowto & RB_KDB)
kdb_enter(KDB_WHY_BOOTFLAGS, "Boot flags requested debugger");
#endif
}
void
platform_start(__register_t a0, __register_t a1, __register_t a2,
__register_t a3)
{
struct bootinfo *bootinfop;
vm_offset_t kernend;
uint64_t platform_counter_freq;
int argc = a0;
char **argv = (char **)a1;
char **envp = (char **)a2;
long memsize;
#ifdef FDT
char buf[2048]; /* early stack supposedly big enough */
vm_offset_t dtbp = 0;
phandle_t chosen;
void *kmdp;
int dtb_needs_swap = 0; /* error */
size_t dtb_size = 0;
#ifndef FDT_DTB_STATIC_ONLY
struct fdt_header *dtb_rom, *dtb;
uint32_t *swapptr;
#endif
int fdt_source = FDT_SOURCE_NONE;
#endif
int i;
/* clear the BSS and SBSS segments */
kernend = (vm_offset_t)&end;
memset(&edata, 0, kernend - (vm_offset_t)(&edata));
mips_postboot_fixup();
mips_pcpu0_init();
/*
* Over time, we've changed out boot-time binary interface for the
* kernel. Miniboot simply provides a 'memsize' in a3, whereas the
* FreeBSD boot loader provides a 'bootinfo *' in a3. While slightly
* grody, we support both here by detecting 'pointer-like' values in
* a3 and assuming physical memory can never be that big.
*
* XXXRW: Pull more values than memsize out of bootinfop -- e.g.,
* module information.
*/
if (a3 >= 0x9800000000000000ULL) {
bootinfop = (void *)a3;
memsize = bootinfop->bi_memsize;
preload_metadata = (caddr_t)bootinfop->bi_modulep;
} else {
bootinfop = NULL;
memsize = a3;
}
kmdp = preload_search_by_type("elf kernel");
/*
* Configure more boot-time parameters passed in by loader.
*/
boothowto = MD_FETCH(kmdp, MODINFOMD_HOWTO, int);
init_static_kenv(MD_FETCH(kmdp, MODINFOMD_ENVP, char *), 0);
#ifdef FDT
#ifndef FDT_DTB_STATIC_ONLY
/*
* Find the dtb passed in by the boot loader (currently fictional).
*
* Prefer a dtb provided as a module to one from bootinfo as we may
* have loaded an alternative one or created a modified version.
*/
dtbp = MD_FETCH(kmdp, MODINFOMD_DTBP, vm_offset_t);
if (dtbp == (vm_offset_t)NULL &&
bootinfop != NULL && bootinfop->bi_dtb != (bi_ptr_t)NULL) {
dtbp = bootinfop->bi_dtb;
fdt_source = FDT_SOURCE_LOADER;
}
/* Try to find an FDT directly in the hardware */
if (dtbp == (vm_offset_t)NULL) {
dtb_rom = (void*)(intptr_t)0x900000007f010000;
if (dtb_rom->magic == FDT_MAGIC) {
dtb_needs_swap = 0;
dtb_size = dtb_rom->totalsize;
} else if (dtb_rom->magic == bswap32(FDT_MAGIC)) {
dtb_needs_swap = 1;
dtb_size = bswap32(dtb_rom->totalsize);
}
if (dtb_size != 0) {
/* Steal a bit of memory... */
dtb = (void *)kernel_kseg0_end;
/* Round alignment from linker script. */
kernel_kseg0_end += roundup2(dtb_size, 64 / 8);
memcpy(dtb, dtb_rom, dtb_size);
if (dtb_needs_swap)
for (swapptr = (uint32_t *)dtb;
swapptr < (uint32_t *)dtb + (dtb_size/sizeof(*dtb));
swapptr++)
*swapptr = bswap32(*swapptr);
dtbp = (vm_offset_t)dtb;
fdt_source = FDT_SOURCE_ROM;
}
}
#endif /* !FDT_DTB_STATIC_ONLY */
#if defined(FDT_DTB_STATIC)
/*
* In case the device tree blob was not retrieved (from metadata) try
* to use the statically embedded one.
*/
if (dtbp == (vm_offset_t)NULL) {
dtbp = (vm_offset_t)&fdt_static_dtb;
fdt_source = FDT_SOURCE_STATIC;
}
#endif
if (OF_install(OFW_FDT, 0) == FALSE)
while (1);
if (OF_init((void *)dtbp) != 0)
while (1);
/*
* Get bootargs from FDT if specified.
*/
chosen = OF_finddevice("/chosen");
if (OF_getprop(chosen, "bootargs", buf, sizeof(buf)) != -1)
_parse_bootargs(buf);
#endif
/*
* XXXRW: We have no way to compare wallclock time to cycle rate on
* BERI, so for now assume we run at the MALTA default (100MHz).
*/
platform_counter_freq = MIPS_DEFAULT_HZ;
mips_timer_early_init(platform_counter_freq);
cninit();
printf("entry: platform_start()\n");
#ifdef FDT
if (dtbp != (vm_offset_t)NULL) {
printf("Using FDT at %p from ", (void *)dtbp);
switch (fdt_source) {
case FDT_SOURCE_LOADER:
printf("loader");
break;
case FDT_SOURCE_ROM:
printf("ROM");
break;
case FDT_SOURCE_STATIC:
printf("kernel");
break;
default:
printf("unknown source %d", fdt_source);
break;
}
printf("\n");
}
if (dtb_size != 0 && dtb_needs_swap)
printf("FDT was byteswapped\n");
#endif
bootverbose = 1;
if (bootverbose) {
printf("cmd line: ");
for (i = 0; i < argc; i++)
printf("%s ", argv[i]);
printf("\n");
printf("envp:\n");
for (i = 0; envp[i]; i += 2)
printf("\t%s = %s\n", envp[i], envp[i+1]);
if (bootinfop != NULL)
printf("bootinfo found at %p\n", bootinfop);
printf("memsize = %p\n", (void *)memsize);
}
realmem = btoc(memsize);
mips_init();
mips_timer_init_params(platform_counter_freq, 0);
}
void
platform_start(__register_t a0 __unused, __register_t a1 __unused,
__register_t a2 __unused, __register_t a3 __unused)
{
uint64_t platform_counter_freq;
int argc = 0, i;
char **argv = NULL, **envp = NULL;
vm_offset_t kernend;
/*
* clear the BSS and SBSS segments, this should be first call in
* the function
*/
kernend = (vm_offset_t)&end;
memset(&edata, 0, kernend - (vm_offset_t)(&edata));
mips_postboot_fixup();
/* Initialize pcpu stuff */
mips_pcpu0_init();
/*
* Until some more sensible abstractions for uboot/redboot
* environment handling, we have to make this a compile-time
* hack. The existing code handles the uboot environment
* very incorrectly so we should just ignore initialising
* the relevant pointers.
*/
#ifndef AR71XX_ENV_UBOOT
argc = a0;
argv = (char**)a1;
envp = (char**)a2;
#endif
/*
* Protect ourselves from garbage in registers
*/
if (MIPS_IS_VALID_PTR(envp)) {
for (i = 0; envp[i]; i += 2) {
if (strcmp(envp[i], "memsize") == 0)
realmem = btoc(strtoul(envp[i+1], NULL, 16));
else if (strcmp(envp[i], "bootverbose") == 0)
bootverbose = btoc(strtoul(envp[i+1], NULL, 10));
}
}
bootverbose = 1;
#ifdef AR71XX_ENV_ROUTERBOOT
/*
* RouterBoot informs the board memory as a command line argument.
*/
if (realmem == 0)
realmem = ar71xx_routerboot_get_mem(argc, argv);
#endif
/*
* Just wild guess. RedBoot let us down and didn't reported
* memory size
*/
if (realmem == 0)
realmem = btoc(32*1024*1024);
/*
* Allow build-time override in case Redboot lies
* or in other situations (eg where there's u-boot)
* where there isn't (yet) a convienent method of
* being told how much RAM is available.
*
* This happens on at least the Ubiquiti LS-SR71A
* board, where redboot says there's 16mb of RAM
* but in fact there's 32mb.
*/
#if defined(AR71XX_REALMEM)
realmem = btoc(AR71XX_REALMEM);
#endif
/* phys_avail regions are in bytes */
phys_avail[0] = MIPS_KSEG0_TO_PHYS(kernel_kseg0_end);
phys_avail[1] = ctob(realmem);
dump_avail[0] = phys_avail[0];
dump_avail[1] = phys_avail[1] - phys_avail[0];
physmem = realmem;
/*
* ns8250 uart code uses DELAY so ticker should be inititalized
* before cninit. And tick_init_params refers to hz, so * init_param1
* should be called first.
*/
init_param1();
/* Detect the system type - this is needed for subsequent chipset-specific calls */
ar71xx_detect_sys_type();
ar71xx_detect_sys_frequency();
platform_counter_freq = ar71xx_cpu_freq();
mips_timer_init_params(platform_counter_freq, 1);
cninit();
init_static_kenv(boot1_env, sizeof(boot1_env));
printf("CPU platform: %s\n", ar71xx_get_system_type());
printf("CPU Frequency=%d MHz\n", u_ar71xx_cpu_freq / 1000000);
printf("CPU DDR Frequency=%d MHz\n", u_ar71xx_ddr_freq / 1000000);
printf("CPU AHB Frequency=%d MHz\n", u_ar71xx_ahb_freq / 1000000);
printf("platform frequency: %lld MHz\n", platform_counter_freq / 1000000);
printf("CPU reference clock: %d MHz\n", u_ar71xx_refclk / 1000000);
printf("CPU MDIO clock: %d MHz\n", u_ar71xx_mdio_freq / 1000000);
printf("arguments: \n");
printf(" a0 = %08x\n", a0);
printf(" a1 = %08x\n", a1);
printf(" a2 = %08x\n", a2);
printf(" a3 = %08x\n", a3);
strcpy(cpu_model, ar71xx_get_system_type());
/*
* XXX this code is very redboot specific.
*/
printf("Cmd line:");
if (MIPS_IS_VALID_PTR(argv)) {
for (i = 0; i < argc; i++) {
printf(" %s", argv[i]);
parse_argv(argv[i]);
}
}
else
printf ("argv is invalid");
printf("\n");
printf("Environment:\n");
if (MIPS_IS_VALID_PTR(envp)) {
for (i = 0; envp[i]; i+=2) {
printf(" %s = %s\n", envp[i], envp[i+1]);
kern_setenv(envp[i], envp[i+1]);
}
}
else
printf ("envp is invalid\n");
/* Platform setup */
init_param2(physmem);
mips_cpu_init();
pmap_bootstrap();
mips_proc0_init();
mutex_init();
/*
* Reset USB devices
*/
ar71xx_init_usb_peripheral();
/*
* Reset internal ethernet switch, if one exists
*/
ar71xx_reset_ethernet_switch();
/*
* Initialise the gmac driver.
*/
ar71xx_init_gmac();
/* Redboot if_arge MAC address is in the environment */
(void) ar71xx_redboot_get_macaddr();
/* Various other boards need things to come out of EEPROM */
(void) ar71xx_platform_read_eeprom_mac();
/* Initialise the MAC address hint map */
ar71xx_platform_check_mac_hints();
kdb_init();
#ifdef KDB
if (boothowto & RB_KDB)
kdb_enter(KDB_WHY_BOOTFLAGS, "Boot flags requested debugger");
#endif
}
void
platform_start(__register_t a0 __unused, __register_t a1 __unused,
__register_t a2 __unused, __register_t a3 __unused)
{
uint64_t platform_counter_freq;
int argc, i;
char **argv, **envp;
vm_offset_t kernend;
/*
* clear the BSS and SBSS segments, this should be first call in
* the function
*/
kernend = (vm_offset_t)&end;
memset(&edata, 0, kernend - (vm_offset_t)(&edata));
mips_postboot_fixup();
/* Initialize pcpu stuff */
mips_pcpu0_init();
argc = a0;
argv = (char**)a1;
envp = (char**)a2;
/*
* Protect ourselves from garbage in registers
*/
if (MIPS_IS_VALID_PTR(envp)) {
for (i = 0; envp[i]; i += 2) {
if (strcmp(envp[i], "memsize") == 0)
realmem = btoc(strtoul(envp[i+1], NULL, 16));
}
}
/*
* Just wild guess. RedBoot let us down and didn't reported
* memory size
*/
if (realmem == 0)
realmem = btoc(32*1024*1024);
/*
* Allow build-time override in case Redboot lies
* or in other situations (eg where there's u-boot)
* where there isn't (yet) a convienent method of
* being told how much RAM is available.
*
* This happens on at least the Ubiquiti LS-SR71A
* board, where redboot says there's 16mb of RAM
* but in fact there's 32mb.
*/
#if defined(AR71XX_REALMEM)
realmem = btoc(AR71XX_REALMEM);
#endif
/* phys_avail regions are in bytes */
phys_avail[0] = MIPS_KSEG0_TO_PHYS(kernel_kseg0_end);
phys_avail[1] = ctob(realmem);
dump_avail[0] = phys_avail[0];
dump_avail[1] = phys_avail[1] - phys_avail[0];
physmem = realmem;
/*
* ns8250 uart code uses DELAY so ticker should be inititalized
* before cninit. And tick_init_params refers to hz, so * init_param1
* should be called first.
*/
init_param1();
/* Detect the system type - this is needed for subsequent chipset-specific calls */
ar71xx_detect_sys_type();
ar71xx_detect_sys_frequency();
platform_counter_freq = ar71xx_cpu_freq();
mips_timer_init_params(platform_counter_freq, 1);
cninit();
init_static_kenv(boot1_env, sizeof(boot1_env));
printf("CPU platform: %s\n", ar71xx_get_system_type());
printf("CPU Frequency=%d MHz\n", u_ar71xx_cpu_freq / 1000000);
printf("CPU DDR Frequency=%d MHz\n", u_ar71xx_ddr_freq / 1000000);
printf("CPU AHB Frequency=%d MHz\n", u_ar71xx_ahb_freq / 1000000);
printf("platform frequency: %lld\n", platform_counter_freq);
printf("arguments: \n");
printf(" a0 = %08x\n", a0);
printf(" a1 = %08x\n", a1);
printf(" a2 = %08x\n", a2);
printf(" a3 = %08x\n", a3);
printf("Cmd line:");
if (MIPS_IS_VALID_PTR(argv)) {
for (i = 0; i < argc; i++) {
printf(" %s", argv[i]);
parse_argv(argv[i]);
}
}
else
printf ("argv is invalid");
printf("\n");
printf("Environment:\n");
if (MIPS_IS_VALID_PTR(envp)) {
for (i = 0; envp[i]; i+=2) {
printf(" %s = %s\n", envp[i], envp[i+1]);
setenv(envp[i], envp[i+1]);
}
}
else
printf ("envp is invalid\n");
/* Redboot if_arge MAC address is in the environment */
ar71xx_redboot_get_macaddr();
init_param2(physmem);
mips_cpu_init();
pmap_bootstrap();
mips_proc0_init();
mutex_init();
/*
* Reset USB devices
*/
ar71xx_init_usb_peripheral();
kdb_init();
#ifdef KDB
if (boothowto & RB_KDB)
kdb_enter(KDB_WHY_BOOTFLAGS, "Boot flags requested debugger");
#endif
}
void
platform_start(__register_t a0, __register_t a1, __register_t a2,
__register_t a3)
{
struct bootinfo *bootinfop;
vm_offset_t kernend;
uint64_t platform_counter_freq;
int argc = a0;
char **argv = (char **)a1;
char **envp = (char **)a2;
long memsize;
#ifdef FDT
char buf[2048]; /* early stack supposedly big enough */
vm_offset_t dtbp;
phandle_t chosen;
void *kmdp;
#endif
int i;
/* clear the BSS and SBSS segments */
kernend = (vm_offset_t)&end;
memset(&edata, 0, kernend - (vm_offset_t)(&edata));
mips_postboot_fixup();
mips_pcpu0_init();
/*
* Over time, we've changed out boot-time binary interface for the
* kernel. Miniboot simply provides a 'memsize' in a3, whereas the
* FreeBSD boot loader provides a 'bootinfo *' in a3. While slightly
* grody, we support both here by detecting 'pointer-like' values in
* a3 and assuming physical memory can never be that back.
*
* XXXRW: Pull more values than memsize out of bootinfop -- e.g.,
* module information.
*/
if (a3 >= 0x9800000000000000ULL) {
bootinfop = (void *)a3;
memsize = bootinfop->bi_memsize;
preload_metadata = (caddr_t)bootinfop->bi_modulep;
} else {
bootinfop = NULL;
memsize = a3;
}
#ifdef FDT
/*
* Find the dtb passed in by the boot loader (currently fictional).
*/
kmdp = preload_search_by_type("elf kernel");
dtbp = MD_FETCH(kmdp, MODINFOMD_DTBP, vm_offset_t);
#if defined(FDT_DTB_STATIC)
/*
* In case the device tree blob was not retrieved (from metadata) try
* to use the statically embedded one.
*/
if (dtbp == (vm_offset_t)NULL)
dtbp = (vm_offset_t)&fdt_static_dtb;
#else
#error "Non-static FDT not yet supported on BERI"
#endif
if (OF_install(OFW_FDT, 0) == FALSE)
while (1);
if (OF_init((void *)dtbp) != 0)
while (1);
/*
* Configure more boot-time parameters passed in by loader.
*/
boothowto = MD_FETCH(kmdp, MODINFOMD_HOWTO, int);
init_static_kenv(MD_FETCH(kmdp, MODINFOMD_ENVP, char *), 0);
/*
* Get bootargs from FDT if specified.
*/
chosen = OF_finddevice("/chosen");
if (OF_getprop(chosen, "bootargs", buf, sizeof(buf)) != -1)
_parse_bootargs(buf);
#endif
/*
* XXXRW: We have no way to compare wallclock time to cycle rate on
* BERI, so for now assume we run at the MALTA default (100MHz).
*/
platform_counter_freq = MIPS_DEFAULT_HZ;
mips_timer_early_init(platform_counter_freq);
cninit();
printf("entry: platform_start()\n");
bootverbose = 1;
if (bootverbose) {
printf("cmd line: ");
for (i = 0; i < argc; i++)
printf("%s ", argv[i]);
printf("\n");
printf("envp:\n");
for (i = 0; envp[i]; i += 2)
printf("\t%s = %s\n", envp[i], envp[i+1]);
if (bootinfop != NULL)
printf("bootinfo found at %p\n", bootinfop);
printf("memsize = %p\n", (void *)memsize);
}
realmem = btoc(memsize);
mips_init();
mips_timer_init_params(platform_counter_freq, 0);
}
void
platform_start(__register_t a0, __register_t a1, __register_t a2,
__register_t a3)
{
vm_offset_t kernend;
uint64_t platform_counter_freq;
int argc = a0;
char **argv = (char **)a1;
char **envp = (char **)a2;
unsigned int memsize = a3;
#ifdef FDT
char buf[2048]; /* early stack supposedly big enough */
vm_offset_t dtbp;
phandle_t chosen;
void *kmdp;
#endif
int i;
/* clear the BSS and SBSS segments */
kernend = (vm_offset_t)&end;
memset(&edata, 0, kernend - (vm_offset_t)(&edata));
mips_postboot_fixup();
mips_pcpu0_init();
#ifdef FDT
/*
* Find the dtb passed in by the boot loader (currently fictional).
*/
kmdp = preload_search_by_type("elf kernel");
if (kmdp != NULL)
dtbp = MD_FETCH(kmdp, MODINFOMD_DTBP, vm_offset_t);
else
dtbp = (vm_offset_t)NULL;
#if defined(FDT_DTB_STATIC)
/*
* In case the device tree blob was not retrieved (from metadata) try
* to use the statically embedded one.
*/
if (dtbp == (vm_offset_t)NULL)
dtbp = (vm_offset_t)&fdt_static_dtb;
#else
#error "Non-static FDT not yet supported on BERI"
#endif
if (OF_install(OFW_FDT, 0) == FALSE)
while (1);
if (OF_init((void *)dtbp) != 0)
while (1);
/*
* Get bootargs from FDT if specified.
*/
chosen = OF_finddevice("/chosen");
if (OF_getprop(chosen, "bootargs", buf, sizeof(buf)) != -1)
_parse_bootargs(buf);
#endif
/*
* XXXRW: We have no way to compare wallclock time to cycle rate on
* BERI, so for now assume we run at the MALTA default (100MHz).
*/
platform_counter_freq = MIPS_DEFAULT_HZ;
mips_timer_early_init(platform_counter_freq);
cninit();
printf("entry: platform_start()\n");
bootverbose = 1;
if (bootverbose) {
printf("cmd line: ");
for (i = 0; i < argc; i++)
printf("%s ", argv[i]);
printf("\n");
printf("envp:\n");
for (i = 0; envp[i]; i += 2)
printf("\t%s = %s\n", envp[i], envp[i+1]);
printf("memsize = %08x\n", memsize);
}
realmem = btoc(memsize);
mips_init();
mips_timer_init_params(platform_counter_freq, 0);
}