Kernel: Stack pointer is validated when updated

This allows us not to fail stack pointer when in syscall since
interrupts use their own stack
This commit is contained in:
Bananymous 2023-04-21 10:40:24 +03:00
parent 3aa0eeb4a3
commit be14a6c239
9 changed files with 37 additions and 23 deletions

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@ -4,6 +4,7 @@ SECTIONS
{ {
. = 0x00100000; . = 0x00100000;
g_kernel_start = .;
.text BLOCK(4K) : ALIGN(4K) .text BLOCK(4K) : ALIGN(4K)
{ {
*(.multiboot) *(.multiboot)
@ -11,9 +12,7 @@ SECTIONS
} }
.rodata BLOCK(4K) : ALIGN(4K) .rodata BLOCK(4K) : ALIGN(4K)
{ {
g_rodata_start = .;
*(.rodata.*) *(.rodata.*)
g_rodata_end = .;
} }
.data BLOCK(4K) : ALIGN(4K) .data BLOCK(4K) : ALIGN(4K)
{ {

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@ -4,6 +4,7 @@ SECTIONS
{ {
. = 0x00100000; . = 0x00100000;
g_kernel_start = .;
.text BLOCK(4K) : ALIGN(4K) .text BLOCK(4K) : ALIGN(4K)
{ {
*(.multiboot) *(.multiboot)
@ -11,9 +12,7 @@ SECTIONS
} }
.rodata BLOCK(4K) : ALIGN(4K) .rodata BLOCK(4K) : ALIGN(4K)
{ {
g_rodata_start = .;
*(.rodata.*) *(.rodata.*)
g_rodata_end = .;
} }
.data BLOCK(4K) : ALIGN(4K) .data BLOCK(4K) : ALIGN(4K)
{ {

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@ -10,9 +10,9 @@ namespace Kernel
{ {
template<typename T1 = void*, typename T2 = void*, typename T3 = void*> template<typename T1 = void*, typename T2 = void*, typename T3 = void*>
inline int syscall(int syscall, T1 arg1 = nullptr, T2 arg2 = nullptr, T3 arg3 = nullptr) inline long syscall(int syscall, T1 arg1 = nullptr, T2 arg2 = nullptr, T3 arg3 = nullptr)
{ {
int ret; long ret;
asm volatile("int $0x80" : "=a"(ret) : "a"(syscall), "b"((uintptr_t)arg1), "c"((uintptr_t)arg2), "d"((uintptr_t)arg3) : "memory"); asm volatile("int $0x80" : "=a"(ret) : "a"(syscall), "b"((uintptr_t)arg1), "c"((uintptr_t)arg2), "d"((uintptr_t)arg3) : "memory");
return ret; return ret;
} }

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@ -33,7 +33,7 @@ namespace Kernel
pid_t tid() const { return m_tid; } pid_t tid() const { return m_tid; }
void set_rsp(uintptr_t rsp) { m_rsp = rsp; } void set_rsp(uintptr_t rsp) { m_rsp = rsp; validate_stack(); }
void set_rip(uintptr_t rip) { m_rip = rip; } void set_rip(uintptr_t rip) { m_rip = rip; }
uintptr_t rsp() const { return m_rsp; } uintptr_t rsp() const { return m_rsp; }
uintptr_t rip() const { return m_rip; } uintptr_t rip() const { return m_rip; }
@ -49,9 +49,13 @@ namespace Kernel
Process& process(); Process& process();
bool has_process() const { return m_process; } bool has_process() const { return m_process; }
void set_in_syscall(bool b) { m_in_syscall = b; }
private: private:
Thread(pid_t tid, Process*); Thread(pid_t tid, Process*);
void validate_stack() const { if (!m_in_syscall) ASSERT(stack_base() <= m_rsp && m_rsp <= stack_base() + stack_size()); }
BAN::ErrorOr<void> initialize(entry_t, void*); BAN::ErrorOr<void> initialize(entry_t, void*);
void on_exit(); void on_exit();
@ -63,6 +67,7 @@ namespace Kernel
const pid_t m_tid { 0 }; const pid_t m_tid { 0 };
State m_state { State::NotStarted }; State m_state { State::NotStarted };
Process* m_process { nullptr }; Process* m_process { nullptr };
bool m_in_syscall { false };
friend class Scheduler; friend class Scheduler;
}; };

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@ -45,7 +45,8 @@ namespace Kernel
[](void* entry_func) [](void* entry_func)
{ {
Thread& current = Thread::current(); Thread& current = Thread::current();
Process::current().m_mmu->map_range(current.stack_base(), current.stack_size(), MMU::Flags::UserSupervisor | MMU::Flags::ReadWrite | MMU::Flags::Present); current.process().m_mmu->map_range(current.stack_base(), current.stack_size(), MMU::Flags::UserSupervisor | MMU::Flags::ReadWrite | MMU::Flags::Present);
current.process().m_mmu->load();
current.jump_userspace((uintptr_t)entry_func); current.jump_userspace((uintptr_t)entry_func);
ASSERT_NOT_REACHED(); ASSERT_NOT_REACHED();
}, (void*)entry }, (void*)entry

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@ -158,8 +158,6 @@ namespace Kernel
current.set_rip(rip); current.set_rip(rip);
current.set_rsp(rsp); current.set_rsp(rsp);
ASSERT(current.stack_base() <= rsp && rsp <= current.stack_base() + current.stack_size());
return false; return false;
} }

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@ -10,29 +10,29 @@ namespace Kernel
Process::current().exit(); Process::current().exit();
} }
int sys_read(int fd, void* buffer, size_t size) long sys_read(int fd, void* buffer, size_t size)
{ {
auto res = Process::current().read(fd, buffer, size); auto res = Process::current().read(fd, buffer, size);
if (res.is_error()) if (res.is_error())
return res.error().get_error_code(); return res.error().get_error_code();
return 0; return res.value();
} }
int sys_write(int fd, const void* buffer, size_t size) long sys_write(int fd, const void* buffer, size_t size)
{ {
auto res = Process::current().write(fd, buffer, size); auto res = Process::current().write(fd, buffer, size);
if (res.is_error()) if (res.is_error())
return res.error().get_error_code(); return res.error().get_error_code();
return 0; return res.value();
} }
extern "C" int cpp_syscall_handler(int syscall, void* arg1, void* arg2, void* arg3) extern "C" long cpp_syscall_handler(int syscall, void* arg1, void* arg2, void* arg3)
{ {
(void)arg1; Thread::current().set_in_syscall(true);
(void)arg2;
(void)arg3;
int ret = 0; asm volatile("sti");
long ret = 0;
switch (syscall) switch (syscall)
{ {
case SYS_EXIT: case SYS_EXIT:
@ -50,6 +50,10 @@ namespace Kernel
break; break;
} }
asm volatile("cli");
Thread::current().set_in_syscall(false);
return ret; return ret;
} }

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@ -99,12 +99,12 @@ namespace BAN::Formatter
} }
extern "C" uintptr_t g_rodata_start;
extern "C" uintptr_t g_rodata_end;
extern "C" uintptr_t g_userspace_start; extern "C" uintptr_t g_userspace_start;
extern "C" uintptr_t g_userspace_end; extern "C" uintptr_t g_userspace_end;
extern "C" uintptr_t g_kernel_start;
extern "C" uintptr_t g_kernel_end;
extern void userspace_entry(); extern void userspace_entry();
static void jump_userspace(); static void jump_userspace();
@ -213,7 +213,7 @@ static void jump_userspace()
using namespace Kernel; using namespace Kernel;
MMU::get().map_range((uintptr_t)&g_userspace_start, (uintptr_t)&g_userspace_end - (uintptr_t)&g_userspace_start, MMU::Flags::UserSupervisor | MMU::Flags::Present); MMU::get().map_range((uintptr_t)&g_userspace_start, (uintptr_t)&g_userspace_end - (uintptr_t)&g_userspace_start, MMU::Flags::UserSupervisor | MMU::Flags::Present);
MMU::get().map_range((uintptr_t)&g_rodata_start, (uintptr_t)&g_rodata_end - (uintptr_t)&g_rodata_start, MMU::Flags::UserSupervisor | MMU::Flags::Present); MMU::get().map_range((uintptr_t)&g_kernel_start, (uintptr_t)&g_kernel_end - (uintptr_t)&g_kernel_start, MMU::Flags::UserSupervisor | MMU::Flags::Present);
MUST(Process::create_userspace(userspace_entry)); MUST(Process::create_userspace(userspace_entry));
} }

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@ -8,5 +8,13 @@
USERSPACE void userspace_entry() USERSPACE void userspace_entry()
{ {
Kernel::syscall(SYS_WRITE, STDOUT_FILENO, "Hello World!", 12); Kernel::syscall(SYS_WRITE, STDOUT_FILENO, "Hello World!", 12);
char buffer[128];
while (true)
{
long n_read = Kernel::syscall(SYS_READ, STDIN_FILENO, buffer, sizeof(buffer));
Kernel::syscall(SYS_WRITE, STDOUT_FILENO, buffer, n_read);
}
Kernel::syscall(SYS_EXIT); Kernel::syscall(SYS_EXIT);
} }