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 {
EFI_SYSTEM_TABLE = -7,
HYPERVISOR_LOG = -6,
FRAMEBUFFER = -5,
ACPI_XSDT = -4,
ACPI_RSDT = -3,
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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;
uint8_t acpi_id;
uint8_t family;
uint8_t model;
uint8_t stepping:4;
uint8_t platform:3;
uint8_t reserved:1;
uint32_t patch;
} __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 *>(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.
*/
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 package = 0; package < 255; package++) {
for (uint8_t core = 0; core < 255; core++) {
for (uint8_t thread = 0; thread < 255; thread++) {
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;
}
template <typename FUNC>
void for_each_enabled_cpu(FUNC const &func) const
{
for (unsigned i = 0; i < cpu_max(); i++) {
Cpu_desc const * cpu = cpu_desc_of_cpu(i);
if (!is_cpu_enabled(i)) continue;
if (!cpu) return;
func(*cpu, i);
}
}
} __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:
Follow practices suggested by "Effective C++" The patch adjust the code of the base, base-<kernel>, and os repository. To adapt existing components to fix violations of the best practices suggested by "Effective C++" as reported by the -Weffc++ compiler argument. The changes follow the patterns outlined below: * A class with virtual functions can no longer publicly inherit base classed without a vtable. The inherited object may either be moved to a member variable, or inherited privately. The latter would be used for classes that inherit 'List::Element' or 'Avl_node'. In order to enable the 'List' and 'Avl_tree' to access the meta data, the 'List' must become a friend. * Instead of adding a virtual destructor to abstract base classes, we inherit the new 'Interface' class, which contains a virtual destructor. This way, single-line abstract base classes can stay as compact as they are now. The 'Interface' utility resides in base/include/util/interface.h. * With the new warnings enabled, all member variables must be explicitly initialized. Basic types may be initialized with '='. All other types are initialized with braces '{ ... }' or as class initializers. If basic types and non-basic types appear in a row, it is nice to only use the brace syntax (also for basic types) and align the braces. * If a class contains pointers as members, it must now also provide a copy constructor and assignment operator. In the most cases, one would make them private, effectively disallowing the objects to be copied. Unfortunately, this warning cannot be fixed be inheriting our existing 'Noncopyable' class (the compiler fails to detect that the inheriting class cannot be copied and still gives the error). For now, we have to manually add declarations for both the copy constructor and assignment operator as private class members. Those declarations should be prepended with a comment like this: /* * Noncopyable */ Thread(Thread const &); Thread &operator = (Thread const &); In the future, we should revisit these places and try to replace the pointers with references. In the presence of at least one reference member, the compiler would no longer implicitly generate a copy constructor. So we could remove the manual declaration. Issue #465
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mword_t _value { 0 };
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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; }
Follow practices suggested by "Effective C++" The patch adjust the code of the base, base-<kernel>, and os repository. To adapt existing components to fix violations of the best practices suggested by "Effective C++" as reported by the -Weffc++ compiler argument. The changes follow the patterns outlined below: * A class with virtual functions can no longer publicly inherit base classed without a vtable. The inherited object may either be moved to a member variable, or inherited privately. The latter would be used for classes that inherit 'List::Element' or 'Avl_node'. In order to enable the 'List' and 'Avl_tree' to access the meta data, the 'List' must become a friend. * Instead of adding a virtual destructor to abstract base classes, we inherit the new 'Interface' class, which contains a virtual destructor. This way, single-line abstract base classes can stay as compact as they are now. The 'Interface' utility resides in base/include/util/interface.h. * With the new warnings enabled, all member variables must be explicitly initialized. Basic types may be initialized with '='. All other types are initialized with braces '{ ... }' or as class initializers. If basic types and non-basic types appear in a row, it is nice to only use the brace syntax (also for basic types) and align the braces. * If a class contains pointers as members, it must now also provide a copy constructor and assignment operator. In the most cases, one would make them private, effectively disallowing the objects to be copied. Unfortunately, this warning cannot be fixed be inheriting our existing 'Noncopyable' class (the compiler fails to detect that the inheriting class cannot be copied and still gives the error). For now, we have to manually add declarations for both the copy constructor and assignment operator as private class members. Those declarations should be prepended with a comment like this: /* * Noncopyable */ Thread(Thread const &); Thread &operator = (Thread const &); In the future, we should revisit these places and try to replace the pointers with references. In the presence of at least one reference member, the compiler would no longer implicitly generate a copy constructor. So we could remove the manual declaration. Issue #465
2017-12-21 14:42:15 +00:00
} __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_PT_XCPU = 0x10U,
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 {
/* 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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};
/* message payload */
mword_t * msg() { return reinterpret_cast<mword_t *>(&mtd); }
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struct Item {
mword_t crd;
mword_t hotspot;
bool is_del() const { 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_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_ */