acadia/zion/scheduler/thread.cpp

#include "scheduler/thread.h"

#include "common/gdt.h"
#include "debug/debug.h"
#include "loader/elf_loader.h"
#include "memory/paging_util.h"
#include "scheduler/process.h"
#include "scheduler/scheduler.h"

namespace {

extern "C" void jump_user_space(uint64_t rip, uint64_t rsp);

extern "C" void thread_init() {
  asm("sti");
  sched::CurrentThread().Init();
  panic("Reached end of thread.");
}

}  // namespace

SharedPtr<Thread> Thread::RootThread(Process* root_proc) {
  return new Thread(root_proc);
}

Thread::Thread(const SharedPtr<Process>& proc, uint64_t tid, uint64_t elf_ptr)
    : process_(proc), id_(tid), elf_ptr_(elf_ptr) {
  uint64_t* stack = new uint64_t[512];
  uint64_t* stack_ptr = stack + 511;
  // 0: rip
  *(stack_ptr) = reinterpret_cast<uint64_t>(thread_init);
  // 1-4: rax, rcx, rdx, rbx
  // 5: rbp
  *(stack_ptr - 5) = reinterpret_cast<uint64_t>(stack_ptr + 1);
  // 6-15: rsi, rdi, r8, r9, r10, r11, r12, r13, r14, r15
  // 16: cr3
  *(stack_ptr - 16) = proc->cr3();
  rsp0_ = reinterpret_cast<uint64_t>(stack_ptr - 16);
  rsp0_start_ = reinterpret_cast<uint64_t>(stack_ptr);
}

uint64_t Thread::pid() { return process_->id(); }

void Thread::Init() {
  dbgln("[%u.%u]", pid(), id_);
  uint64_t rip = LoadElfProgram(elf_ptr_, 0);
  uint64_t rsp = 0x80000000;
  EnsureResident(rsp - 1, 1);
  SetRsp0(rsp0_start_);
  jump_user_space(rip, rsp);
}

void Thread::Exit() {
  dbgln("[%u.%u] Exiting", pid(), id_);
  state_ = FINISHED;
  process_->CheckState();
  sched::Yield();
}
Add Scheduler wireframe. Right now does nothing but has containing classes for process and thread information. 2023-05-18 12:43:53 -07:00			`#include "scheduler/thread.h"`

Jump to user mode. This instantly creates a page fault as we always map pages with ring 0 permissions. 2023-05-29 12:44:26 -07:00			`#include "common/gdt.h"`
Scheduler with working threads. Currently only one process but it is a start. 2023-05-18 13:24:02 -07:00			`#include "debug/debug.h"`
Add a kernel ELF module and load it in a new process. Don't yet jump to userspace. 2023-05-29 00:32:54 -07:00			`#include "loader/elf_loader.h"`
Jump to user mode. This instantly creates a page fault as we always map pages with ring 0 permissions. 2023-05-29 12:44:26 -07:00			`#include "memory/paging_util.h"`
Add Scheduler wireframe. Right now does nothing but has containing classes for process and thread information. 2023-05-18 12:43:53 -07:00			`#include "scheduler/process.h"`
Scheduler with working threads. Currently only one process but it is a start. 2023-05-18 13:24:02 -07:00			`#include "scheduler/scheduler.h"`

			`namespace {`

Jump to user mode. This instantly creates a page fault as we always map pages with ring 0 permissions. 2023-05-29 12:44:26 -07:00			`extern "C" void jump_user_space(uint64_t rip, uint64_t rsp);`

Scheduler with working threads. Currently only one process but it is a start. 2023-05-18 13:24:02 -07:00			`extern "C" void thread_init() {`
			`asm("sti");`
Cycle through multiple tasks in multiple processes 2023-05-18 13:56:54 -07:00			`sched::CurrentThread().Init();`
			`panic("Reached end of thread.");`
Scheduler with working threads. Currently only one process but it is a start. 2023-05-18 13:24:02 -07:00			`}`

			`} // namespace`

Move Processes and Threads to be stored in SharedPtr Reference counting lets us pass these around a bit more easily. SharedPtr was lightly tested using uint64_t in the main zion funcion. Also add a sleep functionality instead of panicking. Functionally the same right now since we don't preempt. 2023-05-29 15:50:38 -07:00			`SharedPtr<Thread> Thread::RootThread(Process* root_proc) {`
			`return new Thread(root_proc);`
			`}`
Scheduler with working threads. Currently only one process but it is a start. 2023-05-18 13:24:02 -07:00
Move Processes and Threads to be stored in SharedPtr Reference counting lets us pass these around a bit more easily. SharedPtr was lightly tested using uint64_t in the main zion funcion. Also add a sleep functionality instead of panicking. Functionally the same right now since we don't preempt. 2023-05-29 15:50:38 -07:00			`Thread::Thread(const SharedPtr<Process>& proc, uint64_t tid, uint64_t elf_ptr)`
Add a kernel ELF module and load it in a new process. Don't yet jump to userspace. 2023-05-29 00:32:54 -07:00			`: process_(proc), id_(tid), elf_ptr_(elf_ptr) {`
Scheduler with working threads. Currently only one process but it is a start. 2023-05-18 13:24:02 -07:00			`uint64_t* stack = new uint64_t[512];`
			`uint64_t* stack_ptr = stack + 511;`
			`// 0: rip`
			`*(stack_ptr) = reinterpret_cast<uint64_t>(thread_init);`
			`// 1-4: rax, rcx, rdx, rbx`
			`// 5: rbp`
			`*(stack_ptr - 5) = reinterpret_cast<uint64_t>(stack_ptr + 1);`
			`// 6-15: rsi, rdi, r8, r9, r10, r11, r12, r13, r14, r15`
			`// 16: cr3`
			`*(stack_ptr - 16) = proc->cr3();`
			`rsp0_ = reinterpret_cast<uint64_t>(stack_ptr - 16);`
Wireframe for syscalls in place 2023-05-18 16:03:09 -07:00			`rsp0_start_ = reinterpret_cast<uint64_t>(stack_ptr);`
Scheduler with working threads. Currently only one process but it is a start. 2023-05-18 13:24:02 -07:00			`}`
Add Scheduler wireframe. Right now does nothing but has containing classes for process and thread information. 2023-05-18 12:43:53 -07:00
			`uint64_t Thread::pid() { return process_->id(); }`
Cycle through multiple tasks in multiple processes 2023-05-18 13:56:54 -07:00
			`void Thread::Init() {`
Jump to user mode. This instantly creates a page fault as we always map pages with ring 0 permissions. 2023-05-29 12:44:26 -07:00			`dbgln("[%u.%u]", pid(), id_);`
			`uint64_t rip = LoadElfProgram(elf_ptr_, 0);`
			`uint64_t rsp = 0x80000000;`
			`EnsureResident(rsp - 1, 1);`
			`SetRsp0(rsp0_start_);`
			`jump_user_space(rip, rsp);`
Cycle through multiple tasks in multiple processes 2023-05-18 13:56:54 -07:00			`}`
Add thread and process states. Add a thread exit call. 2023-05-29 13:51:00 -07:00
			`void Thread::Exit() {`
			`dbgln("[%u.%u] Exiting", pid(), id_);`
			`state_ = FINISHED;`
			`process_->CheckState();`
			`sched::Yield();`
			`}`