kolibrios/kernel/trunk/bus/pci/pci32.inc
Doczom cf0e9867b0 [KERNEL] updated local labels in functions and other small changes
git-svn-id: svn://kolibrios.org@9910 a494cfbc-eb01-0410-851d-a64ba20cac60
2023-04-08 21:24:05 +00:00

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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; ;;
;; Copyright (C) KolibriOS team 2004-2015. All rights reserved. ;;
;; Distributed under terms of the GNU General Public License ;;
;; ;;
;; ;;
;; PCI32.INC ;;
;; ;;
;; 32 bit PCI driver code ;;
;; ;;
;; Version 0.3 April 9, 2007 ;;
;; Version 0.2 December 21st, 2002 ;;
;; ;;
;; Author: Victor Prodan, victorprodan@yahoo.com ;;
;; Mihailov Ilia, ghost.nsk@gmail.com ;;
;; Credits: ;;
;; Ralf Brown ;;
;; Mike Hibbett, mikeh@oceanfree.net ;;
;; ;;
;; See file COPYING for details ;;
;; ;;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
$Revision$
;***************************************************************************
; Function
; pci_api:
;
; Description
; entry point for system PCI calls
;***************************************************************************
;mmio_pci_addr = 0x400 ; set actual PCI address here to activate user-MMIO
iglobal
align 4
f62call:
dd pci_fn_0
dd pci_fn_1
dd pci_fn_2
dd pci_service_not_supported ;3
dd pci_read_reg ;4 byte
dd pci_read_reg ;5 word
dd pci_read_reg ;6 dword
dd pci_service_not_supported ;7
dd pci_write_reg ;8 byte
dd pci_write_reg ;9 word
dd pci_write_reg ;10 dword
if defined mmio_pci_addr
dd pci_mmio_init ;11
dd pci_mmio_map ;12
dd pci_mmio_unmap ;13
end if
endg
align 4
pci_api:
;cross
mov eax, ebx
mov ebx, ecx
mov ecx, edx
cmp [pci_access_enabled], 1
jne pci_service_not_supported
movzx edx, al
if defined mmio_pci_addr
cmp al, 13
ja pci_service_not_supported
else
cmp al, 10
ja pci_service_not_supported
end if
call dword [f62call + edx*4]
mov dword [esp + SYSCALL_STACK.eax], eax
ret
align 4
pci_api_drv:
cmp [pci_access_enabled], 1
jne .fail
cmp eax, 2
ja .fail
jmp dword [f62call + eax*4]
.fail:
or eax, -1
ret
;; ============================================
pci_fn_0:
; PCI function 0: get pci version (AH.AL)
movzx eax, [BOOT.pci_data.version]
ret
pci_fn_1:
; PCI function 1: get last bus in AL
mov al, [BOOT.pci_data.last_bus]
ret
pci_fn_2:
; PCI function 2: get pci access mechanism
mov al, [BOOT.pci_data.access_mechanism]
ret
pci_service_not_supported:
or eax, -1
mov dword [esp + SYSCALL_STACK.eax], eax
ret
;***************************************************************************
; Function
; pci_make_config_cmd
;
; Description
; creates a command dword for use with the PCI bus
; bus # in ah
; device+func in bh (dddddfff)
; register in bl
;
; command dword returned in eax ( 10000000 bbbbbbbb dddddfff rrrrrr00 )
;***************************************************************************
align 4
pci_make_config_cmd:
shl eax, 8 ; move bus to bits 16-23
mov ax, bx ; combine all
and eax, 0xffffff
or eax, 0x80000000
ret
;***************************************************************************
; Function
; pci_read_reg:
;
; Description
; read a register from the PCI config space into EAX/AX/AL
; IN: ah=bus,device+func=bh,register address=bl
; number of bytes to read (1,2,4) coded into AL, bits 0-1
; (0 - byte, 1 - word, 2 - dword)
;***************************************************************************
align 4
pci_read_reg:
push ebx esi
cmp [BOOT.pci_data.access_mechanism], 2; what mechanism will we use?
je .pci_read_reg_2
; mechanism 1
mov esi, eax ; save register size into ESI
and esi, 3
call pci_make_config_cmd
mov ebx, eax
mov dx, 0xcf8
; set up addressing to config data
mov eax, ebx
and al, 0xfc; make address dword-aligned
out dx, eax
; get requested DWORD of config data
mov dl, 0xfc
and bl, 3
or dl, bl ; add to port address first 2 bits of register address
or esi, esi
jz .byte1
cmp esi, 1
jz .word1
cmp esi, 2
jz .dword1
jmp .fin_read1
.byte1:
in al, dx
jmp .fin_read1
.word1:
in ax, dx
jmp .fin_read1
.dword1:
in eax, dx
.fin_read1:
pop esi ebx
ret
.pci_read_reg_2:
test bh, 128 ;mech#2 only supports 16 devices per bus
jnz .pci_read_reg_err
mov esi, eax ; save register size into ESI
and esi, 3
mov dx, 0xcfa
; out 0xcfa,bus
mov al, ah
out dx, al
; out 0xcf8,0x80
mov dl, 0xf8
mov al, 0x80
out dx, al
; compute addr
shr bh, 3; func is ignored in mechanism 2
or bh, 0xc0
mov dx, bx
or esi, esi
jz .byte2
cmp esi, 1
jz .word2
cmp esi, 2
jz .dword2
jmp .fin_read2
.byte2:
in al, dx
jmp .fin_read2
.word2:
in ax, dx
jmp .fin_read2
.dword2:
in eax, dx
.fin_read2:
pop esi ebx
ret
.pci_read_reg_err:
xor eax, eax
dec eax
pop esi ebx
ret
;***************************************************************************
; Function
; pci_write_reg:
;
; Description
; write a register from ECX/CX/CL into the PCI config space
; IN: ah=bus,device+func=bh,register address (dword aligned)=bl,
; value to write in ecx
; number of bytes to write (1,2,4) coded into AL, bits 0-1
; (0 - byte, 1 - word, 2 - dword)
;***************************************************************************
align 4
pci_write_reg:
push esi ebx
cmp [BOOT.pci_data.access_mechanism], 2; what mechanism will we use?
je pci_write_reg_2
; mechanism 1
mov esi, eax ; save register size into ESI
and esi, 3
call pci_make_config_cmd
mov ebx, eax
mov dx, 0xcf8
; set up addressing to config data
mov eax, ebx
and al, 0xfc; make address dword-aligned
out dx, eax
; write DWORD of config data
mov dl, 0xfc
and bl, 3
or dl, bl
mov eax, ecx
or esi, esi
jz .byte1
cmp esi, 1
jz .word1
cmp esi, 2
jz .dword1
jmp .fin_write1
.byte1:
out dx, al
jmp .fin_write1
.word1:
out dx, ax
jmp .fin_write1
.dword1:
out dx, eax
.fin_write1:
xor eax, eax
pop ebx esi
ret
pci_write_reg_2:
test bh, 128 ;mech#2 only supports 16 devices per bus
jnz .pci_write_reg_err
mov esi, eax ; save register size into ESI
and esi, 3
mov dx, 0xcfa
; out 0xcfa,bus
mov al, ah
out dx, al
; out 0xcf8,0x80
mov dl, 0xf8
mov al, 0x80
out dx, al
; compute addr
shr bh, 3; func is ignored in mechanism 2
or bh, 0xc0
mov dx, bx
; write register
mov eax, ecx
or esi, esi
jz .byte2
cmp esi, 1
jz .word2
cmp esi, 2
jz .dword2
jmp .fin_write2
.byte2:
out dx, al
jmp .fin_write2
.word2:
out dx, ax
jmp .fin_write2
.dword2:
out dx, eax
.fin_write2:
xor eax, eax
pop ebx esi
ret
.pci_write_reg_err:
xor eax, eax
dec eax
pop ebx esi
ret
if defined mmio_pci_addr ; must be set above
;***************************************************************************
; Function
; pci_mmio_init
;
; Description
; IN: bx = device's PCI bus address (bbbbbbbbdddddfff)
; Returns eax = user heap space available (bytes)
; Error codes
; eax = -1 : PCI user access blocked,
; eax = -2 : device not registered for uMMIO service
; eax = -3 : user heap initialization failure
;***************************************************************************
pci_mmio_init:
cmp bx, mmio_pci_addr
jz @f
mov eax, -2
ret
@@:
call init_heap ; (if not initialized yet)
or eax, eax
jz @f
ret
@@:
mov eax, -3
ret
;***************************************************************************
; Function
; pci_mmio_map
;
; Description
; maps a block of PCI memory to user-accessible linear address
;
; WARNING! This VERY EXPERIMENTAL service is for one chosen PCI device only!
; The target device address should be set in kernel var mmio_pci_addr
;
; IN: ah = BAR#;
; IN: ebx = block size (bytes);
; IN: ecx = offset in MMIO block (in 4K-pages, to avoid misaligned pages);
;
; Returns eax = MMIO block's linear address in the userspace (if no error)
;
;
; Error codes
; eax = -1 : user access to PCI blocked,
; eax = -2 : an invalid BAR register referred
; eax = -3 : no i/o space on that BAR
; eax = -4 : a port i/o BAR register referred
; eax = -5 : dynamic userspace allocation problem
;***************************************************************************
pci_mmio_map:
and edx, 0x0ffff
cmp ah, 6
jc .bar_0_5
jz .bar_rom
mov eax, -2
ret
.bar_rom:
mov ah, 8 ; bar6 = Expansion ROM base address
.bar_0_5:
push ecx
add ebx, 4095
and ebx, -4096
push ebx
mov bl, ah ; bl = BAR# (0..5), however bl=8 for BAR6
shl bl, 1
shl bl, 1
add bl, 0x10; now bl = BAR offset in PCI config. space
mov ax, mmio_pci_addr
mov bh, al ; bh = dddddfff
mov al, 2 ; al : DW to read
call pci_read_reg
or eax, eax
jnz @f
mov eax, -3 ; empty I/O space
jmp .mmio_ret_fail
@@:
test eax, 1
jz @f
mov eax, -4 ; damned ports (not MMIO space)
jmp .mmio_ret_fail
@@:
pop ecx ; ecx = block size, bytes (expanded to whole page)
mov ebx, ecx; user_alloc destroys eax, ecx, edx, but saves ebx
and eax, 0xFFFFFFF0
push eax ; store MMIO physical address + keep 2DWords in the stack
stdcall user_alloc, ecx
or eax, eax
jnz .mmio_map_over
mov eax, -5 ; problem with page allocation
.mmio_ret_fail:
pop ecx
pop edx
ret
.mmio_map_over:
mov ecx, ebx; ecx = size (bytes, expanded to whole page)
shr ecx, 12 ; ecx = number of pages
mov ebx, eax; ebx = linear address
pop eax ; eax = MMIO start
pop edx ; edx = MMIO shift (pages)
shl edx, 12 ; edx = MMIO shift (bytes)
add eax, edx; eax = uMMIO physical address
or eax, PG_SHARED
or eax, PG_UW
or eax, PG_NOCACHE
mov edi, ebx
call commit_pages
mov eax, edi
ret
;***************************************************************************
; Function
; pci_mmio_unmap_page
;
; Description
; unmaps the linear space previously tied to a PCI memory block
;
; IN: ebx = linear address of space previously allocated by pci_mmio_map
; returns eax = 1 if successfully unmapped
;
; Error codes
; eax = -1 if no user PCI access allowed,
; eax = 0 if unmapping failed
;***************************************************************************
pci_mmio_unmap:
stdcall user_free, ebx
ret
end if
;-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=
uglobal
align 4
; VendID (2), DevID (2), Revision = 0 (1), Class Code (3), FNum (1), Bus (1)
pci_emu_dat:
times 30*10 db 0
endg
;-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=
align 4
sys_pcibios:
cmp [pci_access_enabled], 1
jne .unsupported_func
cmp [pci_bios_entry], 0
jz .emulate_bios
push ds
mov ax, pci_data_sel
mov ds, ax
mov eax, ebp
mov ah, 0B1h
call pword [cs:pci_bios_entry]
pop ds
jmp .return
;-=-=-=-=-=-=-=-=
.emulate_bios:
cmp ebp, 1 ; PCI_FUNCTION_ID
jnz .not_PCI_BIOS_PRESENT
mov edx, 'PCI '
mov al, [BOOT.pci_data.access_mechanism]
mov bx, word[BOOT.pci_data.version]
mov cl, [BOOT.pci_data.last_bus]
xor ah, ah
jmp .return_abcd
.not_PCI_BIOS_PRESENT:
cmp ebp, 2 ; FIND_PCI_DEVICE
jne .not_FIND_PCI_DEVICE
mov ebx, pci_emu_dat
..nxt:
cmp [ebx], dx
jne ..no
cmp [ebx + 2], cx
jne ..no
dec si
jns ..no
mov bx, [ebx + 4]
xor ah, ah
jmp .return_ab
..no:
cmp word[ebx], 0
je ..dev_not_found
add ebx, 10
jmp ..nxt
..dev_not_found:
mov ah, 0x86 ; DEVICE_NOT_FOUND
jmp .return_a
.not_FIND_PCI_DEVICE:
cmp ebp, 3 ; FIND_PCI_CLASS_CODE
jne .not_FIND_PCI_CLASS_CODE
mov esi, pci_emu_dat
shl ecx, 8
..nxt2:
cmp [esi], ecx
jne ..no2
mov bx, [esi]
xor ah, ah
jmp .return_ab
..no2:
cmp dword[esi], 0
je ..dev_not_found
add esi, 10
jmp ..nxt2
.not_FIND_PCI_CLASS_CODE:
cmp ebp, 8 ; READ_CONFIG_*
jb .not_READ_CONFIG
cmp ebp, 0x0A
ja .not_READ_CONFIG
mov eax, ebp
mov ah, bh
mov edx, edi
mov bh, bl
mov bl, dl
call pci_read_reg
mov ecx, eax
xor ah, ah ; SUCCESSFUL
jmp .return_abc
.not_READ_CONFIG:
cmp ebp, 0x0B ; WRITE_CONFIG_*
jb .not_WRITE_CONFIG
cmp ebp, 0x0D
ja .not_WRITE_CONFIG
lea eax, [ebp+1]
mov ah, bh
mov edx, edi
mov bh, bl
mov bl, dl
call pci_write_reg
xor ah, ah ; SUCCESSFUL
jmp .return_abc
.not_WRITE_CONFIG:
.unsupported_func:
mov ah, 0x81 ; FUNC_NOT_SUPPORTED
.return:
mov dword[esp + SYSCALL_STACK.edi], edi
mov dword[esp + SYSCALL_STACK.esi], esi
.return_abcd:
mov dword[esp + SYSCALL_STACK.edx], edx
.return_abc:
mov dword[esp + SYSCALL_STACK.ecx], ecx
.return_ab:
mov dword[esp + SYSCALL_STACK.ebx], ebx
.return_a:
mov dword[esp + SYSCALL_STACK.eax], eax
ret
proc pci_enum
push ebp
mov ebp, esp
push 0
virtual at ebp-4
.devfn db ?
.bus db ?
end virtual
.loop:
mov ah, [.bus]
mov al, 2
mov bh, [.devfn]
mov bl, 0
call pci_read_reg
cmp eax, 0xFFFFFFFF
jnz .has_device
test byte [.devfn], 7
jnz .next_func
jmp .no_device
.has_device:
push eax
movi eax, sizeof.PCIDEV
call malloc
pop ecx
test eax, eax
jz .nomemory
mov edi, eax
mov [edi+PCIDEV.vendor_device_id], ecx
mov eax, pcidev_list
mov ecx, [eax+PCIDEV.bk]
mov [edi+PCIDEV.bk], ecx
mov [edi+PCIDEV.fd], eax
mov [ecx+PCIDEV.fd], edi
mov [eax+PCIDEV.bk], edi
mov eax, dword [.devfn]
mov dword [edi+PCIDEV.devfn], eax
mov dword [edi+PCIDEV.owner], 0
mov bh, al
mov al, 2
mov bl, 8
call pci_read_reg
shr eax, 8
mov [edi+PCIDEV.class], eax
test byte [.devfn], 7
jnz .next_func
mov ah, [.bus]
mov al, 0
mov bh, [.devfn]
mov bl, 0Eh
call pci_read_reg
test al, al
js .next_func
.no_device:
or byte [.devfn], 7
.next_func:
inc dword [.devfn]
mov ah, [.bus]
cmp ah, [BOOT.pci_data.last_bus]
jbe .loop
.nomemory:
leave
ret
endp
; Export for drivers. Just returns the pointer to the pci-devices list.
proc get_pcidev_list
mov eax, pcidev_list
ret
endp
align 4
proc pci_read32 stdcall, bus:dword, devfn:dword, reg:dword
push ebx
xor eax, eax
xor ebx, ebx
mov ah, byte [bus]
mov al, 6
mov bh, byte [devfn]
mov bl, byte [reg]
call pci_read_reg
pop ebx
ret
endp
align 4
proc pci_read16 stdcall, bus:dword, devfn:dword, reg:dword
push ebx
xor eax, eax
xor ebx, ebx
mov ah, byte [bus]
mov al, 5
mov bh, byte [devfn]
mov bl, byte [reg]
call pci_read_reg
pop ebx
ret
endp
align 4
proc pci_read8 stdcall, bus:dword, devfn:dword, reg:dword
push ebx
xor eax, eax
xor ebx, ebx
mov ah, byte [bus]
mov al, 4
mov bh, byte [devfn]
mov bl, byte [reg]
call pci_read_reg
pop ebx
ret
endp
align 4
proc pci_write8 stdcall, bus:dword, devfn:dword, reg:dword, val:dword
push ebx
xor eax, eax
xor ebx, ebx
mov ah, byte [bus]
mov al, 8
mov bh, byte [devfn]
mov bl, byte [reg]
mov ecx, [val]
call pci_write_reg
pop ebx
ret
endp
align 4
proc pci_write16 stdcall, bus:dword, devfn:dword, reg:dword, val:dword
push ebx
xor eax, eax
xor ebx, ebx
mov ah, byte [bus]
mov al, 9
mov bh, byte [devfn]
mov bl, byte [reg]
mov ecx, [val]
call pci_write_reg
pop ebx
ret
endp
align 4
proc pci_write32 stdcall, bus:dword, devfn:dword, reg:dword, val:dword
push ebx
xor eax, eax
xor ebx, ebx
mov ah, byte [bus]
mov al, 10
mov bh, byte [devfn]
mov bl, byte [reg]
mov ecx, [val]
call pci_write_reg
pop ebx
ret
endp