;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; ;; ;; Copyright (C) KolibriOS team 2004-2020. All rights reserved. ;; ;; Distributed under terms of the GNU General Public License ;; ;; ;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; $Revision$ align 4 proc alloc_page pushfd cli push ebx ;//- cmp [pg_data.pages_free], 1 jle .out_of_memory ;//- mov ebx, [page_start] mov ecx, [page_end] .l1: bsf eax, [ebx]; jnz .found add ebx, 4 cmp ebx, ecx jb .l1 pop ebx popfd xor eax, eax ret .found: ;//- dec [pg_data.pages_free] jz .out_of_memory ;//- btr [ebx], eax mov [page_start], ebx sub ebx, sys_pgmap lea eax, [eax+ebx*8] shl eax, 12 ;//- dec [pg_data.pages_free] pop ebx popfd ret ;//- .out_of_memory: mov [pg_data.pages_free], 1 xor eax, eax pop ebx popfd ret ;//- endp align 4 proc alloc_pages stdcall, count:dword pushfd push ebx push edi cli mov eax, [count] add eax, 7 shr eax, 3 mov [count], eax ;//- mov ebx, [pg_data.pages_free] sub ebx, 9 js .out_of_memory shr ebx, 3 cmp eax, ebx jg .out_of_memory ;//- mov ecx, [page_start] mov ebx, [page_end] .find: mov edx, [count] mov edi, ecx .match: cmp byte [ecx], 0xFF jne .next dec edx jz .ok inc ecx cmp ecx, ebx jb .match .out_of_memory: .fail: xor eax, eax pop edi pop ebx popfd ret .next: inc ecx cmp ecx, ebx jb .find pop edi pop ebx popfd xor eax, eax ret .ok: sub ecx, edi inc ecx push esi mov esi, edi xor eax, eax rep stosb sub esi, sys_pgmap shl esi, 3+12 mov eax, esi mov ebx, [count] shl ebx, 3 sub [pg_data.pages_free], ebx pop esi pop edi pop ebx popfd ret endp align 4 ;proc map_page stdcall,lin_addr:dword,phis_addr:dword,flags:dword map_page: push ebx mov eax, [esp+12] ; phis_addr or eax, [esp+16] ; flags and eax, [pte_valid_mask] mov ebx, [esp+8] ; lin_addr shr ebx, 12 mov [page_tabs+ebx*4], eax mov eax, [esp+8] ; lin_addr pop ebx invlpg [eax] ret 12 align 4 map_space: ;not implemented ret align 4 proc free_page ;arg: eax page address pushfd cli shr eax, 12 ;page index bts dword [sys_pgmap], eax ;that's all! cmc adc [pg_data.pages_free], 0 shr eax, 3 and eax, not 3 ;dword offset from page_map add eax, sys_pgmap cmp [page_start], eax ja @f popfd ret @@: mov [page_start], eax popfd ret endp align 4 proc map_io_mem stdcall, base:dword, size:dword, flags:dword push ebx push edi mov eax, [size] add eax, [base] add eax, 4095 and eax, -4096 mov ecx, [base] and ecx, -4096 sub eax, ecx mov [size], eax stdcall alloc_kernel_space, eax test eax, eax jz .fail push eax mov edi, 0x1000 mov ebx, eax mov ecx, [size] mov edx, [base] shr eax, 12 shr ecx, 12 or edx, [flags] and edx, [pte_valid_mask] @@: mov [page_tabs+eax*4], edx invlpg [ebx] inc eax add ebx, edi add edx, edi loop @B pop eax mov edx, [base] and edx, 4095 add eax, edx .fail: pop edi pop ebx ret endp ; param ; eax= page base + page flags ; ebx= linear address ; ecx= count align 4 commit_pages: test ecx, ecx jz .fail push edi push eax push ecx mov ecx, pg_data.mutex call mutex_lock pop ecx pop eax and eax, [pte_valid_mask ] mov edi, ebx shr edi, 12 lea edi, [page_tabs+edi*4] @@: stosd invlpg [ebx] add eax, 0x1000 add ebx, 0x1000 loop @B pop edi mov ecx, pg_data.mutex call mutex_unlock .fail: ret ; param ; eax= base ; ecx= count align 4 release_pages: push ebp push esi push edi push ebx mov esi, eax mov edi, eax shr esi, 12 lea esi, [page_tabs+esi*4] push ecx mov ecx, pg_data.mutex call mutex_lock pop ecx mov ebp, [pg_data.pages_free] mov ebx, [page_start] mov edx, sys_pgmap @@: xor eax, eax xchg eax, [esi] invlpg [edi] test eax, 1 jz .next shr eax, 12 bts [edx], eax cmc adc ebp, 0 shr eax, 3 and eax, -4 add eax, edx cmp eax, ebx jae .next mov ebx, eax .next: add edi, 0x1000 add esi, 4 loop @B mov [pg_data.pages_free], ebp mov ecx, pg_data.mutex call mutex_unlock pop ebx pop edi pop esi pop ebp ret ; param ; eax= base ; ecx= count align 4 unmap_pages: push edi mov edi, eax mov edx, eax shr edi, 10 add edi, page_tabs xor eax, eax @@: stosd invlpg [edx] add edx, 0x1000 loop @b pop edi ret align 4 proc map_page_table stdcall, lin_addr:dword, phis_addr:dword push ebx mov ebx, [lin_addr] shr ebx, 22 mov eax, [phis_addr] and eax, not 0xFFF or eax, PG_UWR mov dword [master_tab+ebx*4], eax mov eax, [lin_addr] shr eax, 10 add eax, page_tabs invlpg [eax] pop ebx ret endp uglobal sb16_buffer_allocated db 0 endg ; Allocates [.size] bytes so that the target memory block ; is inside one 64K page for 24-bit DMA controller, ; that is, somewhere between 00xx0000h and 00xxFFFFh. proc alloc_dma24 ; Implementation note. ; The only user of that function is SB16 driver, ; so just return a statically allocated buffer. virtual at esp dd ? ; return address .size dd ? end virtual cmp [sb16_buffer_allocated], 0 jnz .fail inc [sb16_buffer_allocated] mov eax, SB16Buffer ret 4 .fail: xor eax, eax ret 4 endp ; Allocates a physical page for master page table ; that duplicates first Mb of OS_BASE at address 0; ; used for starting APs and for shutting down, ; where it is important to execute code in trivial-mapped pages. ; Returns eax = allocated physical page. proc create_trampoline_pgmap ; The only non-trivial moment: ; we need a linear address to fill information, ; but we don't need it outside of this function, ; so we're returning physical address. ; Therefore, allocate memory with kernel_alloc, ; this will allocate physical page and a linear address somewhere, ; and deallocate only linear address with free_kernel_space. stdcall kernel_alloc, 0x1000 mov edi, eax mov esi, master_tab mov ecx, 1024 rep movsd mov ecx, [master_tab+(OS_BASE shr 20)] mov [eax], ecx mov edi, eax call get_pg_addr push eax stdcall free_kernel_space, edi pop eax ret endp align 4 proc new_mem_resize stdcall, new_size:dword push ebx push esi push edi mov edx, [current_slot] mov ebx, [edx+APPDATA.process] cmp [ebx+PROC.heap_base], 0 jne .exit mov edi, [new_size] add edi, 4095 and edi, not 4095 mov [new_size], edi mov esi, [ebx+PROC.mem_used] add esi, 4095 and esi, not 4095 cmp edi, esi ja .expand je .exit mov ebx, edi shr edi, 12 shr esi, 12 mov ecx, pg_data.mutex call mutex_lock @@: mov eax, [app_page_tabs+edi*4] test eax, 1 jz .next mov dword [app_page_tabs+edi*4], 0 invlpg [ebx] call free_page .next: inc edi add ebx, 0x1000 cmp edi, esi jb @B mov ecx, pg_data.mutex call mutex_unlock .update_size: mov edx, [current_slot] mov ebx, [new_size] mov edx, [edx+APPDATA.process] mov [edx+PROC.mem_used], ebx .exit: pop edi pop esi pop ebx xor eax, eax ret .expand: mov ecx, pg_data.mutex call mutex_lock xchg esi, edi push esi ;new size push edi ;old size add edi, 0x3FFFFF and edi, not(0x3FFFFF) add esi, 0x3FFFFF and esi, not(0x3FFFFF) cmp edi, esi jae .grow @@: call alloc_page test eax, eax jz .exit_fail stdcall map_page_table, edi, eax push edi shr edi, 10 add edi, page_tabs mov ecx, 1024 xor eax, eax cld rep stosd pop edi add edi, 0x00400000 cmp edi, esi jb @B .grow: pop edi ;old size pop ecx ;new size shr edi, 10 shr ecx, 10 sub ecx, edi shr ecx, 2 ;pages count mov eax, 2 add edi, app_page_tabs rep stosd mov ecx, pg_data.mutex call mutex_unlock jmp .update_size .exit_fail: mov ecx, pg_data.mutex call mutex_unlock add esp, 8 pop edi pop esi pop ebx xor eax, eax inc eax ret endp ; param ; eax= linear address ; ; retval ; eax= phisical page address align 4 get_pg_addr: sub eax, OS_BASE cmp eax, 0x400000 jb @f shr eax, 12 mov eax, [page_tabs+(eax+(OS_BASE shr 12))*4] @@: and eax, 0xFFFFF000 ret align 4 ; Now it is called from core/sys32::exc_c (see stack frame there) proc page_fault_handler .err_addr equ ebp-4 push ebx ;save exception number (#PF) mov ebp, esp mov ebx, cr2 push ebx ;that is locals: .err_addr = cr2 inc [pg_data.pages_faults] mov eax, [pf_err_code] cmp ebx, OS_BASE ;ebx == .err_addr jb .user_space ;страница в памяти приложения ; cmp ebx, page_tabs jb .kernel_space ;страница в памяти ядра cmp ebx, kernel_tabs jb .alloc;.app_tabs ;таблицы страниц приложения ; ;просто создадим одну .core_tabs: .fail: ;simply return to caller mov esp, ebp pop ebx ;restore exception number (#PF) ret .user_space: test eax, PG_READ jnz .err_access ;Страница присутствует ;Ошибка доступа ? shr ebx, 12 mov ecx, ebx shr ecx, 10 mov edx, [master_tab+ecx*4] test edx, PG_READ jz .fail ;таблица страниц не создана ;неверный адрес в программе mov eax, [page_tabs+ebx*4] test eax, 2 jz .fail ;адрес не зарезервирован для ; ;использования. Ошибка .alloc: call alloc_page test eax, eax jz .fail stdcall map_page, [.err_addr], eax, PG_UWR mov edi, [.err_addr] and edi, 0xFFFFF000 mov ecx, 1024 xor eax, eax ;cld ;caller is duty for this rep stosd .exit: ;iret with repeat fault instruction add esp, 12;clear in stack: locals(.err_addr) + #PF + ret_to_caller restore_ring3_context iretd .err_access: ; access denied? this may be a result of copy-on-write protection for DLL ; check list of HDLLs and ebx, not 0xFFF mov eax, [current_process] mov eax, [eax+PROC.dlls_list_ptr] test eax, eax jz .fail mov esi, [eax+HDLL.fd] .scan_hdll: cmp esi, eax jz .fail mov edx, ebx sub edx, [esi+HDLL.base] cmp edx, [esi+HDLL.size] jb .fault_in_hdll .scan_hdll.next: mov esi, [esi+HDLL.fd] jmp .scan_hdll .fault_in_hdll: ; allocate new page, map it as rw and copy data call alloc_page test eax, eax jz .fail stdcall map_page, ebx, eax, PG_UWR mov edi, ebx mov ecx, 1024 sub ebx, [esi+HDLL.base] mov esi, [esi+HDLL.parent] mov esi, [esi+DLLDESCR.data] add esi, ebx rep movsd jmp .exit .kernel_space: test eax, PG_READ jz .fail ;страница не присутствует test eax, 12 ;U/S (+below) jnz .fail ;приложение обратилось к памяти ;ядра ;test eax, 8 ;jnz .fail ;установлен зарезервированный бит ;в таблицах страниц. добавлено в P4/Xeon ;попытка записи в защищённую страницу ядра cmp ebx, tss._io_map_0 jb .fail cmp ebx, tss._io_map_0+8192 jae .fail ; io permission map ; copy-on-write protection call alloc_page test eax, eax jz .fail push eax stdcall map_page, [.err_addr], eax, dword PG_SWR pop eax mov edi, [.err_addr] and edi, -4096 lea esi, [edi+(not tss._io_map_0)+1]; -tss._io_map_0 mov ebx, esi shr ebx, 12 mov edx, [current_slot] or eax, PG_SWR mov [edx+APPDATA.io_map+ebx*4], eax add esi, [default_io_map] mov ecx, 4096/4 ;cld ;caller is duty for this rep movsd jmp .exit endp ; returns number of mapped bytes proc map_mem_ipc stdcall, lin_addr:dword,slot:dword,\ ofs:dword,buf_size:dword,req_access:dword locals count dd ? process dd ? endl mov [count], 0 cmp [buf_size], 0 jz .exit mov eax, [slot] shl eax, 8 mov eax, [SLOT_BASE+eax+APPDATA.process] test eax, eax jz .exit mov [process], eax mov ebx, [ofs] shr ebx, 22 mov eax, [eax+PROC.pdt_0+ebx*4] ;get page table mov esi, [ipc_ptab] and eax, 0xFFFFF000 jz .exit stdcall map_page, esi, eax, PG_SWR @@: mov edi, [lin_addr] and edi, 0xFFFFF000 mov ecx, [buf_size] add ecx, 4095 shr ecx, 12 inc ecx ; ??????????? mov edx, [ofs] shr edx, 12 and edx, 0x3FF .map: stdcall safe_map_page, [slot], [req_access], [ofs] jnc .exit add [count], PAGE_SIZE add [ofs], PAGE_SIZE dec ecx jz .exit add edi, PAGE_SIZE inc edx cmp edx, 1024 jnz .map inc ebx mov eax, [process] mov eax, [eax+PROC.pdt_0+ebx*4] and eax, 0xFFFFF000 jz .exit stdcall map_page, esi, eax, PG_SWR xor edx, edx jmp .map .exit: mov eax, [count] ret endp proc map_memEx stdcall, lin_addr:dword,slot:dword,\ ofs:dword,buf_size:dword,req_access:dword locals count dd ? process dd ? endl mov [count], 0 cmp [buf_size], 0 jz .exit mov eax, [slot] shl eax, 8 mov eax, [SLOT_BASE+eax+APPDATA.process] test eax, eax jz .exit mov [process], eax mov ebx, [ofs] shr ebx, 22 mov eax, [eax+PROC.pdt_0+ebx*4] ;get page table mov esi, [proc_mem_tab] and eax, 0xFFFFF000 jz .exit stdcall map_page, esi, eax, PG_SWR @@: mov edi, [lin_addr] and edi, 0xFFFFF000 mov ecx, [buf_size] add ecx, 4095 shr ecx, 12 inc ecx ; ??????????? mov edx, [ofs] shr edx, 12 and edx, 0x3FF .map: stdcall safe_map_page, [slot], [req_access], [ofs] jnc .exit add [count], PAGE_SIZE add [ofs], PAGE_SIZE dec ecx jz .exit add edi, PAGE_SIZE inc edx cmp edx, 1024 jnz .map inc ebx mov eax, [process] mov eax, [eax+PROC.pdt_0+ebx*4] and eax, 0xFFFFF000 jz .exit stdcall map_page, esi, eax, PG_SWR xor edx, edx jmp .map .exit: mov eax, [count] ret endp ; in: esi+edx*4 = pointer to page table entry ; in: [slot], [req_access], [ofs] on the stack ; in: edi = linear address to map ; out: CF cleared <=> failed ; destroys: only eax proc safe_map_page stdcall, slot:dword, req_access:dword, ofs:dword mov eax, [esi+edx*4] test al, PG_READ jz .not_present test al, PG_WRITE jz .resolve_readonly ; normal case: writable page, just map with requested access .map: stdcall map_page, edi, eax, [req_access] stc .fail: ret .not_present: ; check for alloc-on-demand page test al, 2 jz .fail ; allocate new page, save it to source page table push ecx call alloc_page pop ecx test eax, eax jz .fail or al, PG_UWR mov [esi+edx*4], eax jmp .map .resolve_readonly: ; readonly page, probably copy-on-write ; check: readonly request of readonly page is ok test [req_access], PG_WRITE jz .map ; find control structure for this page pushf cli cld push ebx ecx mov eax, [slot] shl eax, 8 mov eax, [SLOT_BASE+eax+APPDATA.process] mov eax, [eax+PROC.dlls_list_ptr] test eax, eax jz .no_hdll mov ecx, [eax+HDLL.fd] .scan_hdll: cmp ecx, eax jz .no_hdll mov ebx, [ofs] and ebx, not 0xFFF sub ebx, [ecx+HDLL.base] cmp ebx, [ecx+HDLL.size] jb .hdll_found mov ecx, [ecx+HDLL.fd] jmp .scan_hdll .no_hdll: pop ecx ebx popf clc ret .hdll_found: ; allocate page, save it in page table, map it, copy contents from base mov eax, [ecx+HDLL.parent] add ebx, [eax+DLLDESCR.data] call alloc_page test eax, eax jz .no_hdll or al, PG_UWR mov [esi+edx*4], eax stdcall map_page, edi, eax, [req_access] push esi edi mov esi, ebx mov ecx, 4096/4 rep movsd pop edi esi pop ecx ebx popf stc ret endp sys_IPC: ;input: ; ebx=1 - set ipc buffer area ; ecx=address of buffer ; edx=size of buffer ; eax=2 - send message ; ebx=PID ; ecx=address of message ; edx=size of message dec ebx jnz @f mov eax, [current_slot] pushf cli mov [eax+APPDATA.ipc_start], ecx ;set fields in extended information area mov [eax+APPDATA.ipc_size], edx add edx, ecx add edx, 4095 and edx, not 4095 .touch: mov eax, [ecx] add ecx, 0x1000 cmp ecx, edx jb .touch popf mov [esp+32], ebx ;ebx=0 ret ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;2 @@: dec ebx jnz @f stdcall sys_ipc_send, ecx, edx, esi mov [esp+32], eax ret @@: or eax, -1 mov [esp+32], eax ret proc sys_ipc_send stdcall, PID:dword, msg_addr:dword, msg_size:dword locals dst_slot dd ? dst_offset dd ? buf_size dd ? used_buf dd ? endl pushf cli mov eax, [PID] call pid_to_slot test eax, eax jz .no_pid mov [dst_slot], eax shl eax, 8 mov edi, [eax+SLOT_BASE+APPDATA.ipc_start] ;is ipc area defined? test edi, edi jz .no_ipc_area mov ebx, edi and ebx, 0xFFF mov [dst_offset], ebx mov esi, [eax+SLOT_BASE+APPDATA.ipc_size] mov [buf_size], esi mov ecx, [ipc_tmp] cmp esi, 0x40000-0x1000; size of [ipc_tmp] minus one page jbe @f push esi edi add esi, 0x1000 stdcall alloc_kernel_space, esi mov ecx, eax pop edi esi @@: mov [used_buf], ecx stdcall map_mem_ipc, ecx, [dst_slot], \ edi, esi, PG_SWR mov edi, [dst_offset] add edi, [used_buf] cmp dword [edi], 0 jnz .ipc_blocked ;if dword [buffer]<>0 - ipc blocked now mov edx, dword [edi+4] lea ebx, [edx+8] add ebx, [msg_size] cmp ebx, [buf_size] ja .buffer_overflow ;esi<0 - not enough memory in buffer mov dword [edi+4], ebx mov eax, [TASK_BASE] mov eax, [eax+0x04] ;eax - our PID add edi, edx mov [edi], eax mov ecx, [msg_size] mov [edi+4], ecx add edi, 8 mov esi, [msg_addr] ; add esi, new_app_base cld rep movsb mov ebx, [ipc_tmp] mov edx, ebx shr ebx, 12 xor eax, eax mov [page_tabs+ebx*4], eax invlpg [edx] mov ebx, [ipc_pdir] mov edx, ebx shr ebx, 12 xor eax, eax mov [page_tabs+ebx*4], eax invlpg [edx] mov ebx, [ipc_ptab] mov edx, ebx shr ebx, 12 xor eax, eax mov [page_tabs+ebx*4], eax invlpg [edx] mov eax, [dst_slot] shl eax, 8 or [eax+SLOT_BASE+0xA8], dword 0x40 push 0 jmp .ret .no_pid: popf mov eax, 4 ret .no_ipc_area: popf xor eax, eax inc eax ret .ipc_blocked: push 2 jmp .ret .buffer_overflow: push 3 .ret: mov eax, [used_buf] cmp eax, [ipc_tmp] je @f stdcall free_kernel_space, eax @@: pop eax popf ret endp align 4 sysfn_meminfo: cmp ecx, OS_BASE jae .fail mov eax, [pg_data.pages_count] mov [ecx], eax shl eax, 12 mov [esp+32], eax mov eax, [pg_data.pages_free] mov [ecx+4], eax mov eax, [pg_data.pages_faults] mov [ecx+8], eax mov eax, [heap_size] mov [ecx+12], eax mov eax, [heap_free] mov [ecx+16], eax mov eax, [heap_blocks] mov [ecx+20], eax mov eax, [free_blocks] mov [ecx+24], eax ret .fail: or dword [esp+32], -1 ret align 4 f68: cmp ebx, 4 jbe sys_sheduler cmp ebx, 11 jb undefined_syscall cmp ebx, 29 ja undefined_syscall xor eax, eax jmp dword [f68call+ebx*4-11*4] .11: call init_heap mov [esp+SYSCALL_STACK._eax], eax ret .12: stdcall user_alloc, ecx mov [esp+SYSCALL_STACK._eax], eax ret .13: stdcall user_free, ecx mov [esp+SYSCALL_STACK._eax], eax ret .14: cmp ecx, OS_BASE jae .fail mov edi, ecx call get_event_ex mov [esp+SYSCALL_STACK._eax], eax ret .16: test ecx, ecx jz .fail cmp ecx, OS_BASE jae .fail stdcall get_service, ecx mov [esp+SYSCALL_STACK._eax], eax ret .17: call srv_handlerEx ;ecx mov [esp+SYSCALL_STACK._eax], eax ret .18: mov eax, edx .19: cmp ecx, OS_BASE jae .fail stdcall load_library, ecx, eax mov [esp+SYSCALL_STACK._eax], eax ret .20: mov eax, edx mov ebx, ecx call user_realloc ;in: eax = pointer, ebx = new size mov [esp+SYSCALL_STACK._eax], eax ret .21: cmp ecx, OS_BASE jae .fail cmp edx, OS_BASE jae .fail stdcall load_pe_driver, ecx, edx mov [esp+SYSCALL_STACK._eax], eax ret .22: cmp ecx, OS_BASE jae .fail stdcall shmem_open, ecx, edx, esi mov [esp+SYSCALL_STACK._edx], edx mov [esp+SYSCALL_STACK._eax], eax ret .23: cmp ecx, OS_BASE jae .fail stdcall shmem_close, ecx mov [esp+SYSCALL_STACK._eax], eax ret .24: mov eax, [current_slot] xchg ecx, [eax+APPDATA.exc_handler] xchg edx, [eax+APPDATA.except_mask] mov [esp+SYSCALL_STACK._ebx], edx mov [esp+SYSCALL_STACK._eax], ecx ret .25: cmp ecx, 32 jae .fail mov eax, [current_slot] btr [eax+APPDATA.except_mask], ecx setc byte[esp+SYSCALL_STACK._eax] jecxz @f bts [eax+APPDATA.except_mask], ecx @@: ret .26: stdcall user_unmap, ecx, edx, esi mov [esp+SYSCALL_STACK._eax], eax ret .27: cmp ecx, OS_BASE jae .fail stdcall load_file_umode, ecx mov [esp+SYSCALL_STACK._edx], edx mov [esp+SYSCALL_STACK._eax], eax ret .28: cmp ecx, OS_BASE jae .fail push ecx edx stdcall kernel_alloc, maxPathLength mov edi, eax pop eax esi push edi call getFullPath pop ebp test eax, eax jz @f stdcall load_file_umode, ebp mov [esp+SYSCALL_STACK._edx], edx @@: mov [esp+SYSCALL_STACK._eax], eax stdcall kernel_free, ebp ret .29: stdcall user_ring, ecx mov [esp+SYSCALL_STACK._eax], eax ret .fail: mov [esp+SYSCALL_STACK._eax], eax ret align 4 f68call: ; keep this table closer to main code dd f68.11 ; init_heap dd f68.12 ; user_alloc dd f68.13 ; user_free dd f68.14 ; get_event_ex dd f68.fail ; moved to f68.24 dd f68.16 ; get_service dd f68.17 ; call_service dd f68.18 ; loadLibUnicode dd f68.19 ; load_dll dd f68.20 ; user_realloc dd f68.21 ; load_driver dd f68.22 ; shmem_open dd f68.23 ; shmem_close dd f68.24 ; set exception handler dd f68.25 ; unmask exception dd f68.26 ; user_unmap dd f68.27 ; load_file_umode dd f68.28 ; loadFileUnicode dd f68.29 ; user_ring align 4 proc load_pe_driver stdcall, file:dword, cmdline:dword push esi stdcall load_PE, [file] test eax, eax jz .fail mov esi, eax push [cmdline] push DRV_ENTRY call eax pop ecx pop ecx test eax, eax jz .fail mov [eax+SRV.entry], esi pop esi ret .fail: xor eax, eax pop esi ret endp align 4 proc create_ring_buffer stdcall, size:dword, flags:dword locals buf_ptr dd ? endl mov eax, [size] test eax, eax jz .fail add eax, eax stdcall alloc_kernel_space, eax test eax, eax jz .fail push ebx mov [buf_ptr], eax mov ebx, [size] shr ebx, 12 push ebx stdcall alloc_pages, ebx pop ecx test eax, eax jz .mm_fail push edi or eax, [flags] mov edi, [buf_ptr] mov ebx, [buf_ptr] mov edx, ecx shl edx, 2 shr edi, 10 @@: mov [page_tabs+edi], eax mov [page_tabs+edi+edx], eax invlpg [ebx] invlpg [ebx+0x10000] add eax, 0x1000 add ebx, 0x1000 add edi, 4 dec ecx jnz @B mov eax, [buf_ptr] pop edi pop ebx ret .mm_fail: stdcall free_kernel_space, [buf_ptr] xor eax, eax pop ebx .fail: ret endp align 4 proc print_mem mov edi, BOOT.memmap_blocks mov ecx, [edi-4] test ecx, ecx jz .done @@: mov eax, [edi] mov edx, [edi+4] add eax, [edi+8] adc edx, [edi+12] DEBUGF 1, "K : E820 %x%x - %x%x type %d\n", \ [edi+4], [edi],\ edx, eax, [edi+16] add edi, 20 dec ecx jnz @b .done: ret endp