Esempi in C++ (Cpp) per create_domain_cap

Linguaggio di programmazione: C++ (Cpp)

Metodo/funzione: create_domain_cap

Esempi su hotexamples.com: 4

create_domain_cap in C++ (Cpp): 4 esempi trovati. Questi sono i migliori esempi reali in C++ (Cpp) per create_domain_cap, estratti da progetti open source. Li puoi valutare, per aiutarci a migliorare la qualità dei nostri esempi.

Esempio n. 1

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File: boot.c Progetto: UNIVERSAL-IT-SYSTEMS/seL4

BOOT_CODE bool_t
init_sys_state(
    cpu_id_t      cpu_id,
    mem_p_regs_t  mem_p_regs,
    dev_p_regs_t* dev_p_regs,
    ui_info_t     ui_info,
    p_region_t    boot_mem_reuse_p_reg,
    /* parameters below not modeled in abstract specification */
    uint32_t      num_drhu,
    paddr_t*      drhu_list,
    acpi_rmrr_list_t *rmrr_list
)
{
    cap_t         root_cnode_cap;
    vptr_t        bi_frame_vptr;
    vptr_t        ipcbuf_vptr;
    cap_t         it_vspace_cap;
    cap_t         it_ap_cap;
    cap_t         ipcbuf_cap;
    pptr_t        bi_frame_pptr;
    create_frames_of_region_ret_t create_frames_ret;
#ifdef CONFIG_ENABLE_BENCHMARKS
    vm_attributes_t buffer_attr = {{ 0 }};
    word_t paddr;
    pde_t pde;
#endif /* CONFIG_ENABLE_BENCHMARKS */

    /* convert from physical addresses to kernel pptrs */
    region_t ui_reg             = paddr_to_pptr_reg(ui_info.p_reg);
    region_t boot_mem_reuse_reg = paddr_to_pptr_reg(boot_mem_reuse_p_reg);

    /* convert from physical addresses to userland vptrs */
    v_region_t ui_v_reg;
    v_region_t it_v_reg;
    ui_v_reg.start = ui_info.p_reg.start - ui_info.pv_offset;
    ui_v_reg.end   = ui_info.p_reg.end   - ui_info.pv_offset;

    ipcbuf_vptr = ui_v_reg.end;
    bi_frame_vptr = ipcbuf_vptr + BIT(PAGE_BITS);

    /* The region of the initial thread is the user image + ipcbuf and boot info */
    it_v_reg.start = ui_v_reg.start;
    it_v_reg.end = bi_frame_vptr + BIT(PAGE_BITS);

    init_freemem(ui_info.p_reg, mem_p_regs);

    /* initialise virtual-memory-related data structures (not in abstract spec) */
    if (!init_vm_state()) {
        return false;
    }

#ifdef CONFIG_ENABLE_BENCHMARKS
    /* allocate and create the log buffer */
    buffer_attr.words[0] = IA32_PAT_MT_WRITE_THROUGH;

    paddr = pptr_to_paddr((void *) alloc_region(pageBitsForSize(X86_LargePage)));

    /* allocate a large frame for logging */
    pde = x86_make_pde_mapping(paddr, buffer_attr);
    ia32KSGlobalPD[IA32_KSLOG_IDX] = pde;


    /* flush the tlb */
    invalidateTranslationAll();

    /* if we crash here, the log isn't working */
#ifdef CONFIG_DEBUG_BUILD
#if CONFIG_MAX_NUM_TRACE_POINTS > 0
    printf("Testing log\n");
    ksLog[0].data = 0xdeadbeef;
    printf("Wrote to ksLog %x\n", ksLog[0].data);
    assert(ksLog[0].data == 0xdeadbeef);
#endif /* CONFIG_MAX_NUM_TRACE_POINTS */
#endif /* CONFIG_DEBUG_BUILD */
#endif /* CONFIG_ENABLE_BENCHMARKS */

    /* create the root cnode */
    root_cnode_cap = create_root_cnode();

    /* create the IO port cap */
    write_slot(
        SLOT_PTR(pptr_of_cap(root_cnode_cap), seL4_CapIOPort),
        cap_io_port_cap_new(
            0,                /* first port */
            NUM_IO_PORTS - 1 /* last port  */
        )
    );

    /* create the cap for managing thread domains */
    create_domain_cap(root_cnode_cap);

    /* create the IRQ CNode */
    if (!create_irq_cnode()) {
        return false;
    }

    /* initialise the IRQ states and provide the IRQ control cap */
    init_irqs(root_cnode_cap);

    /* create the bootinfo frame */
    bi_frame_pptr = allocate_bi_frame(0, 1, ipcbuf_vptr);
    if (!bi_frame_pptr) {
        return false;
    }

    /* Construct an initial address space with enough virtual addresses
     * to cover the user image + ipc buffer and bootinfo frames */
    it_vspace_cap = create_it_address_space(root_cnode_cap, it_v_reg);
    if (cap_get_capType(it_vspace_cap) == cap_null_cap) {
        return false;
    }

    /* Create and map bootinfo frame cap */
    create_bi_frame_cap(
        root_cnode_cap,
        it_vspace_cap,
        bi_frame_pptr,
        bi_frame_vptr
    );

    /* create the initial thread's IPC buffer */
    ipcbuf_cap = create_ipcbuf_frame(root_cnode_cap, it_vspace_cap, ipcbuf_vptr);
    if (cap_get_capType(ipcbuf_cap) == cap_null_cap) {
        return false;
    }

    /* create all userland image frames */
    create_frames_ret =
        create_frames_of_region(
            root_cnode_cap,
            it_vspace_cap,
            ui_reg,
            true,
            ui_info.pv_offset
        );
    if (!create_frames_ret.success) {
        return false;
    }
    ndks_boot.bi_frame->userImageFrames = create_frames_ret.region;

    /* create the initial thread's ASID pool */
    it_ap_cap = create_it_asid_pool(root_cnode_cap);
    if (cap_get_capType(it_ap_cap) == cap_null_cap) {
        return false;
    }
    write_it_asid_pool(it_ap_cap, it_vspace_cap);

    /*
     * Initialise the NULL FPU state. This is different from merely zero'ing it
     * out (i.e., the NULL FPU state is non-zero), and must be performed before
     * the first thread is created.
     */
    resetFpu();
    saveFpuState(&x86KSnullFpuState);
    x86KSfpuOwner = NULL;

    /* create the idle thread */
    if (!create_idle_thread()) {
        return false;
    }

    /* create the initial thread */
    if (!create_initial_thread(
                root_cnode_cap,
                it_vspace_cap,
                ui_info.v_entry,
                bi_frame_vptr,
                ipcbuf_vptr,
                ipcbuf_cap
            )) {
        return false;
    }

    if (config_set(CONFIG_IOMMU)) {
        /* initialise VTD-related data structures and the IOMMUs */
        if (!vtd_init(cpu_id, num_drhu, rmrr_list)) {
            return false;
        }

        /* write number of IOMMU PT levels into bootinfo */
        ndks_boot.bi_frame->numIOPTLevels = x86KSnumIOPTLevels;

        /* write IOSpace master cap */
        write_slot(SLOT_PTR(pptr_of_cap(root_cnode_cap), seL4_CapIOSpace), master_iospace_cap());
    } else {
        ndks_boot.bi_frame->numIOPTLevels = -1;
    }

    /* convert the remaining free memory into UT objects and provide the caps */
    if (!create_untypeds(root_cnode_cap, boot_mem_reuse_reg)) {
        return false;
    }
    /* WARNING: alloc_region() must not be called anymore after here! */

    /* create device frames */
    if (!create_device_frames(root_cnode_cap, dev_p_regs)) {
        return false;
    }

    /* finalise the bootinfo frame */
    bi_finalise();

    return true;
}

Esempio n. 2

Mostra file

File: boot.c Progetto: seL4/seL4

static BOOT_CODE bool_t try_init_kernel(
    paddr_t ui_p_reg_start,
    paddr_t ui_p_reg_end,
    sword_t pv_offset,
    vptr_t  v_entry,
    paddr_t dtb_addr_start,
    paddr_t dtb_addr_end
)
{
    cap_t root_cnode_cap;
    cap_t it_ap_cap;
    cap_t it_pd_cap;
    cap_t ipcbuf_cap;
    region_t ui_reg = paddr_to_pptr_reg((p_region_t) {
        ui_p_reg_start, ui_p_reg_end
    });
    region_t dtb_reg;
    word_t extra_bi_size = sizeof(seL4_BootInfoHeader) + (dtb_addr_end - dtb_addr_start);
    region_t extra_bi_region;
    pptr_t extra_bi_offset = 0;
    vptr_t extra_bi_frame_vptr;
    pptr_t bi_frame_pptr;
    vptr_t bi_frame_vptr;
    vptr_t ipcbuf_vptr;
    create_frames_of_region_ret_t create_frames_ret;
    create_frames_of_region_ret_t extra_bi_ret;

    /* convert from physical addresses to userland vptrs */
    v_region_t ui_v_reg;
    v_region_t it_v_reg;
    ui_v_reg.start = ui_p_reg_start - pv_offset;
    ui_v_reg.end   = ui_p_reg_end   - pv_offset;

    ipcbuf_vptr = ui_v_reg.end;
    bi_frame_vptr = ipcbuf_vptr + BIT(PAGE_BITS);
    extra_bi_frame_vptr = bi_frame_vptr + BIT(PAGE_BITS);

    /* If no DTB was provided, skip allocating extra bootinfo */
    if (dtb_addr_start == 0) {
        extra_bi_size = 0;
        dtb_reg = (region_t) {
            0, 0
        };
    } else {
        dtb_reg = paddr_to_pptr_reg((p_region_t) {
            dtb_addr_start, ROUND_UP(dtb_addr_end, PAGE_BITS)
        });
    }

    /* The region of the initial thread is the user image + ipcbuf and boot info */
    it_v_reg.start = ui_v_reg.start;
    it_v_reg.end = extra_bi_frame_vptr;

    if (it_v_reg.end > kernelBase) {
        printf("Userland image virtual end address too high\n");
        return false;
    }

    /* setup virtual memory for the kernel */
    map_kernel_window();

    /* initialise the CPU */
    if (!init_cpu()) {
        return false;
    }

    /* debug output via serial port is only available from here */
    printf("Bootstrapping kernel\n");

    /* initialise the platform */
    init_plat();

    /* make the free memory available to alloc_region() */
    arch_init_freemem(ui_reg, dtb_reg);

    /* create the root cnode */
    root_cnode_cap = create_root_cnode();
    if (cap_get_capType(root_cnode_cap) == cap_null_cap) {
        return false;
    }

    /* create the cap for managing thread domains */
    create_domain_cap(root_cnode_cap);

    /* initialise the IRQ states and provide the IRQ control cap */
    init_irqs(root_cnode_cap);

    /* create the bootinfo frame */
    bi_frame_pptr = allocate_bi_frame(0, CONFIG_MAX_NUM_NODES, ipcbuf_vptr);
    if (!bi_frame_pptr) {
        return false;
    }

    /* create extra bootinfo region - will return an empty allocation if extra_bi_size = 0 */
    extra_bi_region = allocate_extra_bi_region(extra_bi_size);
    if (extra_bi_region.start == 0) {
        return false;
    }

    /* update initial thread virtual address range for extra bootinfo */
    it_v_reg.end += extra_bi_region.end - extra_bi_region.start;
    if (it_v_reg.end > kernelBase) {
        printf("Userland extra bootinfo end address too high\n");
        return false;
    }

    /* put DTB in the bootinfo block, if present. */
    seL4_BootInfoHeader header;
    if (dtb_reg.start) {
        header.id = SEL4_BOOTINFO_HEADER_FDT;
        header.len = sizeof(header) + dtb_reg.end - dtb_reg.start;
        *(seL4_BootInfoHeader *)(extra_bi_region.start + extra_bi_offset) = header;
        extra_bi_offset += sizeof(header);
        memcpy((void *)(extra_bi_region.start + extra_bi_offset), (void *)dtb_reg.start,
               dtb_reg.end - dtb_reg.start);
        extra_bi_offset += dtb_reg.end - dtb_reg.start;
    }

    if ((extra_bi_region.end - extra_bi_region.start) - extra_bi_offset > 0) {
        /* provde a chunk for any leftover padding in the extended boot info */
        header.id = SEL4_BOOTINFO_HEADER_PADDING;
        header.len = (extra_bi_region.end - extra_bi_region.start) - extra_bi_offset;
        *(seL4_BootInfoHeader *)(extra_bi_region.start + extra_bi_offset) = header;
    }

    if (config_set(CONFIG_ARM_SMMU)) {
        ndks_boot.bi_frame->ioSpaceCaps = create_iospace_caps(root_cnode_cap);
        if (ndks_boot.bi_frame->ioSpaceCaps.start == 0 &&
            ndks_boot.bi_frame->ioSpaceCaps.end == 0) {
            return false;
        }
    } else {
        ndks_boot.bi_frame->ioSpaceCaps = S_REG_EMPTY;
    }

    /* Construct an initial address space with enough virtual addresses
     * to cover the user image + ipc buffer and bootinfo frames */
    it_pd_cap = create_it_address_space(root_cnode_cap, it_v_reg);
    if (cap_get_capType(it_pd_cap) == cap_null_cap) {
        return false;
    }

    /* Create and map bootinfo frame cap */
    create_bi_frame_cap(
        root_cnode_cap,
        it_pd_cap,
        bi_frame_pptr,
        bi_frame_vptr
    );

    /* create and map extra bootinfo region */
    if (extra_bi_size > 0) {
        extra_bi_ret =
            create_frames_of_region(
                root_cnode_cap,
                it_pd_cap,
                extra_bi_region,
                true,
                pptr_to_paddr((void *)extra_bi_region.start) - extra_bi_frame_vptr
            );
        if (!extra_bi_ret.success) {
            return false;
        }
        ndks_boot.bi_frame->extraBIPages = extra_bi_ret.region;
    }

    /* create the initial thread's IPC buffer */
    ipcbuf_cap = create_ipcbuf_frame(root_cnode_cap, it_pd_cap, ipcbuf_vptr);
    if (cap_get_capType(ipcbuf_cap) == cap_null_cap) {
        return false;
    }

    /* create all userland image frames */
    create_frames_ret =
        create_frames_of_region(
            root_cnode_cap,
            it_pd_cap,
            ui_reg,
            true,
            pv_offset
        );
    if (!create_frames_ret.success) {
        return false;
    }
    ndks_boot.bi_frame->userImageFrames = create_frames_ret.region;

    /* create/initialise the initial thread's ASID pool */
    it_ap_cap = create_it_asid_pool(root_cnode_cap);
    if (cap_get_capType(it_ap_cap) == cap_null_cap) {
        return false;
    }
    write_it_asid_pool(it_ap_cap, it_pd_cap);

    /* create the idle thread */
    if (!create_idle_thread()) {
        return false;
    }

    /* Before creating the initial thread (which also switches to it)
     * we clean the cache so that any page table information written
     * as a result of calling create_frames_of_region will be correctly
     * read by the hardware page table walker */
    cleanInvalidateL1Caches();

    /* create the initial thread */
    tcb_t *initial = create_initial_thread(
                         root_cnode_cap,
                         it_pd_cap,
                         v_entry,
                         bi_frame_vptr,
                         ipcbuf_vptr,
                         ipcbuf_cap
                     );

    if (initial == NULL) {
        return false;
    }

    init_core_state(initial);

    /* create all of the untypeds. Both devices and kernel window memory */
    if (!create_untypeds(
            root_cnode_cap,
    (region_t) {
    kernelBase, (pptr_t)ki_boot_end
    } /* reusable boot code/data */
        )) {
        return false;
    }

    /* no shared-frame caps (ARM has no multikernel support) */
    ndks_boot.bi_frame->sharedFrames = S_REG_EMPTY;

    /* finalise the bootinfo frame */
    bi_finalise();

    /* make everything written by the kernel visible to userland. Cleaning to PoC is not
     * strictly neccessary, but performance is not critical here so clean and invalidate
     * everything to PoC */
    cleanInvalidateL1Caches();
    invalidateLocalTLB();
    if (config_set(CONFIG_ARM_HYPERVISOR_SUPPORT)) {
        invalidateHypTLB();
    }


    ksNumCPUs = 1;

    /* initialize BKL before booting up other cores */
    SMP_COND_STATEMENT(clh_lock_init());
    SMP_COND_STATEMENT(release_secondary_cpus());

    /* grab BKL before leaving the kernel */
    NODE_LOCK_SYS;

    printf("Booting all finished, dropped to user space\n");

    /* kernel successfully initialized */
    return true;
}

Esempio n. 3

Mostra file

File: boot.c Progetto: mewbak/seL4

BOOT_CODE bool_t
init_sys_state(
    cpu_id_t      cpu_id,
    mem_p_regs_t  mem_p_regs,
    ui_info_t     ui_info,
    p_region_t    boot_mem_reuse_p_reg,
    /* parameters below not modeled in abstract specification */
    uint32_t      num_drhu,
    paddr_t*      drhu_list,
    acpi_rmrr_list_t *rmrr_list,
    seL4_X86_BootInfo_VBE *vbe
)
{
    cap_t         root_cnode_cap;
    vptr_t        extra_bi_frame_vptr;
    vptr_t        bi_frame_vptr;
    vptr_t        ipcbuf_vptr;
    cap_t         it_vspace_cap;
    cap_t         it_ap_cap;
    cap_t         ipcbuf_cap;
    pptr_t        bi_frame_pptr;
    word_t        extra_bi_size = sizeof(seL4_BootInfoHeader);
    region_t      extra_bi_region;
    pptr_t        extra_bi_offset = 0;
    create_frames_of_region_ret_t create_frames_ret;
    create_frames_of_region_ret_t extra_bi_ret;

    /* convert from physical addresses to kernel pptrs */
    region_t ui_reg             = paddr_to_pptr_reg(ui_info.p_reg);
    region_t boot_mem_reuse_reg = paddr_to_pptr_reg(boot_mem_reuse_p_reg);

    /* convert from physical addresses to userland vptrs */
    v_region_t ui_v_reg;
    v_region_t it_v_reg;
    ui_v_reg.start = ui_info.p_reg.start - ui_info.pv_offset;
    ui_v_reg.end   = ui_info.p_reg.end   - ui_info.pv_offset;

    ipcbuf_vptr = ui_v_reg.end;
    bi_frame_vptr = ipcbuf_vptr + BIT(PAGE_BITS);
    extra_bi_frame_vptr = bi_frame_vptr + BIT(PAGE_BITS);

    if (vbe->vbeMode != -1) {
        extra_bi_size += sizeof(seL4_X86_BootInfo_VBE);
    }

    /* The region of the initial thread is the user image + ipcbuf and boot info */
    it_v_reg.start = ui_v_reg.start;
    it_v_reg.end = ROUND_UP(extra_bi_frame_vptr + extra_bi_size, PAGE_BITS);

    init_freemem(ui_info.p_reg, mem_p_regs);

    /* create the root cnode */
    root_cnode_cap = create_root_cnode();

    /* create the IO port cap */
    write_slot(
        SLOT_PTR(pptr_of_cap(root_cnode_cap), seL4_CapIOPort),
        cap_io_port_cap_new(
            0,                /* first port */
            NUM_IO_PORTS - 1, /* last port  */
            VPID_INVALID
        )
    );

    /* create the cap for managing thread domains */
    create_domain_cap(root_cnode_cap);

    /* create the IRQ CNode */
    if (!create_irq_cnode()) {
        return false;
    }

    /* initialise the IRQ states and provide the IRQ control cap */
    init_irqs(root_cnode_cap);

    /* create the bootinfo frame */
    bi_frame_pptr = allocate_bi_frame(0, ksNumCPUs, ipcbuf_vptr);
    if (!bi_frame_pptr) {
        return false;
    }

    extra_bi_region = allocate_extra_bi_region(extra_bi_size);
    if (extra_bi_region.start == 0) {
        return false;
    }

    /* populate vbe info block */
    if (vbe->vbeMode != -1) {
        vbe->header.id = SEL4_BOOTINFO_HEADER_X86_VBE;
        vbe->header.len = sizeof(seL4_X86_BootInfo_VBE);
        memcpy((void*)(extra_bi_region.start + extra_bi_offset), vbe, sizeof(seL4_X86_BootInfo_VBE));
        extra_bi_offset += sizeof(seL4_X86_BootInfo_VBE);
    }

    /* provde a chunk for any leftover padding in the extended boot info */
    seL4_BootInfoHeader padding_header;
    padding_header.id = SEL4_BOOTINFO_HEADER_PADDING;
    padding_header.len = (extra_bi_region.end - extra_bi_region.start) - extra_bi_offset;
    memcpy((void*)(extra_bi_region.start + extra_bi_offset), &padding_header, sizeof(seL4_BootInfoHeader));

    /* Construct an initial address space with enough virtual addresses
     * to cover the user image + ipc buffer and bootinfo frames */
    it_vspace_cap = create_it_address_space(root_cnode_cap, it_v_reg);
    if (cap_get_capType(it_vspace_cap) == cap_null_cap) {
        return false;
    }

    /* Create and map bootinfo frame cap */
    create_bi_frame_cap(
        root_cnode_cap,
        it_vspace_cap,
        bi_frame_pptr,
        bi_frame_vptr
    );

    /* create and map extra bootinfo region */
    extra_bi_ret =
        create_frames_of_region(
            root_cnode_cap,
            it_vspace_cap,
            extra_bi_region,
            true,
            pptr_to_paddr((void*)(extra_bi_region.start - extra_bi_frame_vptr))
        );
    if (!extra_bi_ret.success) {
        return false;
    }
    ndks_boot.bi_frame->extraBIPages = extra_bi_ret.region;

    /* create the initial thread's IPC buffer */
    ipcbuf_cap = create_ipcbuf_frame(root_cnode_cap, it_vspace_cap, ipcbuf_vptr);
    if (cap_get_capType(ipcbuf_cap) == cap_null_cap) {
        return false;
    }

    /* create all userland image frames */
    create_frames_ret =
        create_frames_of_region(
            root_cnode_cap,
            it_vspace_cap,
            ui_reg,
            true,
            ui_info.pv_offset
        );
    if (!create_frames_ret.success) {
        return false;
    }
    ndks_boot.bi_frame->userImageFrames = create_frames_ret.region;

    /* create the initial thread's ASID pool */
    it_ap_cap = create_it_asid_pool(root_cnode_cap);
    if (cap_get_capType(it_ap_cap) == cap_null_cap) {
        return false;
    }
    write_it_asid_pool(it_ap_cap, it_vspace_cap);

    ndks_boot.bi_frame->archInfo = tsc_init();

    /* create the idle thread */
    if (!create_idle_thread()) {
        return false;
    }

    /* create the initial thread */
    if (!create_initial_thread(
                root_cnode_cap,
                it_vspace_cap,
                ui_info.v_entry,
                bi_frame_vptr,
                ipcbuf_vptr,
                ipcbuf_cap
            )) {
        return false;
    }

    if (config_set(CONFIG_IOMMU)) {
        /* initialise VTD-related data structures and the IOMMUs */
        if (!vtd_init(cpu_id, num_drhu, rmrr_list)) {
            return false;
        }

        /* write number of IOMMU PT levels into bootinfo */
        ndks_boot.bi_frame->numIOPTLevels = x86KSnumIOPTLevels;

        /* write IOSpace master cap */
        write_slot(SLOT_PTR(pptr_of_cap(root_cnode_cap), seL4_CapIOSpace), master_iospace_cap());
    } else {
        ndks_boot.bi_frame->numIOPTLevels = -1;
    }

    /* create all of the untypeds. Both devices and kernel window memory */
    if (!create_untypeds(root_cnode_cap, boot_mem_reuse_reg)) {
        return false;
    }
    /* WARNING: alloc_region() must not be called anymore after here! */

    /* finalise the bootinfo frame */
    bi_finalise();

    return true;
}

Esempio n. 4

Mostra file

File: boot.c Progetto: buaacszj/myseL4

BOOT_CODE bool_t
init_node_state(
    p_region_t    avail_p_reg,
    p_region_t    sh_p_reg,
    dev_p_regs_t* dev_p_regs,
    ui_info_t     ui_info,
    p_region_t    boot_mem_reuse_p_reg,
    node_id_t     node_id,
    uint32_t      num_nodes,
    /* parameters below not modeled in abstract specification */
    pdpte_t*      kernel_pdpt,
    pde_t*        kernel_pd,
    pte_t*        kernel_pt
#ifdef CONFIG_IOMMU
    , cpu_id_t      cpu_id,
    uint32_t      num_drhu,
    paddr_t*      drhu_list,
    uint32_t      num_passthrough_dev,
    dev_id_t*     passthrough_dev_list,
    uint32_t*     pci_bus_used_bitmap
#endif
)
{
    cap_t         root_cnode_cap;
    vptr_t        bi_frame_vptr;
    vptr_t        ipcbuf_vptr;
    cap_t         it_vspace_cap;
    cap_t         it_ap_cap;
    cap_t         ipcbuf_cap;
    pptr_t        bi_frame_pptr;
    create_frames_of_region_ret_t create_frames_ret;
    int i;
#ifdef CONFIG_BENCHMARK
    vm_attributes_t buffer_attr = {{ 0 }};
    uint32_t paddr;
    pde_t pde;
#endif /* CONFIG_BENCHMARK */

    /* convert from physical addresses to kernel pptrs */
    region_t avail_reg          = paddr_to_pptr_reg(avail_p_reg);
    region_t ui_reg             = paddr_to_pptr_reg(ui_info.p_reg);
    region_t sh_reg             = paddr_to_pptr_reg(sh_p_reg);
    region_t boot_mem_reuse_reg = paddr_to_pptr_reg(boot_mem_reuse_p_reg);

    /* convert from physical addresses to userland vptrs */
    v_region_t ui_v_reg;
    v_region_t it_v_reg;
    ui_v_reg.start = ui_info.p_reg.start - ui_info.pv_offset;
    ui_v_reg.end   = ui_info.p_reg.end   - ui_info.pv_offset;

    ipcbuf_vptr = ui_v_reg.end;
    bi_frame_vptr = ipcbuf_vptr + BIT(PAGE_BITS);

    /* The region of the initial thread is the user image + ipcbuf and boot info */
    it_v_reg.start = ui_v_reg.start;
    it_v_reg.end = bi_frame_vptr + BIT(PAGE_BITS);

    /* make the free memory available to alloc_region() */
    ndks_boot.freemem[0] = avail_reg;
    for (i = 1; i < MAX_NUM_FREEMEM_REG; i++) {
        ndks_boot.freemem[i] = REG_EMPTY;
    }

    /* initialise virtual-memory-related data structures (not in abstract spec) */
    if (!init_vm_state(kernel_pdpt, kernel_pd, kernel_pt)) {
        return false;
    }

#ifdef CONFIG_BENCHMARK
    /* allocate and create the log buffer */
    buffer_attr.words[0] = IA32_PAT_MT_WRITE_THROUGH;

    paddr = pptr_to_paddr((void *) alloc_region(pageBitsForSize(IA32_LargePage)));

    /* allocate a large frame for logging */
    pde = pde_pde_large_new(
              paddr,                                   /* page_base_address    */
              vm_attributes_get_ia32PATBit(buffer_attr),      /* pat                  */
              0,                                       /* avl_cte_depth        */
              1,                                       /* global               */
              0,                                       /* dirty                */
              0,                                       /* accessed             */
              vm_attributes_get_ia32PCDBit(buffer_attr),      /* cache_disabled       */
              vm_attributes_get_ia32PWTBit(buffer_attr),      /* write_through        */
              0,                                       /* super_user           */
              1,                                       /* read_write           */
              1                                        /* present              */
          );

    /* TODO this shouldn't be hardcoded */
    ia32KSkernelPD[IA32_KSLOG_IDX] = pde;


    /* flush the tlb */
    invalidatePageStructureCache();

    /* if we crash here, the log isn't working */
#ifdef CONFIG_DEBUG_BUILD
    printf("Testing log\n");
    ksLog[0] = 0xdeadbeef;
    printf("Wrote to ksLog %x\n", ksLog[0]);
    assert(ksLog[0] == 0xdeadbeef);
#endif /* CONFIG_DEBUG_BUILD */
#endif /* CONFIG_BENCHMARK */

    /* create the root cnode */
    root_cnode_cap = create_root_cnode();

    /* create the IO port cap */
    write_slot(
        SLOT_PTR(pptr_of_cap(root_cnode_cap), BI_CAP_IO_PORT),
        cap_io_port_cap_new(
            0,                /* first port */
            NUM_IO_PORTS - 1 /* last port  */
        )
    );

    /* create the cap for managing thread domains */
    create_domain_cap(root_cnode_cap);

    /* create the IRQ CNode */
    if (!create_irq_cnode()) {
        return false;
    }

    /* initialise the IRQ states and provide the IRQ control cap */
    init_irqs(root_cnode_cap, node_id != 0);

    /* create the bootinfo frame */
    bi_frame_pptr = allocate_bi_frame(node_id, num_nodes, ipcbuf_vptr);
    if (!bi_frame_pptr) {
        return false;
    }

    /* Construct an initial address space with enough virtual addresses
     * to cover the user image + ipc buffer and bootinfo frames */
    it_vspace_cap = create_it_address_space(root_cnode_cap, it_v_reg);
    if (cap_get_capType(it_vspace_cap) == cap_null_cap) {
        return false;
    }

    /* Create and map bootinfo frame cap */
    create_bi_frame_cap(
        root_cnode_cap,
        it_vspace_cap,
        bi_frame_pptr,
        bi_frame_vptr
    );

    /* create the initial thread's IPC buffer */
    ipcbuf_cap = create_ipcbuf_frame(root_cnode_cap, it_vspace_cap, ipcbuf_vptr);
    if (cap_get_capType(ipcbuf_cap) == cap_null_cap) {
        return false;
    }

    /* create all userland image frames */
    create_frames_ret =
        create_frames_of_region(
            root_cnode_cap,
            it_vspace_cap,
            ui_reg,
            true,
            ui_info.pv_offset
        );
    if (!create_frames_ret.success) {
        return false;
    }
    ndks_boot.bi_frame->ui_frame_caps = create_frames_ret.region;

    /* create the initial thread's ASID pool */
    it_ap_cap = create_it_asid_pool(root_cnode_cap);
    if (cap_get_capType(it_ap_cap) == cap_null_cap) {
        return false;
    }
    write_it_asid_pool(it_ap_cap, it_vspace_cap);

    /*
     * Initialise the NULL FPU state. This is different from merely zero'ing it
     * out (i.e., the NULL FPU state is non-zero), and must be performed before
     * the first thread is created.
     */
    resetFpu();
    saveFpuState(&ia32KSnullFpuState);
    ia32KSfpuOwner = NULL;

    /* create the idle thread */
    if (!create_idle_thread()) {
        return false;
    }

    /* create the initial thread */
    if (!create_initial_thread(
                root_cnode_cap,
                it_vspace_cap,
                ui_info.v_entry,
                bi_frame_vptr,
                ipcbuf_vptr,
                ipcbuf_cap
            )) {
        return false;
    }

#ifdef CONFIG_IOMMU
    /* initialise VTD-related data structures and the IOMMUs */
    if (!vtd_init(cpu_id, num_drhu, pci_bus_used_bitmap, num_passthrough_dev, passthrough_dev_list)) {
        return false;
    }

    /* write number of IOMMU PT levels into bootinfo */
    ndks_boot.bi_frame->num_iopt_levels = ia32KSnumIOPTLevels;

    /* write IOSpace master cap */
    write_slot(SLOT_PTR(pptr_of_cap(root_cnode_cap), BI_CAP_IO_SPACE), master_iospace_cap());
#endif

    /* convert the remaining free memory into UT objects and provide the caps */
    if (!create_untypeds(root_cnode_cap, boot_mem_reuse_reg)) {
        return false;
    }
    /* WARNING: alloc_region() must not be called anymore after here! */

    /* create device frames */
    if (!create_device_frames(root_cnode_cap, dev_p_regs)) {
        return false;
    }

    /* create all shared frames */
    create_frames_ret =
        create_frames_of_region(
            root_cnode_cap,
            it_vspace_cap,
            sh_reg,
            false,
            0
        );
    if (!create_frames_ret.success) {
        return false;
    }
    ndks_boot.bi_frame->sh_frame_caps = create_frames_ret.region;;

    /* finalise the bootinfo frame */
    bi_finalise();

#ifdef DEBUG
    ia32KSconsolePort = console_port_of_node(node_id);
    ia32KSdebugPort = debug_port_of_node(node_id);
#endif

    return true;
}