struct dcb *spawn_bsp_init(const char *name, alloc_phys_func alloc_phys)
{
printf("spawn_bsp_init\n");
/* Only the first core can run this code */
assert(hal_cpu_is_bsp());
/* Allocate bootinfo */
lpaddr_t bootinfo_phys = alloc_phys(BOOTINFO_SIZE);
memset((void *)local_phys_to_mem(bootinfo_phys), 0, BOOTINFO_SIZE);
/* Construct cmdline args */
char bootinfochar[16];
snprintf(bootinfochar, sizeof(bootinfochar), "%u", INIT_BOOTINFO_VBASE);
const char *argv[] = { "init", bootinfochar };
int argc = 2;
struct dcb *init_dcb = spawn_init_common(name, argc, argv, bootinfo_phys,
alloc_phys);
// Map bootinfo
spawn_init_map(init_l2, INIT_VBASE, INIT_BOOTINFO_VBASE,
bootinfo_phys, BOOTINFO_SIZE, INIT_PERM_RW);
struct startup_l2_info l2_info = { init_l2, INIT_VBASE };
genvaddr_t init_ep, got_base;
load_init_image(&l2_info, BSP_INIT_MODULE_NAME, &init_ep, &got_base);
struct dispatcher_shared_arm *disp_arm
= get_dispatcher_shared_arm(init_dcb->disp);
disp_arm->enabled_save_area.named.r10 = got_base;
disp_arm->got_base = got_base;
disp_arm->disabled_save_area.named.pc = init_ep;
#ifndef __ARM_ARCH_7M__ //the armv7-m profile does not have such a mode field
disp_arm->disabled_save_area.named.cpsr = ARM_MODE_USR | CPSR_F_MASK;
#endif
disp_arm->disabled_save_area.named.r10 = got_base;
/* Create caps for init to use */
create_module_caps(&spawn_state);
lpaddr_t init_alloc_end = alloc_phys(0); // XXX
create_phys_caps(init_alloc_end);
/* Fill bootinfo struct */
bootinfo->mem_spawn_core = KERNEL_IMAGE_SIZE; // Size of kernel
/*
// Map dispatcher
spawn_init_map(init_l2, INIT_VBASE, INIT_DISPATCHER_VBASE,
mem_to_local_phys(init_dcb->disp), DISPATCHER_SIZE,
INIT_PERM_RW);
disp_arm->disabled_save_area.named.rtls = INIT_DISPATCHER_VBASE;
*/
return init_dcb;
}
void arm_kernel_startup(phys_mmap_t* mmap,
lpaddr_t initrd_base,
size_t initrd_bytes)
{
g_phys_mmap = mmap;
STARTUP_PROGRESS();
#ifdef __XSCALE__
//Hardcoded because bootloader alter image if we pass the correct location
//Size of image is obtained by header file which is generated during compilation
initrd_base = 0x20000000;
initrd_bytes = romfs_cpio_archive_size;
#endif
const uint8_t* initrd_cpio_base = (uint8_t*)local_phys_to_mem(initrd_base);
if (!cpio_archive_valid(initrd_cpio_base, initrd_bytes))
{
panic("Invalid initrd filesystem\n");
}
/* allocate initial KCB */
kcb_current = (struct kcb *) local_phys_to_mem(alloc_phys(sizeof(*kcb_current)));
memset(kcb_current, 0, sizeof(*kcb_current));
assert(kcb_current);
spawn_init(BSP_INIT_MODULE_NAME, 0, initrd_cpio_base, initrd_bytes);
}
static errval_t
startup_alloc_init(
void* state,
genvaddr_t gvbase,
size_t bytes,
uint32_t flags,
void** ret
)
{
const struct startup_l2_info* s2i = (const struct startup_l2_info*)state;
lvaddr_t sv = round_down((lvaddr_t)gvbase, BASE_PAGE_SIZE);
size_t off = (lvaddr_t)gvbase - sv;
lvaddr_t lv = round_up((lvaddr_t)gvbase + bytes, BASE_PAGE_SIZE);
lpaddr_t pa;
STARTUP_PROGRESS();
if (lv > sv && ((pa = alloc_phys(lv - sv)) != 0))
{
spawn_init_map(s2i->l2_table, s2i->l2_base, sv,
pa, lv - sv, elf_to_l2_flags(flags));
*ret = (void*)(local_phys_to_mem(pa) + off);
}
else
{
*ret = 0;
}
return SYS_ERR_OK;
}
spawn_init(const char* name,
int32_t kernel_id,
const uint8_t* initrd_base,
size_t initrd_bytes)
{
assert(0 == kernel_id);
// Create page table for init
init_l1 = (uintptr_t*)alloc_mem_aligned(INIT_L1_BYTES, ARM_L1_ALIGN);
memset(init_l1, 0, INIT_L1_BYTES);
init_l2 = (uintptr_t*)alloc_mem_aligned(INIT_L2_BYTES, ARM_L2_ALIGN);
memset(init_l2, 0, INIT_L2_BYTES);
STARTUP_PROGRESS();
/* Allocate bootinfo */
lpaddr_t bootinfo_phys = alloc_phys(BOOTINFO_SIZE);
memset((void *)local_phys_to_mem(bootinfo_phys), 0, BOOTINFO_SIZE);
STARTUP_PROGRESS();
/* Construct cmdline args */
char bootinfochar[16];
snprintf(bootinfochar, sizeof(bootinfochar), "%u", INIT_BOOTINFO_VBASE);
const char *argv[] = { "init", bootinfochar };
lvaddr_t paramaddr;
struct dcb *init_dcb = spawn_module(&spawn_state, name,
ARRAY_LENGTH(argv), argv,
bootinfo_phys, INIT_ARGS_VBASE,
alloc_phys, ¶maddr);
STARTUP_PROGRESS();
/*
* Create a capability that allows user-level applications to
* access device memory. This capability will be passed to Kaluga,
* split up into smaller pieces and distributed to among device
* drivers.
*
* For armv5, this is currently a dummy capability. We do not
* have support for user-level device drivers in gem5 yet, so we
* do not allocate any memory as device memory. Some cap_copy
* operations in the bootup code fail if this capability is not
* present.
*/
struct cte *iocap = caps_locate_slot(CNODE(spawn_state.taskcn), TASKCN_SLOT_IO);
errval_t err = caps_create_new(ObjType_IO, 0, 0, 0, my_core_id, iocap);
assert(err_is_ok(err));
struct dispatcher_shared_generic *disp
= get_dispatcher_shared_generic(init_dcb->disp);
struct dispatcher_shared_arm *disp_arm
= get_dispatcher_shared_arm(init_dcb->disp);
assert(NULL != disp);
STARTUP_PROGRESS();
/* Initialize dispatcher */
disp->udisp = INIT_DISPATCHER_VBASE;
STARTUP_PROGRESS();
init_dcb->vspace = mem_to_local_phys((lvaddr_t)init_l1);
STARTUP_PROGRESS();
/* Page table setup */
/* Map pagetables into page CN */
int pagecn_pagemap = 0;
/*
* ARM has:
*
* L1 has 4096 entries (16KB).
* L2 Coarse has 256 entries (256 * 4B = 1KB).
*
* CPU driver currently fakes having 1024 entries in L1 and
* L2 with 1024 entries by treating a page as 4 consecutive
* L2 tables and mapping this as a unit in L1.
*/
caps_create_new(
ObjType_VNode_ARM_l1,
mem_to_local_phys((lvaddr_t)init_l1),
vnode_objbits(ObjType_VNode_ARM_l1), 0,
my_core_id,
caps_locate_slot(CNODE(spawn_state.pagecn), pagecn_pagemap++)
);
STARTUP_PROGRESS();
// Map L2 into successive slots in pagecn
size_t i;
for (i = 0; i < INIT_L2_BYTES / BASE_PAGE_SIZE; i++) {
size_t objbits_vnode = vnode_objbits(ObjType_VNode_ARM_l2);
assert(objbits_vnode == BASE_PAGE_BITS);
caps_create_new(
ObjType_VNode_ARM_l2,
mem_to_local_phys((lvaddr_t)init_l2) + (i << objbits_vnode),
objbits_vnode, 0,
my_core_id,
caps_locate_slot(CNODE(spawn_state.pagecn), pagecn_pagemap++)
);
}
/*
* Initialize init page tables - this just wires the L1
* entries through to the corresponding L2 entries.
*/
STATIC_ASSERT(0 == (INIT_VBASE % ARM_L1_SECTION_BYTES), "");
for (lvaddr_t vaddr = INIT_VBASE; vaddr < INIT_SPACE_LIMIT; vaddr += ARM_L1_SECTION_BYTES)
{
uintptr_t section = (vaddr - INIT_VBASE) / ARM_L1_SECTION_BYTES;
uintptr_t l2_off = section * ARM_L2_TABLE_BYTES;
lpaddr_t paddr = mem_to_local_phys((lvaddr_t)init_l2) + l2_off;
paging_map_user_pages_l1((lvaddr_t)init_l1, vaddr, paddr);
}
paging_make_good((lvaddr_t)init_l1, INIT_L1_BYTES);
STARTUP_PROGRESS();
printf("XXX: Debug print to make Bram's code work\n");
paging_context_switch(mem_to_local_phys((lvaddr_t)init_l1));
STARTUP_PROGRESS();
// Map cmdline arguments in VSpace at ARGS_BASE
STATIC_ASSERT(0 == (ARGS_SIZE % BASE_PAGE_SIZE), "");
STARTUP_PROGRESS();
spawn_init_map(init_l2, INIT_VBASE, INIT_ARGS_VBASE,
spawn_state.args_page, ARGS_SIZE, INIT_PERM_RW);
STARTUP_PROGRESS();
// Map bootinfo
spawn_init_map(init_l2, INIT_VBASE, INIT_BOOTINFO_VBASE,
bootinfo_phys, BOOTINFO_SIZE, INIT_PERM_RW);
struct startup_l2_info l2_info = { init_l2, INIT_VBASE };
genvaddr_t init_ep, got_base;
load_init_image(&l2_info, initrd_base, initrd_bytes, &init_ep, &got_base);
// Set startup arguments (argc, argv)
disp_arm->enabled_save_area.named.r0 = paramaddr;
disp_arm->enabled_save_area.named.cpsr = ARM_MODE_USR | CPSR_F_MASK;
disp_arm->enabled_save_area.named.rtls = INIT_DISPATCHER_VBASE;
disp_arm->enabled_save_area.named.r10 = got_base;
disp_arm->got_base = got_base;
struct bootinfo* bootinfo = (struct bootinfo*)INIT_BOOTINFO_VBASE;
bootinfo->regions_length = 0;
STARTUP_PROGRESS();
create_modules_from_initrd(bootinfo, initrd_base, initrd_bytes);
debug(SUBSYS_STARTUP, "used %"PRIuCSLOT" slots in modulecn\n", spawn_state.modulecn_slot);
STARTUP_PROGRESS();
create_phys_caps(&spawn_state.physaddrcn->cap, bootinfo);
STARTUP_PROGRESS();
bootinfo->mem_spawn_core = ~0; // Size of kernel if bringing up others
// Map dispatcher
spawn_init_map(init_l2, INIT_VBASE, INIT_DISPATCHER_VBASE,
mem_to_local_phys(init_dcb->disp), DISPATCHER_SIZE,
INIT_PERM_RW);
STARTUP_PROGRESS();
// NB libbarrelfish initialization sets up the stack.
disp_arm->disabled_save_area.named.pc = init_ep;
disp_arm->disabled_save_area.named.cpsr = ARM_MODE_USR | CPSR_F_MASK;
disp_arm->disabled_save_area.named.rtls = INIT_DISPATCHER_VBASE;
disp_arm->disabled_save_area.named.r10 = got_base;
#ifdef __XSCALE__
cp15_disable_cache();
#endif
printf("Kernel ready.\n");
pit_start();
// On to userland...
STARTUP_PROGRESS();
dispatch(init_dcb);
panic("Not reached.");
}
static void
create_modules_from_initrd(struct bootinfo* bi,
const uint8_t* initrd_base,
size_t initrd_bytes)
{
errval_t err;
lvaddr_t mmstrings_base = 0;
lvaddr_t mmstrings = 0;
// CPIO archive is crafted such that first file is
// command-line strings for "modules" - ie menu.lst. The
// subsequent file follow in the order they appear in
// menu.lst.arm.
const uint8_t* data;
size_t bytes;
if (cpio_get_file_by_name(initrd_base, initrd_bytes,
"menu.lst.modules",
&data, &bytes))
{
assert(bytes < BASE_PAGE_SIZE);
mmstrings_base = alloc_mem(BASE_PAGE_SIZE);
mmstrings = mmstrings_base;
STARTUP_PROGRESS();
// Create cap for strings area in first slot of modulecn
err = caps_create_new(
ObjType_Frame,
mem_to_local_phys(mmstrings_base),
BASE_PAGE_BITS, BASE_PAGE_BITS,
my_core_id,
caps_locate_slot(
CNODE(spawn_state.modulecn),
spawn_state.modulecn_slot++)
);
assert(err_is_ok(err));
STARTUP_PROGRESS();
// Copy strings from file into allocated page
memcpy((void*)mmstrings_base, data, bytes);
((char*)mmstrings_base)[bytes] = '\0';
STARTUP_PROGRESS();
// Skip first line (corresponds to bootscript in archive)
strtok((char*)mmstrings_base, "\r\n");
STARTUP_PROGRESS();
assert(bi->regions_length == 0);
int ord = 1;
const char* name;
while ((mmstrings = (lvaddr_t)strtok(NULL, "\r\n")) != 0)
{
if (!cpio_get_file_by_ordinal(initrd_base, initrd_bytes, ord,
&name, &data, &bytes))
{
panic("Failed to find file\n");
}
ord++;
debug(SUBSYS_STARTUP,
"Creating caps for \"%s\" (Command-line \"%s\")\n",
name, (char*)mmstrings);
// Copy file from archive into RAM.
// TODO: Give up archive space.
size_t pa_bytes = round_up(bytes, BASE_PAGE_SIZE);
lpaddr_t pa = alloc_phys(pa_bytes);
memcpy((void*)local_phys_to_mem(pa), data, bytes);
struct mem_region* region = &bi->regions[bi->regions_length++];
region->mr_type = RegionType_Module;
region->mrmod_slot = spawn_state.modulecn_slot;
region->mrmod_size = pa_bytes;
region->mrmod_data = mmstrings - mmstrings_base;
assert((pa & BASE_PAGE_MASK) == 0);
assert((pa_bytes & BASE_PAGE_MASK) == 0);
while (pa_bytes != 0)
{
assert(spawn_state.modulecn_slot
< (1UL << spawn_state.modulecn->cap.u.cnode.bits));
// create as DevFrame cap to avoid zeroing memory contents
err = caps_create_new(
ObjType_DevFrame, pa, BASE_PAGE_BITS,
BASE_PAGE_BITS,
my_core_id,
caps_locate_slot(
CNODE(spawn_state.modulecn),
spawn_state.modulecn_slot++)
);
assert(err_is_ok(err));
pa += BASE_PAGE_SIZE;
pa_bytes -= BASE_PAGE_SIZE;
}
}
}
else
{
panic("No command-line file.\n");
}
}
struct dcb *spawn_bsp_init(const char *name, alloc_phys_func alloc_phys)
{
errval_t err;
/* Only the first core can run this code */
assert(apic_is_bsp());
/* Allocate bootinfo */
lpaddr_t bootinfo_phys = alloc_phys(BOOTINFO_SIZE);
memset((void *)local_phys_to_mem(bootinfo_phys), 0, BOOTINFO_SIZE);
/* Construct cmdline args */
char bootinfochar[16];
snprintf(bootinfochar, sizeof(bootinfochar), "%"PRIuLPADDR, BOOTINFO_BASE);
const char *argv[6] = { "init", bootinfochar };
int argc = 2;
#ifdef __scc__
if(glbl_core_data->urpc_frame_base != 0) {
char coreidchar[10];
snprintf(coreidchar, sizeof(coreidchar), "%d",
glbl_core_data->src_core_id);
argv[argc++] = coreidchar;
char chan_id_char[30];
snprintf(chan_id_char, sizeof(chan_id_char), "chanid=%"PRIu32,
glbl_core_data->chan_id);
argv[argc++] = chan_id_char;
char urpc_frame_base_char[30];
snprintf(urpc_frame_base_char, sizeof(urpc_frame_base_char),
"frame=%" PRIuGENPADDR, glbl_core_data->urpc_frame_base);
argv[argc++] = urpc_frame_base_char;
}
#endif
struct dcb *init_dcb = spawn_init_common(&spawn_state, name, argc, argv,
bootinfo_phys, alloc_phys);
/* Map bootinfo R/W into VSpace at vaddr 0x200000 (BOOTINFO_BASE) */
#ifdef CONFIG_PAE
paging_x86_32_map_pdpte(&init_pdpte[0], mem_to_local_phys((lvaddr_t)init_pdir));
paging_x86_32_map_table(&init_pdir[1], mem_to_local_phys((lvaddr_t)init_ptable));
for (int i = 0; i < BOOTINFO_SIZE / BASE_PAGE_SIZE; i++) {
paging_x86_32_map(&init_ptable[i], bootinfo_phys + i * BASE_PAGE_SIZE,
INIT_PAGE_BITMAP | paging_elf_to_page_flags(PF_R|PF_W));
}
#else
paging_x86_32_map_table(&init_pdir[0], mem_to_local_phys((lvaddr_t)init_ptable));
for (int i = 0; i < BOOTINFO_SIZE / BASE_PAGE_SIZE; i++) {
paging_x86_32_map(&init_ptable[i + 512], bootinfo_phys + i * BASE_PAGE_SIZE,
INIT_PAGE_BITMAP | paging_elf_to_page_flags(PF_R|PF_W));
}
#endif
/* Load init ELF32 binary */
struct multiboot_modinfo *module = multiboot_find_module(name);
if (module == NULL) {
panic("Could not find init module!");
}
genvaddr_t init_ep;
err = elf_load(EM_386, startup_alloc_init, &spawn_state,
local_phys_to_mem(module->mod_start),
MULTIBOOT_MODULE_SIZE(*module), &init_ep);
if (err_is_fail(err)) {
//err_print_calltrace(err);
panic("ELF load of init module failed!");
}
struct dispatcher_shared_x86_32 *init_disp_x86_32 =
get_dispatcher_shared_x86_32(init_dcb->disp);
init_disp_x86_32->disabled_save_area.eip = init_ep;
/* Create caps for init to use */
create_module_caps(&spawn_state);
lpaddr_t init_alloc_end = alloc_phys(0); // XXX
create_phys_caps(init_alloc_end);
/* Fill bootinfo struct */
bootinfo->mem_spawn_core = NEEDED_KERNEL_SPACE; // Size of kernel
/* for (int i = 0; i < bootinfo->regions_length; i++) { */
/* printf("%d region %d: 0x%09" PRIxPTR " - 0x%09lx (%lu MB, %u bits)\n", */
/* bootinfo->regions[i].mr_type, i, bootinfo->regions[i].mr_base, */
/* bootinfo->regions[i].mr_base + (1UL<<bootinfo->regions[i].mr_bits), */
/* bootinfo->regions[i].mr_bits >= 20 */
/* ? 1UL << (bootinfo->regions[i].mr_bits - 20) : 0, */
/* bootinfo->regions[i].mr_bits); */
/* } */
#if 0
// If app core, map (static) URPC channel
if(kernel_scckernel != 0) {
printf("SCC app kernel, frame at: 0x%x\n", kernel_scckernel);
#define TASKCN_SLOT_MON_URPC (TASKCN_SLOTS_USER+6) ///< Frame cap for urpc comm.
err = caps_create_new(ObjType_Frame, kernel_scckernel, 13, 13,
caps_locate_slot(CNODE(taskcn), TASKCN_SLOT_MON_URPC));
assert(err_is_ok(err));
}
#endif
return init_dcb;
}
