;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; ;; ;; Copyright (C) KolibriOS team 2004-2010. All rights reserved. ;; ;; Distributed under terms of the GNU General Public License ;; ;; ;; ;; RTL8169 driver for KolibriOS ;; ;; ;; ;; Copyright 2007 mike.dld, ;; ;; mike.dld@gmail.com ;; ;; ;; ;; Version 0.1 11 February 2007 ;; ;; Version 0.2 3 August 2010 - port to net branch by hidnplayr ;; ;; ;; ;; References: ;; ;; r8169.c - linux driver (etherboot project) ;; ;; ;; ;; GNU GENERAL PUBLIC LICENSE ;; ;; Version 2, June 1991 ;; ;; ;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; format MS COFF API_VERSION equ 0x01000100 DRIVER_VERSION equ 5 MAX_DEVICES equ 16 DEBUG equ 1 __DEBUG__ equ 1 __DEBUG_LEVEL__ equ 1 NUM_TX_DESC equ 4 NUM_RX_DESC equ 4 include 'proc32.inc' include 'imports.inc' include 'fdo.inc' include 'netdrv.inc' public START public service_proc public version REG_MAC0 equ 0x0 ; Ethernet hardware address REG_MAR0 equ 0x8 ; Multicast filter REG_TxDescStartAddr equ 0x20 REG_TxHDescStartAddr equ 0x28 REG_FLASH equ 0x30 REG_ERSR equ 0x36 REG_ChipCmd equ 0x37 REG_TxPoll equ 0x38 REG_IntrMask equ 0x3C REG_IntrStatus equ 0x3E REG_TxConfig equ 0x40 REG_RxConfig equ 0x44 REG_RxMissed equ 0x4C REG_Cfg9346 equ 0x50 REG_Config0 equ 0x51 REG_Config1 equ 0x52 REG_Config2 equ 0x53 REG_Config3 equ 0x54 REG_Config4 equ 0x55 REG_Config5 equ 0x56 REG_MultiIntr equ 0x5C REG_PHYAR equ 0x60 REG_TBICSR equ 0x64 REG_TBI_ANAR equ 0x68 REG_TBI_LPAR equ 0x6A REG_PHYstatus equ 0x6C REG_RxMaxSize equ 0xDA REG_CPlusCmd equ 0xE0 REG_RxDescStartAddr equ 0xE4 REG_ETThReg equ 0xEC REG_FuncEvent equ 0xF0 REG_FuncEventMask equ 0xF4 REG_FuncPresetState equ 0xF8 REG_FuncForceEvent equ 0xFC ; InterruptStatusBits ISB_SYSErr equ 0x8000 ISB_PCSTimeout equ 0x4000 ISB_SWInt equ 0x0100 ISB_TxDescUnavail equ 0x80 ISB_RxFIFOOver equ 0x40 ISB_LinkChg equ 0x20 ISB_RxOverflow equ 0x10 ISB_TxErr equ 0x08 ISB_TxOK equ 0x04 ISB_RxErr equ 0x02 ISB_RxOK equ 0x01 ; RxStatusDesc SD_RxRES equ 0x00200000 SD_RxCRC equ 0x00080000 SD_RxRUNT equ 0x00100000 SD_RxRWT equ 0x00400000 ; ChipCmdBits CMD_Reset equ 0x10 CMD_RxEnb equ 0x08 CMD_TxEnb equ 0x04 CMD_RxBufEmpty equ 0x01 ; Cfg9346Bits CFG_9346_Lock equ 0x00 CFG_9346_Unlock equ 0xC0 ; rx_mode_bits RXM_AcceptErr equ 0x20 RXM_AcceptRunt equ 0x10 RXM_AcceptBroadcast equ 0x08 RXM_AcceptMulticast equ 0x04 RXM_AcceptMyPhys equ 0x02 RXM_AcceptAllPhys equ 0x01 ; RxConfigBits RXC_FIFOShift equ 13 RXC_DMAShift equ 8 ; TxConfigBits TXC_InterFrameGapShift equ 24 TXC_DMAShift equ 8 ; DMA burst value (0-7) is shift this many bits ; PHYstatus PHYS_TBI_Enable equ 0x80 PHYS_TxFlowCtrl equ 0x40 PHYS_RxFlowCtrl equ 0x20 PHYS_1000bpsF equ 0x10 PHYS_100bps equ 0x08 PHYS_10bps equ 0x04 PHYS_LinkStatus equ 0x02 PHYS_FullDup equ 0x01 ; GIGABIT_PHY_registers PHY_CTRL_REG equ 0 PHY_STAT_REG equ 1 PHY_AUTO_NEGO_REG equ 4 PHY_1000_CTRL_REG equ 9 ; GIGABIT_PHY_REG_BIT PHY_Restart_Auto_Nego equ 0x0200 PHY_Enable_Auto_Nego equ 0x1000 ; PHY_STAT_REG = 1; PHY_Auto_Neco_Comp equ 0x0020 ; PHY_AUTO_NEGO_REG = 4; PHY_Cap_10_Half equ 0x0020 PHY_Cap_10_Full equ 0x0040 PHY_Cap_100_Half equ 0x0080 PHY_Cap_100_Full equ 0x0100 ; PHY_1000_CTRL_REG = 9; PHY_Cap_1000_Full equ 0x0200 PHY_Cap_1000_Half equ 0x0100 PHY_Cap_PAUSE equ 0x0400 PHY_Cap_ASYM_PAUSE equ 0x0800 PHY_Cap_Null equ 0x0 ; _MediaType MT_10_Half equ 0x01 MT_10_Full equ 0x02 MT_100_Half equ 0x04 MT_100_Full equ 0x08 MT_1000_Full equ 0x10 ; _TBICSRBit TBI_LinkOK equ 0x02000000 ; _DescStatusBit DSB_OWNbit equ 0x80000000 DSB_EORbit equ 0x40000000 DSB_FSbit equ 0x20000000 DSB_LSbit equ 0x10000000 RX_BUF_SIZE equ 1536 ; Rx Buffer size ETH_ALEN equ 6 ETH_HLEN equ (2 * ETH_ALEN + 2) ETH_ZLEN equ 60 ; 60 + 4bytes auto payload for ; mininmum 64bytes frame length ; MAC address length MAC_ADDR_LEN equ 6 ; max supported gigabit ethernet frame size -- must be at least (dev->mtu+14+4) MAX_ETH_FRAME_SIZE equ 1536 TX_FIFO_THRESH equ 256 ; In bytes RX_FIFO_THRESH equ 7 ; 7 means NO threshold, Rx buffer level before first PCI xfer RX_DMA_BURST equ 7 ; Maximum PCI burst, '6' is 1024 TX_DMA_BURST equ 7 ; Maximum PCI burst, '6' is 1024 ETTh equ 0x3F ; 0x3F means NO threshold EarlyTxThld equ 0x3F ; 0x3F means NO early transmit RxPacketMaxSize equ 0x0800 ; Maximum size supported is 16K-1 InterFrameGap equ 0x03 ; 3 means InterFrameGap = the shortest one HZ equ 1000 RTL_MIN_IO_SIZE equ 0x80 TX_TIMEOUT equ (6*HZ) TIMER_EXPIRE_TIME equ 100 ETH_HDR_LEN equ 14 DEFAULT_MTU equ 1500 DEFAULT_RX_BUF_LEN equ 1536 ;#ifdef JUMBO_FRAME_SUPPORT ;#define MAX_JUMBO_FRAME_MTU ( 10000 ) ;#define MAX_RX_SKBDATA_SIZE ( MAX_JUMBO_FRAME_MTU + ETH_HDR_LEN ) ;#else MAX_RX_SKBDATA_SIZE equ 1600 ;#endif //end #ifdef JUMBO_FRAME_SUPPORT MCFG_METHOD_01 equ 0x01 MCFG_METHOD_02 equ 0x02 MCFG_METHOD_03 equ 0x03 MCFG_METHOD_04 equ 0x04 MCFG_METHOD_05 equ 0x05 MCFG_METHOD_11 equ 0x0b MCFG_METHOD_12 equ 0x0c MCFG_METHOD_13 equ 0x0d MCFG_METHOD_14 equ 0x0e MCFG_METHOD_15 equ 0x0f PCFG_METHOD_1 equ 0x01 ; PHY Reg 0x03 bit0-3 == 0x0000 PCFG_METHOD_2 equ 0x02 ; PHY Reg 0x03 bit0-3 == 0x0001 PCFG_METHOD_3 equ 0x03 ; PHY Reg 0x03 bit0-3 == 0x0002 virtual at 0 tx_desc: .status dd ? .vlan_tag dd ? .buf_addr dq ? .size = $ rb (NUM_TX_DESC-1)*tx_desc.size .buf_soft_addr dd ? end virtual virtual at 0 rx_desc: .status dd ? .vlan_tag dd ? .buf_addr dq ? .size = $ rb (NUM_RX_DESC-1)*rx_desc.size .buf_soft_addr dd ? end virtual virtual at ebx device: ETH_DEVICE .io_addr dd ? .pci_bus db ? .pci_dev db ? .irq_line db ? tpc: .mmio_addr dd ? ; memory map physical address .chipset dd ? .pcfg dd ? .mcfg dd ? .cur_rx dd ? ; Index into the Rx descriptor buffer of next Rx pkt .cur_tx dd ? ; Index into the Tx descriptor buffer of next Rx pkt .TxDescArrays dd ? ; Index of Tx Descriptor buffer .RxDescArrays dd ? ; Index of Rx Descriptor buffer .TxDescArray dd ? ; Index of 256-alignment Tx Descriptor buffer .RxDescArray dd ? ; Index of 256-alignment Rx Descriptor buffer rb 256-(($ - device) and 255) ; align 256 tx_ring rb NUM_TX_DESC * tx_desc.size * 2 rb 256-(($ - device) and 255) ; align 256 rx_ring rb NUM_RX_DESC * rx_desc.size * 2 device_size = $ - device end virtual intr_mask = ISB_LinkChg or ISB_RxOverflow or ISB_RxFIFOOver or ISB_TxErr or ISB_TxOK or ISB_RxErr or ISB_RxOK rx_config = (RX_FIFO_THRESH shl RXC_FIFOShift) or (RX_DMA_BURST shl RXC_DMAShift) or 0x0000000E macro udelay msec { push esi mov esi, msec call Sleep pop esi } macro WRITE_GMII_REG RegAddr, value { set_io REG_PHYAR if value eq ax and eax, 0x0000ffff or eax, 0x80000000 + (RegAddr shl 16) else mov eax, 0x80000000 + (RegAddr shl 16) + value end if out dx, eax call PHY_WAIT } macro READ_GMII_REG RegAddr { local .error, .done set_io REG_PHYAR mov eax, RegAddr shl 16 out dx, eax call PHY_WAIT jz .error in eax, dx and eax, 0xFFFF jmp .done .error: or eax, -1 .done: } align 4 PHY_WAIT: ; io addr must already be set to REG_PHYAR udelay 1 ;;;1000 push ecx mov ecx, 2000 ; Check if the RTL8169 has completed writing/reading to the specified MII register @@: in eax, dx test eax, 0x80000000 jz .exit udelay 1 ;;;100 loop @b .exit: pop ecx ret section '.flat' code readable align 16 ;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; ;; ;; proc START ;; ;; ;; ;; (standard driver proc) ;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;; align 4 proc START stdcall, state:dword cmp [state], 1 jne .exit .entry: DEBUGF 2,"Loading rtl8169 driver\n" stdcall RegService, my_service, service_proc ret .fail: .exit: xor eax, eax ret endp ;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;; ;; ;; proc SERVICE_PROC ;; ;; ;; ;; (standard driver proc) ;; ;;;;;;;;;;;;;;;;;;;;;;;;;;;; align 4 proc service_proc stdcall, ioctl:dword mov edx, [ioctl] mov eax, [IOCTL.io_code] ;------------------------------------------------------ cmp eax, 0 ;SRV_GETVERSION jne @F cmp [IOCTL.out_size], 4 jl .fail mov eax, [IOCTL.output] mov [eax], dword API_VERSION xor eax, eax ret ;------------------------------------------------------ @@: cmp eax, 1 ;SRV_HOOK jne .fail cmp [IOCTL.inp_size], 3 ; Data input must be at least 3 bytes jl .fail mov eax, [IOCTL.input] cmp byte [eax], 1 ; 1 means device number and bus number (pci) are given jne .fail ; other types arent supported for this card yet ; check if the device is already listed mov esi, device_list mov ecx, [devices] test ecx, ecx jz .firstdevice ; mov eax, [IOCTL.input] ; get the pci bus and device numbers mov ax , [eax+1] ; .nextdevice: mov ebx, [esi] cmp ax , word [device.pci_bus] ; compare with pci and device num in device list (notice the usage of word instead of byte) je .find_devicenum ; Device is already loaded, let's find it's device number add esi, 4 loop .nextdevice ; This device doesnt have its own eth_device structure yet, lets create one .firstdevice: cmp [devices], MAX_DEVICES ; First check if the driver can handle one more card jge .fail allocate_and_clear ebx, device_size, .fail ; Allocate memory to put the device structure in ; Fill in the direct call addresses into the struct mov [device.reset], reset mov [device.transmit], transmit mov [device.get_MAC], read_mac mov [device.set_MAC], write_mac mov [device.unload], unload mov [device.name], my_service ; save the pci bus and device numbers mov eax, [IOCTL.input] mov cl , [eax+1] mov [device.pci_bus], cl mov cl , [eax+2] mov [device.pci_dev], cl ; Now, it's time to find the base io addres of the PCI device find_io [device.pci_bus], [device.pci_dev], [device.io_addr] mov eax, [device.io_addr] mov [tpc.mmio_addr], eax ; We've found the io address, find IRQ now find_irq [device.pci_bus], [device.pci_dev], [device.irq_line] DEBUGF 2,"Hooking into device, dev:%x, bus:%x, irq:%x, addr:%x\n",\ [device.pci_dev]:1,[device.pci_bus]:1,[device.irq_line]:1,[device.io_addr]:8 ; Ok, the eth_device structure is ready, let's probe the device ; Because initialization fires IRQ, IRQ handler must be aware of this device mov eax, [devices] ; Add the device structure to our device list mov [device_list+4*eax], ebx ; (IRQ handler uses this list to find device) inc [devices] ; call probe ; this function will output in eax test eax, eax jnz .err2 ; If an error occured, exit mov [device.type], NET_TYPE_ETH call NetRegDev cmp eax, -1 je .destroy ret ; If the device was already loaded, find the device number and return it in eax .find_devicenum: DEBUGF 2,"Trying to find device number of already registered device\n" mov ebx, eax call NetPtrToNum ; This kernel procedure converts a pointer to device struct in ebx ; into a device number in edi mov eax, edi ; Application wants it in eax instead DEBUGF 2,"Kernel says: %u\n", eax ret ; If an error occured, remove all allocated data and exit (returning -1 in eax) .destroy: ; todo: reset device into virgin state .err2: dec [devices] .err: DEBUGF 2,"removing device structure\n" stdcall KernelFree, ebx .fail: or eax, -1 ret ;------------------------------------------------------ endp align 4 unload: ret align 4 init_board: DEBUGF 1,"init_board\n" make_bus_master [device.pci_bus], [device.pci_dev] ; Soft reset the chip set_io 0 set_io REG_ChipCmd mov al, CMD_Reset out dx, al ; Check that the chip has finished the reset mov ecx, 1000 set_io REG_ChipCmd @@: in al, dx test al, CMD_Reset jz @f udelay 10 loop @b @@: ; identify config method set_io REG_TxConfig in eax, dx and eax, 0x7c800000 DEBUGF 1,"init_board: TxConfig & 0x7c800000 = 0x%x\n", eax mov esi, mac_info-8 @@: add esi, 8 mov ecx, eax and ecx, [esi] cmp ecx, [esi] jne @b mov eax, [esi+4] mov [tpc.mcfg], eax mov [tpc.pcfg], PCFG_METHOD_3 READ_GMII_REG 3 and al, 0x0f or al, al jnz @f mov [tpc.pcfg], PCFG_METHOD_1 jmp .pconf @@: dec al jnz .pconf mov [tpc.pcfg], PCFG_METHOD_2 .pconf: ; identify chip attached to board mov ecx, 10 mov eax, [tpc.mcfg] @@: dec ecx js @f cmp eax, [rtl_chip_info+ecx*8] jne @b mov [tpc.chipset], ecx jmp .match @@: ; if unknown chip, assume array element #0, original RTL-8169 in this case DEBUGF 1,"init_board: PCI device: unknown chip version, assuming RTL-8169\n" set_io REG_TxConfig in eax, dx DEBUGF 1,"init_board: PCI device: TxConfig = 0x%x\n", eax mov [tpc.chipset], 0 xor eax, eax inc eax ret .match: xor eax,eax ret ;*************************************************************************** ; Function ; probe ; Description ; Searches for an ethernet card, enables it and clears the rx buffer ; If a card was found, it enables the ethernet -> TCPIP link ; Destroyed registers ; eax, ebx, ecx, edx ; ;*************************************************************************** align 4 probe: DEBUGF 1,"probe\n" call init_board call read_mac call PHY_config ; DEBUGF 1,"K : Set MAC Reg C+CR Offset 0x82h = 0x01h\n" set_io 0 set_io 0x82 mov al, 0x01 out dx, al cmp [tpc.mcfg], MCFG_METHOD_03 jae @f ; DEBUGF 1,"K : Set PCI Latency=0x40\n" ; stdcall pci_write_config_byte,PCI_LATENCY_TIMER,0x40 @@: cmp [tpc.mcfg], MCFG_METHOD_02 jne @f ; DEBUGF 1,"K : Set MAC Reg C+CR Offset 0x82h = 0x01h\n" set_io 0x82 mov al, 0x01 out dx, al ; DEBUGF 1,"K : Set PHY Reg 0x0bh = 0x00h\n" WRITE_GMII_REG 0x0b, 0x0000 ; w 0x0b 15 0 0 @@: ; if TBI is not enabled set_io 0 set_io REG_PHYstatus in al, dx test al, PHYS_TBI_Enable jz .tbi_dis READ_GMII_REG PHY_AUTO_NEGO_REG ; enable 10/100 Full/Half Mode, leave PHY_AUTO_NEGO_REG bit4:0 unchanged and eax, 0x0C1F or eax, PHY_Cap_10_Half or PHY_Cap_10_Full or PHY_Cap_100_Half or PHY_Cap_100_Full WRITE_GMII_REG PHY_AUTO_NEGO_REG, ax ; enable 1000 Full Mode WRITE_GMII_REG PHY_1000_CTRL_REG, PHY_Cap_1000_Full or PHY_Cap_1000_Half ; rtl8168 ; Enable auto-negotiation and restart auto-nigotiation WRITE_GMII_REG PHY_CTRL_REG, PHY_Enable_Auto_Nego or PHY_Restart_Auto_Nego udelay 100 mov ecx, 10000 ; wait for auto-negotiation process @@: dec ecx jz @f set_io 0 READ_GMII_REG PHY_STAT_REG udelay 100 test eax, PHY_Auto_Neco_Comp jz @b set_io REG_PHYstatus in al, dx jmp @f .tbi_dis: udelay 100 @@: ;*************************************************************************** ; Function ; rt8169_reset ; Description ; Place the chip (ie, the ethernet card) into a virgin state ; Destroyed registers ; eax, ebx, ecx, edx ; ;*************************************************************************** align 4 reset: DEBUGF 1,"reset\n" lea eax, [tx_ring] mov [tpc.TxDescArrays], eax mov [tpc.TxDescArray], eax lea eax, [rx_ring] mov [tpc.RxDescArrays], eax mov [tpc.RxDescArray], eax call init_ring call hw_start ; clear packet/byte counters xor eax, eax lea edi, [device.bytes_tx] mov ecx, 6 rep stosd mov [device.mtu], 1500 xor eax, eax ret align 4 PHY_config: DEBUGF 1,"hw_PHY_config: priv.mcfg=%d, priv.pcfg=%d\n",[tpc.mcfg],[tpc.pcfg] cmp [tpc.mcfg], MCFG_METHOD_04 jne .not_4 set_io 0 ; WRITE_GMII_REG 0x1F, 0x0001 ; WRITE_GMII_REG 0x1b, 0x841e ; WRITE_GMII_REG 0x0e, 0x7bfb ; WRITE_GMII_REG 0x09, 0x273a WRITE_GMII_REG 0x1F, 0x0002 WRITE_GMII_REG 0x01, 0x90D0 WRITE_GMII_REG 0x1F, 0x0000 jmp .exit .not_4: cmp [tpc.mcfg], MCFG_METHOD_02 je @f cmp [tpc.mcfg], MCFG_METHOD_03 jne .not_2_or_3 @@: set_io 0 WRITE_GMII_REG 0x1F, 0x0001 WRITE_GMII_REG 0x15, 0x1000 WRITE_GMII_REG 0x18, 0x65C7 WRITE_GMII_REG 0x04, 0x0000 WRITE_GMII_REG 0x03, 0x00A1 WRITE_GMII_REG 0x02, 0x0008 WRITE_GMII_REG 0x01, 0x1020 WRITE_GMII_REG 0x00, 0x1000 WRITE_GMII_REG 0x04, 0x0800 WRITE_GMII_REG 0x04, 0x0000 WRITE_GMII_REG 0x04, 0x7000 WRITE_GMII_REG 0x03, 0xFF41 WRITE_GMII_REG 0x02, 0xDE60 WRITE_GMII_REG 0x01, 0x0140 WRITE_GMII_REG 0x00, 0x0077 WRITE_GMII_REG 0x04, 0x7800 WRITE_GMII_REG 0x04, 0x7000 WRITE_GMII_REG 0x04, 0xA000 WRITE_GMII_REG 0x03, 0xDF01 WRITE_GMII_REG 0x02, 0xDF20 WRITE_GMII_REG 0x01, 0xFF95 WRITE_GMII_REG 0x00, 0xFA00 WRITE_GMII_REG 0x04, 0xA800 WRITE_GMII_REG 0x04, 0xA000 WRITE_GMII_REG 0x04, 0xB000 WRITE_GMII_REG 0x03, 0xFF41 WRITE_GMII_REG 0x02, 0xDE20 WRITE_GMII_REG 0x01, 0x0140 WRITE_GMII_REG 0x00, 0x00BB WRITE_GMII_REG 0x04, 0xB800 WRITE_GMII_REG 0x04, 0xB000 WRITE_GMII_REG 0x04, 0xF000 WRITE_GMII_REG 0x03, 0xDF01 WRITE_GMII_REG 0x02, 0xDF20 WRITE_GMII_REG 0x01, 0xFF95 WRITE_GMII_REG 0x00, 0xBF00 WRITE_GMII_REG 0x04, 0xF800 WRITE_GMII_REG 0x04, 0xF000 WRITE_GMII_REG 0x04, 0x0000 WRITE_GMII_REG 0x1F, 0x0000 WRITE_GMII_REG 0x0B, 0x0000 jmp .exit .not_2_or_3: DEBUGF 1,"tpc.mcfg=%d, discard hw PHY config\n", [tpc.mcfg] .exit: ret align 4 set_rx_mode: DEBUGF 1,"set_rx_mode\n" ; IFF_ALLMULTI ; Too many to filter perfectly -- accept all multicasts set_io 0 set_io REG_RxConfig in eax, dx mov ecx, [tpc.chipset] and eax, [rtl_chip_info + ecx * 8 + 4] ; RxConfigMask or eax, rx_config or (RXM_AcceptBroadcast or RXM_AcceptMulticast or RXM_AcceptMyPhys) out dx, eax ; Multicast hash filter set_io REG_MAR0 + 0 or eax, -1 out dx, eax set_io REG_MAR0 + 4 out dx, eax ret align 4 init_ring: DEBUGF 1,"init_ring\n" xor eax, eax mov [tpc.cur_rx], eax mov [tpc.cur_tx], eax lea edi, [tx_ring] mov ecx, (NUM_TX_DESC * tx_desc.size) / 4 rep stosd lea edi, [rx_ring] mov ecx, (NUM_RX_DESC * rx_desc.size) / 4 rep stosd mov edi, [tpc.RxDescArray] mov ecx, NUM_RX_DESC .loop: push ecx stdcall KernelAlloc, RX_BUF_SIZE mov [edi + rx_desc.buf_soft_addr], eax call GetPgAddr mov dword [edi + rx_desc.buf_addr], eax mov [edi + rx_desc.status], DSB_OWNbit or RX_BUF_SIZE add edi, rx_desc.size pop ecx loop .loop or [edi - rx_desc.size + rx_desc.status], DSB_EORbit ret align 4 hw_start: DEBUGF 1,"hw_start\n" ; attach int handler movzx eax, [device.irq_line] DEBUGF 1,"Attaching int handler to irq %x\n", eax:1 stdcall AttachIntHandler, eax, int_handler, dword 0 ; Soft reset the chip set_io 0 set_io REG_ChipCmd mov al, CMD_Reset out dx, al ; Check that the chip has finished the reset mov ecx, 1000 set_io REG_ChipCmd @@: in al, dx test al, CMD_Reset jz @f udelay 10 loop @b @@: set_io REG_Cfg9346 mov al, CFG_9346_Unlock out dx, al set_io REG_ChipCmd mov al, CMD_TxEnb or CMD_RxEnb out dx, al set_io REG_ETThReg mov al, ETTh out dx, al ; For gigabit rtl8169 set_io REG_RxMaxSize mov ax, RxPacketMaxSize out dx, ax ; Set Rx Config register set_io REG_RxConfig in ax, dx mov ecx, [tpc.chipset] and eax, [rtl_chip_info + ecx * 8 + 4] ; RxConfigMask or eax, rx_config out dx, eax ; Set DMA burst size and Interframe Gap Time set_io REG_TxConfig mov eax, (TX_DMA_BURST shl TXC_DMAShift) or (InterFrameGap shl TXC_InterFrameGapShift) out dx, eax set_io REG_CPlusCmd in ax, dx out dx, ax in ax, dx or ax, 1 shl 3 cmp [tpc.mcfg], MCFG_METHOD_02 jne @f cmp [tpc.mcfg], MCFG_METHOD_03 jne @f or ax,1 shl 14 DEBUGF 1,"Set MAC Reg C+CR Offset 0xE0: bit-3 and bit-14\n" jmp .set @@: DEBUGF 1," Set MAC Reg C+CR Offset 0xE0: bit-3\n" .set: set_io REG_CPlusCmd out dx, ax set_io 0xE2 ; mov ax, 0x1517 ; out dx, ax ; mov ax, 0x152a ; out dx, ax ; mov ax, 0x282a ; out dx, ax xor ax, ax out dx, ax xor eax, eax mov [tpc.cur_rx], eax lea eax, [tx_ring] GetRealAddr set_io REG_TxDescStartAddr out dx, eax lea eax, [rx_ring] GetRealAddr set_io REG_RxDescStartAddr out dx, eax set_io REG_Cfg9346 mov al, CFG_9346_Lock out dx, al udelay 10 xor eax, eax set_io REG_RxMissed out dx, eax call set_rx_mode set_io 0 ; no early-rx interrupts set_io REG_MultiIntr in ax, dx and ax, 0xF000 out dx, ax ; set interrupt mask set_io REG_IntrMask mov ax, intr_mask out dx, ax xor eax, eax ret align 4 read_mac: set_io 0 set_io REG_MAC0 xor ecx, ecx lea edi, [device.mac] mov ecx, MAC_ADDR_LEN ; Get MAC address. FIXME: read EEPROM @@: in al, dx stosb inc edx loop @r DEBUGF 1,"MAC = %x-%x-%x-%x-%x-%x\n",[device.mac+0]:2,[device.mac+1]:2,[device.mac+2]:2,[device.mac+3]:2,[device.mac+4]:2,[device.mac+5]:2 ret align 4 write_mac: ret 6 ;*************************************************************************** ; Function ; transmit ; Description ; Transmits a packet of data via the ethernet card ; ; Destroyed registers ; eax, edx, esi, edi ; ;*************************************************************************** align 4 transmit: DEBUGF 1,"Transmitting packet, buffer:%x, size:%u\n", [esp+4], [esp+8] mov eax, [esp+4] DEBUGF 1,"To: %x-%x-%x-%x-%x-%x From: %x-%x-%x-%x-%x-%x Type:%x%x\n",\ [eax+00]:2,[eax+01]:2,[eax+02]:2,[eax+03]:2,[eax+04]:2,[eax+05]:2,\ [eax+06]:2,[eax+07]:2,[eax+08]:2,[eax+09]:2,[eax+10]:2,[eax+11]:2,\ [eax+13]:2,[eax+12]:2 cmp dword [esp+8], MAX_ETH_FRAME_SIZE ja .fail ;---------------------------------- ; Find currentTX descriptor address mov eax, tx_desc.size mul [tpc.cur_tx] lea esi, [eax + tx_ring] ;--------------------------- ; Program the packet pointer mov eax, [esp + 4] mov [esi + tx_desc.buf_soft_addr], eax GetRealAddr mov dword [esi + tx_desc.buf_addr], eax ;------------------------ ; Program the packet size mov eax, [esp + 8] @@: or eax, DSB_OWNbit or DSB_FSbit or DSB_LSbit cmp [tpc.cur_tx], NUM_TX_DESC - 1 jne @f or eax, DSB_EORbit @@: mov [esi + tx_desc.status], eax ;----------------------------------------- ; Set the polling bit (start transmission) set_io 0 set_io REG_TxPoll mov al, 0x40 ; set polling bit out dx, al ;----------------------- ; Update TX descriptor inc [tpc.cur_tx] and [tpc.cur_tx], NUM_TX_DESC - 1 ;------------- ; Update stats inc [device.packets_tx] mov eax, [esp+8] add dword [device.bytes_tx], eax adc dword [device.bytes_tx + 4], 0 ret 8 .fail: DEBUGF 1,"transmit failed\n" or eax, -1 stdcall KernelFree, [esp+4] ret 8 ;;;DSB_OWNbit ;;;;;;;;;;;;;;;;;;;;;;; ;; ;; ;; Interrupt handler ;; ;; ;; ;;;;;;;;;;;;;;;;;;;;;;; align 4 int_handler: DEBUGF 1,"IRQ %x ",eax:2 ; find pointer of device wich made IRQ occur mov ecx, [devices] test ecx, ecx jz .fail mov esi, device_list .nextdevice: mov ebx, dword [esi] set_io 0 set_io REG_IntrStatus in ax, dx test ax, ax jnz .got_it .continue: add esi, 4 dec ecx jnz .nextdevice ret ; If no device was found, abort (The irq was probably for a device, not registered to this driver) .got_it: DEBUGF 1,"IntrStatus = 0x%x\n",ax cmp ax, 0xFFFF ; if so, hardware is no longer present je .fail ;-------- ; Receive test ax, ISB_RxOK jz .no_rx push ax mov eax, rx_desc.size mul [tpc.cur_rx] lea esi, [eax + rx_ring] DEBUGF 1,"RxDesc.status = 0x%x\n", [esi + rx_desc.status] mov eax, [esi + rx_desc.status] test eax, DSB_OWNbit ;;; jnz .rx_return DEBUGF 1,"tpc.cur_rx = %u\n", [tpc.cur_rx] test eax, SD_RxRES jnz .rx_return ;;;;; RX error! push .rx_return and eax, 0x00001FFF add eax, -4 ; we dont need CRC push eax DEBUGF 1,"data length = %u\n", ax ;------------- ; Update stats add dword [device.bytes_rx], eax adc dword [device.bytes_rx + 4], 0 inc dword [device.packets_rx] push [esi + rx_desc.buf_soft_addr] ;---------------------- ; Allocate a new buffer stdcall KernelAlloc, RX_BUF_SIZE mov [esi + rx_desc.buf_soft_addr], eax GetRealAddr mov dword [esi + rx_desc.buf_addr], eax ;--------------- ; re set OWN bit mov eax, DSB_OWNbit or RX_BUF_SIZE cmp [tpc.cur_rx], NUM_RX_DESC - 1 jne @f or eax, DSB_EORbit @@: mov [esi + rx_desc.status], eax ;-------------- ; Update rx ptr inc [tpc.cur_rx] and [tpc.cur_rx], NUM_RX_DESC - 1 jmp EthReceiver .rx_return: pop ax .no_rx: ;--------- ; Transmit test ax, ISB_TxOK jz .no_tx push ax DEBUGF 1,"TX ok!\n" mov ecx, NUM_TX_DESC lea esi, [device.tx_ring] .txloop: cmp [esi+tx_desc.buf_soft_addr], 0 jz .maybenext test [esi+tx_desc.status], DSB_OWNbit jnz .maybenext push ecx stdcall KernelFree, [esi+tx_desc.buf_soft_addr] pop ecx and [esi+tx_desc.buf_soft_addr], 0 .maybenext: add esi, tx_desc.size dec ecx jnz .txloop pop ax .no_tx: ;------- ; Finish set_io 0 set_io REG_IntrStatus out dx, ax ; ACK all interrupts .fail: ret ; End of code align 4 ; Place all initialised data here devices dd 0 version dd (DRIVER_VERSION shl 16) or (API_VERSION and 0xFFFF) my_service db 'RTL8169',0 ; max 16 chars include zero include_debug_strings ; All data wich FDO uses will be included here rtl_chip_info dd \ MCFG_METHOD_01, 0xff7e1880, \ ; RTL8169 MCFG_METHOD_02, 0xff7e1880, \ ; RTL8169s/8110s MCFG_METHOD_03, 0xff7e1880, \ ; RTL8169s/8110s MCFG_METHOD_04, 0xff7e1880, \ ; RTL8169sb/8110sb MCFG_METHOD_05, 0xff7e1880, \ ; RTL8169sc/8110sc MCFG_METHOD_11, 0xff7e1880, \ ; RTL8168b/8111b // PCI-E MCFG_METHOD_12, 0xff7e1880, \ ; RTL8168b/8111b // PCI-E MCFG_METHOD_13, 0xff7e1880, \ ; RTL8101e // PCI-E 8139 MCFG_METHOD_14, 0xff7e1880, \ ; RTL8100e // PCI-E 8139 MCFG_METHOD_15, 0xff7e1880 ; RTL8100e // PCI-E 8139 mac_info dd \ 0x38800000, MCFG_METHOD_15, \ 0x38000000, MCFG_METHOD_12, \ 0x34000000, MCFG_METHOD_13, \ 0x30800000, MCFG_METHOD_14, \ 0x30000000, MCFG_METHOD_11, \ 0x18000000, MCFG_METHOD_05, \ 0x10000000, MCFG_METHOD_04, \ 0x04000000, MCFG_METHOD_03, \ 0x00800000, MCFG_METHOD_02, \ 0x00000000, MCFG_METHOD_01 ; catch-all name_01 db "RTL8169", 0 name_02_03 db "RTL8169s/8110s", 0 name_04 db "RTL8169sb/8110sb", 0 name_05 db "RTL8169sc/8110sc", 0 name_11_12 db "RTL8168b/8111b", 0 ; PCI-E name_13 db "RTL8101e", 0 ; PCI-E 8139 name_14_15 db "RTL8100e", 0 ; PCI-E 8139 section '.data' data readable writable align 16 ; place all uninitialized data place here device_list rd MAX_DEVICES ; This list contains all pointers to device structures the driver is handling