genode/repos/base-nova/include/nova/syscall-generic.h

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/*
* \brief Syscall bindings for the NOVA microhypervisor
* \author Norman Feske
* \author Sebastian Sumpf
* \author Alexander Boettcher
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* \date 2009-12-27
*/
/*
* Copyright (c) 2009 Genode Labs
*
* 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.
*/
#ifndef _INCLUDE__NOVA__SYSCALL_GENERIC_H_
#define _INCLUDE__NOVA__SYSCALL_GENERIC_H_
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#include <nova/stdint.h>
namespace Nova {
enum {
PAGE_SIZE_LOG2 = 12,
PAGE_SIZE_BYTE = 1 << PAGE_SIZE_LOG2,
PAGE_MASK_ = ~(PAGE_SIZE_BYTE - 1)
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};
/**
* NOVA system-call IDs
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*/
enum Syscall {
NOVA_CALL = 0x0,
NOVA_REPLY = 0x1,
NOVA_CREATE_PD = 0x2,
NOVA_CREATE_EC = 0x3,
NOVA_CREATE_SC = 0x4,
NOVA_CREATE_PT = 0x5,
NOVA_CREATE_SM = 0x6,
NOVA_REVOKE = 0x7,
NOVA_LOOKUP = 0x8,
NOVA_EC_CTRL = 0x9,
NOVA_SC_CTRL = 0xa,
NOVA_PT_CTRL = 0xb,
NOVA_SM_CTRL = 0xc,
NOVA_ASSIGN_PCI = 0xd,
NOVA_ASSIGN_GSI = 0xe,
NOVA_PD_CTRL = 0xf,
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};
/**
* NOVA status codes returned by system-calls
*/
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enum Status
{
NOVA_OK = 0,
NOVA_TIMEOUT = 1,
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NOVA_IPC_ABORT = 2,
NOVA_INV_HYPERCALL = 3,
NOVA_INV_SELECTOR = 4,
NOVA_INV_PARAMETER = 5,
NOVA_INV_FEATURE = 6,
NOVA_INV_CPU = 7,
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NOVA_INVD_DEVICE_ID = 8,
NOVA_PD_OOM = 9,
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};
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/**
* Hypervisor information page
*/
struct Hip
{
struct Mem_desc
{
enum Type {
MULTIBOOT_MODULE = -2,
MICROHYPERVISOR = -1,
AVAILABLE_MEMORY = 1,
RESERVED_MEMORY = 2,
ACPI_RECLAIM_MEMORY = 3,
ACPI_NVS_MEMORY = 4
};
uint64_t const addr;
uint64_t const size;
Type const type;
uint32_t const aux;
};
uint32_t const signature; /* magic value 0x41564f4e */
uint16_t const hip_checksum;
uint16_t const hip_length;
uint16_t const cpu_desc_offset;
uint16_t const cpu_desc_size;
uint16_t const mem_desc_offset;
uint16_t const mem_desc_size;
uint32_t const feature_flags;
uint32_t const api_version;
uint32_t const sel; /* number of cap selectors */
uint32_t const sel_exc; /* number of cap selectors for exceptions */
uint32_t const sel_vm; /* number of cap selectors for VM handling */
uint32_t const sel_gsi; /* number of global system interrupts */
uint32_t const page_sizes; /* supported page sizes */
uint32_t const utcb_sizes; /* supported utcb sizes */
uint32_t const tsc_freq; /* time-stamp counter frequency in kHz */
uint32_t const bus_freq; /* bus frequency in kHz */
bool has_feature_vmx() const { return feature_flags & (1 << 1); }
bool has_feature_svm() const { return feature_flags & (1 << 2); }
struct Cpu_desc {
uint8_t flags;
uint8_t thread;
uint8_t core;
uint8_t package;
} __attribute__((packed));
unsigned cpu_max() const {
return (mem_desc_offset - cpu_desc_offset) / cpu_desc_size; }
unsigned cpus() const {
unsigned cpu_num = 0;
for (unsigned i = 0; i < cpu_max(); i++)
if (is_cpu_enabled(i))
cpu_num++;
return cpu_num;
}
Cpu_desc const * cpu_desc_of_cpu(unsigned i) const {
if (i >= cpu_max())
return nullptr;
unsigned long desc_addr = reinterpret_cast<unsigned long>(this) +
cpu_desc_offset + i * cpu_desc_size;
return reinterpret_cast<Cpu_desc const * const>(desc_addr);
}
bool is_cpu_enabled(unsigned i) const {
Cpu_desc const * const desc = cpu_desc_of_cpu(i);
return desc ? desc->flags & 0x1 : false;
}
/**
* Map kernel cpu ids to virtual cpu ids.
* Assign first all cores on all packages with thread 0 to virtual
* cpu id numbers, afterwards all (hyper-)threads.
*/
bool remap_cpu_ids(uint8_t *map_cpus, unsigned const boot_cpu) const {
unsigned const num_cpus = cpus();
unsigned cpu_i = 0;
/* assign boot cpu ever the virtual cpu id 0 */
Cpu_desc const * const boot = cpu_desc_of_cpu(boot_cpu);
if (!boot || !is_cpu_enabled(boot_cpu))
return false;
map_cpus[cpu_i++] = boot_cpu;
if (cpu_i >= num_cpus)
return true;
/* assign remaining cores and afterwards all threads to the ids */
for (uint8_t thread = 0; thread < 255; thread++) {
for (uint8_t package = 0; package < 255; package++) {
for (uint8_t core = 0; core < 255; core++) {
for (unsigned i = 0; i < cpu_max(); i++) {
if (i == boot_cpu || !is_cpu_enabled(i))
continue;
Cpu_desc const * const c = cpu_desc_of_cpu(i);
if (!c)
continue;
if (!(c->package == package && c->core == core &&
c->thread == thread))
continue;
map_cpus [cpu_i++] = i;
if (cpu_i >= num_cpus)
return true;
}
}
}
}
return false;
}
} __attribute__((packed));
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/**
* Semaphore operations
*/
enum Sem_op { SEMAPHORE_UP = 0U, SEMAPHORE_DOWN = 1U, SEMAPHORE_DOWNZERO = 0x3U };
/**
* Ec operations
*/
enum Ec_op { EC_RECALL = 0U, EC_YIELD = 1U, EC_DONATE_SC = 2U, EC_RESCHEDULE = 3U };
/**
* Pd operations
*/
enum Pd_op { TRANSFER_QUOTA = 0U, PD_DEBUG = 2U };
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class Descriptor
{
protected:
mword_t _value;
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/**
* Assign bitfield to descriptor
*/
template<mword_t MASK, mword_t SHIFT>
void _assign(mword_t new_bits)
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{
_value &= ~(MASK << SHIFT);
_value |= (new_bits & MASK) << SHIFT;
}
/**
* Query bitfield from descriptor
*/
template<mword_t MASK, mword_t SHIFT>
mword_t _query() const { return (_value >> SHIFT) & MASK; }
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public:
mword_t value() const { return _value; }
} __attribute__((packed));
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/**
* Message-transfer descriptor
*/
class Mtd
{
private:
mword_t const _value;
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public:
enum {
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ACDB = 1U << 0, /* eax, ecx, edx, ebx */
EBSD = 1U << 1, /* ebp, esi, edi */
ESP = 1U << 2,
EIP = 1U << 3,
EFL = 1U << 4, /* eflags */
ESDS = 1U << 5,
FSGS = 1U << 6,
CSSS = 1U << 7,
TR = 1U << 8,
LDTR = 1U << 9,
GDTR = 1U << 10,
IDTR = 1U << 11,
CR = 1U << 12,
DR = 1U << 13, /* DR7 */
SYS = 1U << 14, /* Sysenter MSRs CS, ESP, EIP */
QUAL = 1U << 15, /* exit qualification */
CTRL = 1U << 16, /* execution controls */
INJ = 1U << 17, /* injection info */
STA = 1U << 18, /* interruptibility state */
TSC = 1U << 19, /* time-stamp counter */
EFER = 1U << 20, /* EFER MSR */
PDPTE = 1U << 21, /* PDPTE0 .. PDPTE3 */
R8_R15 = 1U << 22, /* R8 .. R15 */
SYSCALL_SWAPGS = 1U << 23, /* SYSCALL and SWAPGS MSRs */
TPR = 1U << 24, /* TPR and TPR threshold */
FPU = 1U << 31, /* FPU state */
IRQ = EFL | STA | INJ | TSC,
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ALL = (0x000fffff & ~CTRL) | EFER | R8_R15 | SYSCALL_SWAPGS | TPR,
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};
Mtd(mword_t value) : _value(value) { }
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mword_t value() const { return _value; }
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};
class Crd : public Descriptor
{
protected:
/**
* Bitfield holding the descriptor type
*/
enum {
TYPE_MASK = 0x3, TYPE_SHIFT = 0,
BASE_SHIFT = 12, RIGHTS_MASK = 0x1f,
ORDER_MASK = 0x1f, ORDER_SHIFT = 7,
BASE_MASK = (~0UL) >> BASE_SHIFT,
RIGHTS_SHIFT= 2
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};
/**
* Capability-range-descriptor types
*/
enum {
NULL_CRD_TYPE = 0,
MEM_CRD_TYPE = 1,
IO_CRD_TYPE = 2,
OBJ_CRD_TYPE = 3,
RIGHTS_ALL = 0x1f,
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};
void _base(mword_t base)
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{ _assign<BASE_MASK, BASE_SHIFT>(base); }
void _order(mword_t order)
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{ _assign<ORDER_MASK, ORDER_SHIFT>(order); }
public:
Crd(mword_t base, mword_t order) {
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_value = 0; _base(base), _order(order); }
Crd(mword_t value) { _value = value; }
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mword_t hotspot(mword_t sel_hotspot) const
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{
if ((value() & TYPE_MASK) == MEM_CRD_TYPE)
return sel_hotspot & PAGE_MASK_;
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return sel_hotspot << 12;
}
mword_t addr() const { return base() << BASE_SHIFT; }
mword_t base() const { return _query<BASE_MASK, BASE_SHIFT>(); }
mword_t order() const { return _query<ORDER_MASK, ORDER_SHIFT>(); }
bool is_null() const { return (_value & TYPE_MASK) == NULL_CRD_TYPE; }
uint8_t type() const { return _query<TYPE_MASK, TYPE_SHIFT>(); }
uint8_t rights() const { return _query<RIGHTS_MASK, RIGHTS_SHIFT>(); }
} __attribute__((packed));
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class Rights
{
private:
bool const _readable, _writeable, _executable;
public:
Rights(bool readable, bool writeable, bool executable)
: _readable(readable), _writeable(writeable),
_executable(executable) { }
Rights() : _readable(false), _writeable(false), _executable(false) {}
bool readable() const { return _readable; }
bool writeable() const { return _writeable; }
bool executable() const { return _executable; }
};
/**
* Memory-capability-range descriptor
*/
class Mem_crd : public Crd
{
private:
enum {
EXEC_MASK = 0x1, EXEC_SHIFT = 4,
WRITE_MASK = 0x1, WRITE_SHIFT = 3,
READ_MASK = 0x1, READ_SHIFT = 2
};
void _rights(Rights r)
{
_assign<EXEC_MASK, EXEC_SHIFT>(r.executable());
_assign<WRITE_MASK, WRITE_SHIFT>(r.writeable());
_assign<READ_MASK, READ_SHIFT>(r.readable());
}
public:
Mem_crd(mword_t base, mword_t order, Rights rights = Rights())
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: Crd(base, order)
{
_rights(rights);
_assign<TYPE_MASK, TYPE_SHIFT>(MEM_CRD_TYPE);
}
Rights rights() const
{
return Rights(_query<READ_MASK, READ_SHIFT>(),
_query<WRITE_MASK, WRITE_SHIFT>(),
_query<EXEC_MASK, EXEC_SHIFT>());
}
};
/**
* I/O-capability-range descriptor
*/
class Io_crd : public Crd
{
public:
Io_crd(mword_t base, mword_t order)
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: Crd(base, order)
{
_assign<TYPE_MASK, TYPE_SHIFT>(IO_CRD_TYPE);
_assign<RIGHTS_MASK, RIGHTS_SHIFT>(RIGHTS_ALL);
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}
};
class Obj_crd : public Crd
{
public:
enum {
RIGHT_EC_RECALL = 0x1U,
RIGHT_PT_CALL = 0x2U,
RIGHT_PT_CTRL = 0x1U,
RIGHT_SM_UP = 0x1U,
RIGHT_SM_DOWN = 0x2U
};
Obj_crd() : Crd(0, 0)
{
_assign<TYPE_MASK, TYPE_SHIFT>(NULL_CRD_TYPE);
}
Obj_crd(mword_t base, mword_t order,
mword_t rights = RIGHTS_ALL)
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: Crd(base, order)
{
_assign<TYPE_MASK, TYPE_SHIFT>(OBJ_CRD_TYPE);
_assign<RIGHTS_MASK, RIGHTS_SHIFT>(rights);
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}
};
/**
* Quantum-priority descriptor
*/
class Qpd : public Descriptor
{
private:
enum {
PRIORITY_MASK = 0xff, PRIORITY_SHIFT = 0,
QUANTUM_SHIFT = 12,
QUANTUM_MASK = (~0UL) >> QUANTUM_SHIFT
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};
void _quantum(mword_t quantum)
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{ _assign<QUANTUM_MASK, QUANTUM_SHIFT>(quantum); }
void _priority(mword_t priority)
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{ _assign<PRIORITY_MASK, PRIORITY_SHIFT>(priority); }
public:
enum { DEFAULT_QUANTUM = 10000, DEFAULT_PRIORITY = 64 };
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Qpd(mword_t quantum = DEFAULT_QUANTUM,
mword_t priority = DEFAULT_PRIORITY)
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{
_value = 0;
_quantum(quantum), _priority(priority);
}
mword_t quantum() const { return _query<QUANTUM_MASK, QUANTUM_SHIFT>(); }
mword_t priority() const { return _query<PRIORITY_MASK, PRIORITY_SHIFT>(); }
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};
/**
* User-level thread-control block
*/
struct Utcb
{
/**
* Return physical size of UTCB in bytes
*/
static constexpr mword_t size() { return 4096; }
/**
* Number of untyped items uses lowest 16 bit, number of typed items
* uses bit 16-31, bit 32+ are ignored on 64bit
*/
mword_t items;
Crd crd_xlt; /* receive capability-range descriptor for translation */
Crd crd_rcv; /* receive capability-range descriptor for delegation */
mword_t tls;
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/**
* Data area
*
* The UTCB entries following the header hold message payload (normal
* IDC operations) or architectural state (exception handling).
*/
union {
/* message payload */
mword_t msg[];
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/* exception state */
struct {
mword_t mtd, instr_len, ip, flags;
unsigned intr_state, actv_state, inj_info, inj_error;
mword_t ax, cx, dx, bx;
mword_t sp, bp, si, di;
#ifdef __x86_64__
mword_t r8, r9, r10, r11, r12, r13, r14, r15;
#endif
unsigned long long qual[2]; /* exit qualification */
unsigned ctrl[2];
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unsigned long long reserved;
mword_t cr0, cr2, cr3, cr4;
mword_t pdpte[4];
#ifdef __x86_64__
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mword_t cr8, efer;
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unsigned long long star;
unsigned long long lstar;
unsigned long long fmask;
unsigned long long kernel_gs_base;
unsigned tpr;
unsigned tpr_threshold;
#endif
mword_t dr7, sysenter_cs, sysenter_sp, sysenter_ip;
struct {
unsigned short sel, ar;
unsigned limit;
mword_t base;
#ifndef __x86_64__
mword_t reserved;
#endif
} es, cs, ss, ds, fs, gs, ldtr, tr;
struct {
unsigned reserved0;
unsigned limit;
mword_t base;
#ifndef __x86_64__
mword_t reserved1;
#endif
} gdtr, idtr;
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unsigned long long tsc_val, tsc_off;
} __attribute__((packed));
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};
struct Item {
mword_t crd;
mword_t hotspot;
bool is_del() { return hotspot & 0x1; }
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};
#ifdef __x86_64__
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inline mword_t read_r8() { return r8; }
inline void write_r8(mword_t value) { r8 = value; }
inline mword_t read_r9() { return r9; }
inline void write_r9(mword_t value) { r9 = value; }
inline mword_t read_r10() { return r10; }
inline void write_r10(mword_t value) { r10 = value; }
inline mword_t read_r11() { return r11; }
inline void write_r11(mword_t value) { r11 = value; }
inline mword_t read_r12() { return r12; }
inline void write_r12(mword_t value) { r12 = value; }
inline mword_t read_r13() { return r13; }
inline void write_r13(mword_t value) { r13 = value; }
inline mword_t read_r14() { return r14; }
inline void write_r14(mword_t value) { r14 = value; }
inline mword_t read_r15() { return r15; }
inline void write_r15(mword_t value) { r15 = value; }
inline mword_t read_efer() { return efer; }
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inline void write_efer(mword_t value) { efer = value; }
inline mword_t read_star() { return star; }
inline void write_star(mword_t value) { star = value; }
inline mword_t read_lstar() { return lstar; }
inline void write_lstar(mword_t value) { lstar = value; }
inline mword_t read_fmask() { return fmask; }
inline void write_fmask(mword_t value) { fmask = value; }
inline mword_t read_kernel_gs_base() { return kernel_gs_base; }
inline void write_kernel_gs_base(mword_t value) { kernel_gs_base = value; }
inline uint32_t read_tpr() { return tpr; }
inline void write_tpr(uint32_t value) { tpr = value; }
inline uint32_t read_tpr_threshold() { return tpr_threshold; }
inline void write_tpr_threshold(uint32_t value) { tpr_threshold = value; }
#else
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inline mword_t read_r8() { return 0UL; }
inline void write_r8(mword_t) { }
inline mword_t read_r9() { return 0UL; }
inline void write_r9(mword_t) { }
inline mword_t read_r10() { return 0UL; }
inline void write_r10(mword_t) { }
inline mword_t read_r11() { return 0UL; }
inline void write_r11(mword_t) { }
inline mword_t read_r12() { return 0UL; }
inline void write_r12(mword_t) { }
inline mword_t read_r13() { return 0UL; }
inline void write_r13(mword_t) { }
inline mword_t read_r14() { return 0UL; }
inline void write_r14(mword_t) { }
inline mword_t read_r15() { return 0UL; }
inline void write_r15(mword_t) { }
inline mword_t read_efer() { return 0UL; }
inline void write_efer(mword_t) { }
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inline mword_t read_star() { return 0UL; }
inline void write_star(mword_t) { }
inline mword_t read_lstar() { return 0UL; }
inline void write_lstar(mword_t) { }
inline mword_t read_fmask() { return 0UL; }
inline void write_fmask(mword_t) { }
inline mword_t read_kernel_gs_base() { return 0UL; }
inline void write_kernel_gs_base(mword_t) { }
inline uint32_t read_tpr() { return 0; }
inline void write_tpr(uint32_t) { }
inline uint32_t read_tpr_threshold() { return 0; }
inline void write_tpr_threshold(uint32_t) { }
#endif
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/**
* Set number of untyped message words
*
* Calling this function has the side effect of removing all typed
* message items from the message buffer.
*/
void set_msg_word(unsigned num) { items = num; }
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/**
* Return current number of message word in UTCB
*/
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unsigned msg_words() { return items & 0xffffU; }
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/**
* Return current number of message items on UTCB
*/
unsigned msg_items() { return items >> 16; }
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/**
* Append message-transfer item to message buffer
*
* \param exception true to append the item to an exception reply
*/
__attribute__((warn_unused_result))
bool append_item(Crd crd, mword_t sel_hotspot,
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bool kern_pd = false,
bool update_guest_pt = false,
bool translate_map = false,
bool dma_mem = false,
bool write_combined = false)
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{
/* transfer items start at the end of the UTCB */
items += 1 << 16;
Item *item = reinterpret_cast<Item *>(this);
item += (PAGE_SIZE_BYTE / sizeof(struct Item)) - msg_items();
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/* check that there is enough space left on UTCB */
if (msg + msg_words() >= reinterpret_cast<mword_t *>(item)) {
items -= 1 << 16;
return false;
}
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/* map from hypervisor or current pd */
unsigned h = kern_pd ? (1 << 11) : 0;
/* map write-combined */
unsigned wc = write_combined ? (1 << 10) : 0;
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/* update guest page table */
unsigned g = update_guest_pt ? (1 << 9) : 0;
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/* mark memory dma able */
unsigned d = dma_mem ? (1 << 8) : 0;
/* set type of delegation, either 'map' or 'translate and map' */
unsigned m = translate_map ? 2 : 1;
item->hotspot = crd.hotspot(sel_hotspot) | g | h | wc | d | m;
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item->crd = crd.value();
return true;
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}
/**
* Return typed item at postion i in UTCB
*
* \param i position of item requested, starts with 0
*/
Item * get_item(const unsigned i) {
if (i > (PAGE_SIZE_BYTE / sizeof(struct Item))) return 0;
Item * item = reinterpret_cast<Item *>(this) + (PAGE_SIZE_BYTE / sizeof(struct Item)) - i - 1;
if (reinterpret_cast<mword_t *>(item) < this->msg) return 0;
return item;
}
mword_t mtd_value() const { return static_cast<Mtd>(mtd).value(); }
} __attribute__((packed));
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/**
* Size of event-specific portal window mapped at PD creation time
*/
enum {
NUM_INITIAL_PT_LOG2 = 5,
NUM_INITIAL_PT = 1UL << NUM_INITIAL_PT_LOG2,
NUM_INITIAL_PT_RESERVED = 2 * NUM_INITIAL_PT,
NUM_INITIAL_VCPU_PT_LOG2 = 8,
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};
/**
* Event-specific capability selectors
*/
enum {
PT_SEL_PAGE_FAULT = 0xe,
PT_SEL_PARENT = 0x1a, /* convention on Genode */
PT_SEL_MAIN_PAGER = 0x1b, /* convention on Genode */
PT_SEL_MAIN_EC = 0x1c, /* convention on Genode */
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PT_SEL_STARTUP = 0x1e,
PT_SEL_RECALL = 0x1f,
SM_SEL_EC = 0x1d, /* convention on Genode */
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};
}
#endif /* _INCLUDE__NOVA__SYSCALL_GENERIC_H_ */