acadia/zion/object/address_space.h

#pragma once

#include <stdint.h>

#include "lib/ref_ptr.h"
#include "memory/user_stack_manager.h"
#include "object/memory_object.h"

class AddressSpace;

template <>
struct KernelObjectTag<AddressSpace> {
  static const uint64_t type = KernelObject::ADDRESS_SPACE;
};

// VirtualMemory class holds a memory space for an individual process.
//
// Memory Regions are predefined for simplicity for now. However, in general
// we try not to rely on these regions being static to allow for flexibility in
// the future.
//
// User Regions (Per Process):
// 0x00000000 00000000 - 0x0000000F FFFFFFFF : USER_CODE (64 GiB)
// 0x00000010 00000000 - 0x0000001F FFFFFFFF : USER_HEAP (64 GiB)
// 0x00000020 00000000 - 0x0000002F FFFFFFFF : MEM_MAP (64 GiB)
// 0x00000040 00000000 - 0x0000004F FFFFFFFF : IPC_BUF (64 GiB)
// 0x00007FF0 00000000 - 0x00007FFF FFFFFFFF : USER_STACK (64 GiB)
//
// Kernel Regions (Shared across processes):
// 0xFFFF8000 00000000 - 0xFFFF800F FFFFFFFF : HHDM (64 GiB)
// 0xFFFFFFFF 40000000 - 0xFFFFFFFF 7FFFFFFF : KERNEL_HEAP (1 GiB)
// 0xFFFFFFFF 80000000 - 0xFFFFFFFF 80FFFFFF : KERNEL_CODE (16 MiB)
// 0xFFFFFFFF 90000000 - 0xFFFFFFFF 9FFFFFFF : KERNEL_STACK (256 MiB)
class AddressSpace : public KernelObject {
 public:
  uint64_t TypeTag() override { return KernelObject::ADDRESS_SPACE; }

  enum MemoryType {
    UNSPECIFIED,
    UNMAPPED,
    USER_CODE,
    USER_HEAP,
    MEM_MAP,
    IPC_BUF,
    USER_STACK,
    HHDM,
    KERNEL_HEAP,
    KERNEL_CODE,
    KERNEL_STACK,
  };

  static RefPtr<AddressSpace> ForRoot();

  AddressSpace();
  AddressSpace(const AddressSpace&) = delete;
  AddressSpace(AddressSpace&&) = delete;

  uint64_t cr3() { return cr3_; }

  // User Mappings.
  uint64_t AllocateUserStack();
  uint64_t GetNextMemMapAddr(uint64_t size);

  // Maps in a memory object at a specific address.
  // Note this is unsafe for now as it may clobber other mappings.
  void MapInMemoryObject(uint64_t vaddr, const RefPtr<MemoryObject>& mem_obj);

  uint64_t MapInMemoryObject(const RefPtr<MemoryObject>& mem_obj);

  // Kernel Mappings.
  uint64_t* AllocateKernelStack();

  // Returns true if the page fault has been resolved.
  bool HandlePageFault(uint64_t vaddr);

 private:
  friend class MakeRefCountedFriend<AddressSpace>;
  AddressSpace(uint64_t cr3) : cr3_(cr3) {}
  uint64_t cr3_ = 0;

  UserStackManager user_stacks_;
  uint64_t next_memmap_addr_ = 0x20'00000000;

  struct MemoryMapping {
    uint64_t vaddr;
    RefPtr<MemoryObject> mem_obj;
  };
  LinkedList<MemoryMapping> memory_mappings_;

  MemoryMapping* GetMemoryMappingForAddr(uint64_t vaddr);
};
Add a process spawn syscall and use it to start a proc. Also add a skeleton VirtualMemory manager to be used per process. 2023-05-30 20:55:03 -07:00			`#pragma once`

			`#include <stdint.h>`

Create a MemoryObject class and use it to load programs. 2023-06-06 21:44:10 -07:00			`#include "lib/ref_ptr.h"`
add a class to allocate and manage user space stacks 2023-05-30 22:35:57 -07:00			`#include "memory/user_stack_manager.h"`
Create a MemoryObject class and use it to load programs. 2023-06-06 21:44:10 -07:00			`#include "object/memory_object.h"`
Add a process spawn syscall and use it to start a proc. Also add a skeleton VirtualMemory manager to be used per process. 2023-05-30 20:55:03 -07:00
[zion] Dynamically check Capability type. Instead of passing an enum with the capability when creating it, relying on polymorphism and a template struct tag to determine the object type at runtime. This is cleaner and avoids errors where we pass the wrong capability type with the cap and do a bad cast at runtime. 2023-06-16 14:53:57 -07:00			`class AddressSpace;`

			`template <>`
			`struct KernelObjectTag<AddressSpace> {`
			`static const uint64_t type = KernelObject::ADDRESS_SPACE;`
			`};`

Add a process spawn syscall and use it to start a proc. Also add a skeleton VirtualMemory manager to be used per process. 2023-05-30 20:55:03 -07:00			`// VirtualMemory class holds a memory space for an individual process.`
			`//`
			`// Memory Regions are predefined for simplicity for now. However, in general`
			`// we try not to rely on these regions being static to allow for flexibility in`
			`// the future.`
			`//`
			`// User Regions (Per Process):`
			`// 0x00000000 00000000 - 0x0000000F FFFFFFFF : USER_CODE (64 GiB)`
			`// 0x00000010 00000000 - 0x0000001F FFFFFFFF : USER_HEAP (64 GiB)`
			`// 0x00000020 00000000 - 0x0000002F FFFFFFFF : MEM_MAP (64 GiB)`
			`// 0x00000040 00000000 - 0x0000004F FFFFFFFF : IPC_BUF (64 GiB)`
add a class to allocate and manage user space stacks 2023-05-30 22:35:57 -07:00			`// 0x00007FF0 00000000 - 0x00007FFF FFFFFFFF : USER_STACK (64 GiB)`
Add a process spawn syscall and use it to start a proc. Also add a skeleton VirtualMemory manager to be used per process. 2023-05-30 20:55:03 -07:00			`//`
			`// Kernel Regions (Shared across processes):`
			`// 0xFFFF8000 00000000 - 0xFFFF800F FFFFFFFF : HHDM (64 GiB)`
			`// 0xFFFFFFFF 40000000 - 0xFFFFFFFF 7FFFFFFF : KERNEL_HEAP (1 GiB)`
			`// 0xFFFFFFFF 80000000 - 0xFFFFFFFF 80FFFFFF : KERNEL_CODE (16 MiB)`
			`// 0xFFFFFFFF 90000000 - 0xFFFFFFFF 9FFFFFFF : KERNEL_STACK (256 MiB)`
Spawn Processes using memory primitives rather than and elf loader. This allows us to remove the temporary syscall for that style of process spawn. 2023-06-07 00:04:53 -07:00			`class AddressSpace : public KernelObject {`
Add a process spawn syscall and use it to start a proc. Also add a skeleton VirtualMemory manager to be used per process. 2023-05-30 20:55:03 -07:00			`public:`
[zion] Dynamically check Capability type. Instead of passing an enum with the capability when creating it, relying on polymorphism and a template struct tag to determine the object type at runtime. This is cleaner and avoids errors where we pass the wrong capability type with the cap and do a bad cast at runtime. 2023-06-16 14:53:57 -07:00			`uint64_t TypeTag() override { return KernelObject::ADDRESS_SPACE; }`

Add a process spawn syscall and use it to start a proc. Also add a skeleton VirtualMemory manager to be used per process. 2023-05-30 20:55:03 -07:00			`enum MemoryType {`
			`UNSPECIFIED,`
			`UNMAPPED,`
			`USER_CODE,`
			`USER_HEAP,`
			`MEM_MAP,`
			`IPC_BUF,`
			`USER_STACK,`
			`HHDM,`
			`KERNEL_HEAP,`
			`KERNEL_CODE,`
			`KERNEL_STACK,`
			`};`

Spawn Processes using memory primitives rather than and elf loader. This allows us to remove the temporary syscall for that style of process spawn. 2023-06-07 00:04:53 -07:00			`static RefPtr<AddressSpace> ForRoot();`
Move PML4 initialization into the VirtualMemory class. 2023-05-30 21:39:19 -07:00
Move VirtualMemory to AddressSpace Object 2023-06-06 20:43:15 -07:00			`AddressSpace();`
			`AddressSpace(const AddressSpace&) = delete;`
			`AddressSpace(AddressSpace&&) = delete;`
Add a process spawn syscall and use it to start a proc. Also add a skeleton VirtualMemory manager to be used per process. 2023-05-30 20:55:03 -07:00
Move PML4 initialization into the VirtualMemory class. 2023-05-30 21:39:19 -07:00			`uint64_t cr3() { return cr3_; }`

add a class to allocate and manage user space stacks 2023-05-30 22:35:57 -07:00			`// User Mappings.`
			`uint64_t AllocateUserStack();`
Manage KernelStacks separately rather than just allocing bytes. Create a global KernelStackManager that will handle the relevant allocs. 2023-05-30 21:27:20 -07:00			`uint64_t GetNextMemMapAddr(uint64_t size);`

Create a MemoryObject class and use it to load programs. 2023-06-06 21:44:10 -07:00			`// Maps in a memory object at a specific address.`
			`// Note this is unsafe for now as it may clobber other mappings.`
			`void MapInMemoryObject(uint64_t vaddr, const RefPtr<MemoryObject>& mem_obj);`

Spawn Processes using memory primitives rather than and elf loader. This allows us to remove the temporary syscall for that style of process spawn. 2023-06-07 00:04:53 -07:00			`uint64_t MapInMemoryObject(const RefPtr<MemoryObject>& mem_obj);`

add a class to allocate and manage user space stacks 2023-05-30 22:35:57 -07:00			`// Kernel Mappings.`
Manage KernelStacks separately rather than just allocing bytes. Create a global KernelStackManager that will handle the relevant allocs. 2023-05-30 21:27:20 -07:00			`uint64_t* AllocateKernelStack();`
Add a process spawn syscall and use it to start a proc. Also add a skeleton VirtualMemory manager to be used per process. 2023-05-30 20:55:03 -07:00
Create a MemoryObject class and use it to load programs. 2023-06-06 21:44:10 -07:00			`// Returns true if the page fault has been resolved.`
			`bool HandlePageFault(uint64_t vaddr);`

Add a process spawn syscall and use it to start a proc. Also add a skeleton VirtualMemory manager to be used per process. 2023-05-30 20:55:03 -07:00			`private:`
Spawn Processes using memory primitives rather than and elf loader. This allows us to remove the temporary syscall for that style of process spawn. 2023-06-07 00:04:53 -07:00			`friend class MakeRefCountedFriend<AddressSpace>;`
Move VirtualMemory to AddressSpace Object 2023-06-06 20:43:15 -07:00			`AddressSpace(uint64_t cr3) : cr3_(cr3) {}`
Add a process spawn syscall and use it to start a proc. Also add a skeleton VirtualMemory manager to be used per process. 2023-05-30 20:55:03 -07:00			`uint64_t cr3_ = 0;`

add a class to allocate and manage user space stacks 2023-05-30 22:35:57 -07:00			`UserStackManager user_stacks_;`
Add a process spawn syscall and use it to start a proc. Also add a skeleton VirtualMemory manager to be used per process. 2023-05-30 20:55:03 -07:00			`uint64_t next_memmap_addr_ = 0x20'00000000;`
Create a MemoryObject class and use it to load programs. 2023-06-06 21:44:10 -07:00
			`struct MemoryMapping {`
			`uint64_t vaddr;`
			`RefPtr<MemoryObject> mem_obj;`
			`};`
			`LinkedList<MemoryMapping> memory_mappings_;`

			`MemoryMapping* GetMemoryMappingForAddr(uint64_t vaddr);`
Add a process spawn syscall and use it to start a proc. Also add a skeleton VirtualMemory manager to be used per process. 2023-05-30 20:55:03 -07:00			`};`