From 92b53d211b4d9ad795ef8b2ad1ac0deed5a25f9a Mon Sep 17 00:00:00 2001 From: Vijay Kumar Banerjee Date: Mon, 1 Mar 2021 09:44:55 -0700 Subject: networking: Rename to legacy networking --- legacy-networking/dec_21140.rst | 236 ++++++++++++++++++++++++++++++++++++++++ 1 file changed, 236 insertions(+) create mode 100644 legacy-networking/dec_21140.rst (limited to 'legacy-networking/dec_21140.rst') diff --git a/legacy-networking/dec_21140.rst b/legacy-networking/dec_21140.rst new file mode 100644 index 0000000..5463b7d --- /dev/null +++ b/legacy-networking/dec_21140.rst @@ -0,0 +1,236 @@ +.. SPDX-License-Identifier: CC-BY-SA-4.0 + +DEC 21140 Driver +################ + +DEC 21240 Driver Introduction +============================= + +.. COMMENT: XXX add back in cross reference to list of boards. + +One aim of our project is to port RTEMS on a standard PowerPC platform. To +achieve it, we have chosen a Motorola MCP750 board. This board includes an +Ethernet controller based on a DEC21140 chip. Because RTEMS has a TCP/IP stack, +we will have to develop the DEC21140 related ethernet driver for the PowerPC +port of RTEMS. As this controller is able to support 100Mbps network and as +there is a lot of PCI card using this DEC chip, we have decided to first +implement this driver on an Intel PC386 target to provide a solution for using +RTEMS on PC with the 100Mbps network and then to port this code on PowerPC in a +second phase. + +The aim of this document is to give some PCI board generalities and to explain +the software architecture of the RTEMS driver. Finally, we will see what will +be done for ChorusOs and Netboot environment . + +Document Revision History +========================= + +*Current release*: + +- Current applicable release is 1.0. + +*Existing releases*: + +- 1.0 : Released the 10/02/98. First version of this document. + +- 0.1 : First draft of this document + +*Planned releases*: + +- None planned today. + +DEC21140 PCI Board Generalities +=============================== + +.. COMMENT: XXX add crossreference to PCI Register Figure + +This chapter describes rapidely the PCI interface of this Ethernet controller. +The board we have chosen for our PC386 implementation is a D-Link DFE-500TX. +This is a dual-speed 10/100Mbps Ethernet PCI adapter with a DEC21140AF chip. +Like other PCI devices, this board has a PCI device's header containing some +required configuration registers, as shown in the PCI Register Figure. By +reading or writing these registers, a driver can obtain information about the +type of the board, the interrupt it uses, the mapping of the chip specific +registers, ... + +On Intel target, the chip specific registers can be accessed via 2 methods : +I/O port access or PCI address mapped access. We have chosen to implement the +PCI address access to obtain compatible source code to the port the driver on a +PowerPC target. + +.. COMMENT: PCI Device's Configuration Header Space Format + + +.. figure ../images/networking/PCIreg.png + :align: center + :alt: PCI Device's Configuration Header Space Format + +.. COMMENT: XXX add crossreference to PCI Register Figure + +On RTEMS, a PCI API exists. We have used it to configure the board. After +initializing this PCI module via the ``pci_initialize()`` function, we try to +detect the DEC21140 based ethernet board. This board is characterized by its +Vendor ID (0x1011) and its Device ID (0x0009). We give these arguments to +the``pcib_find_by_deviceid`` function which returns , if the device is present, +a pointer to the configuration header space (see PCI Registers Fgure). Once +this operation performed, the driver is able to extract the information it +needs to configure the board internal registers, like the interrupt line, the +base address,... The board internal registers will not be detailled here. You +can find them in *DIGITAL Semiconductor 21140A PCI Fast Ethernet LAN Controller +- Hardware Reference Manual*. + +.. COMMENT: fix citation + +RTEMS Driver Software Architecture +================================== + +In this chapter will see the initialization phase, how the controller uses the +host memory and the 2 threads launched at the initialization time. + +Initialization phase +-------------------- + +The DEC21140 Ethernet driver keeps the same software architecture than the +other RTEMS ethernet drivers. The only API the programmer can use is the +``rtems_dec21140_driver_attach(struct rtems_bsdnet_ifconfig *config)`` +function which detects the board and initializes the associated data structure +(with registers base address, entry points to low-level initialization +function,...), if the board is found. + +Once the attach function executed, the driver initializes the DEC chip. Then +the driver connects an interrupt handler to the interrupt line driven by the +Ethernet controller (the only interrupt which will be treated is the receive +interrupt) and launches 2 threads : a receiver thread and a transmitter +thread. Then the driver waits for incoming frame to give to the protocol stack +or outcoming frame to send on the physical link. + +Memory Buffer +------------- + +.. COMMENT: XXX add cross reference to Problem + +This DEC chip uses the host memory to store the incoming Ethernet frames and +the descriptor of these frames. We have chosen to use 7 receive buffers and 1 +transmit buffer to optimize memory allocation due to cache and paging problem +that will be explained in the section *Encountered Problems*. + +To reference these buffers to the DEC chip we use a buffer descriptors +ring. The descriptor structure is defined in the Buffer Descriptor Figure. +Each descriptor can reference one or two memory buffers. We choose to use only +one buffer of 1520 bytes per descriptor. + +The difference between a receive and a transmit buffer descriptor is located in +the status and control bits fields. We do not give details here, please refer +to the DEC21140 Hardware Manual. + +.. COMMENT: Buffer Descriptor + + +.. figure:: ../images/networking/recvbd.png + :align: center + :alt: Buffer Descriptor + +Receiver Thread +--------------- + +This thread is event driven. Each time a DEC PCI board interrupt occurs, the +handler checks if this is a receive interrupt and send an event "reception" to +the receiver thread which looks into the entire buffer descriptors ring the +ones that contain a valid incoming frame (bit OWN=0 means descriptor belongs to +host processor). Each valid incoming ethernet frame is sent to the protocol +stack and the buffer descriptor is given back to the DEC board (the host +processor reset bit OWN, which means descriptor belongs to 21140). + +Transmitter Thread +------------------ + +This thread is also event driven. Each time an Ethernet frame is put in the +transmit queue, an event is sent to the transmit thread, which empty the queue +by sending each outcoming frame. Because we use only one transmit buffer, we +are sure that the frame is well-sent before sending the next. + +Encountered Problems +==================== + +On Intel PC386 target, we were faced with a problem of memory cache management. +Because the DEC chip uses the host memory to store the incoming frame and +because the DEC21140 configuration registers are mapped into the PCI address +space, we must ensure that the data read (or written) by the host processor are +the ones written (or read) by the DEC21140 device in the host memory and not +old data stored in the cache memory. Therefore, we had to provide a way to +manage the cache. This module is described in the document *RTEMS Cache +Management For Intel*. On Intel, the memory region cache management is +available only if the paging unit is enabled. We have used this paging +mechanism, with 4Kb page. All the buffers allocated to store the incoming or +outcoming frames, buffer descriptor and also the PCI address space of the DEC +board are located in a memory space with cache disable. + +Concerning the buffers and their descriptors, we have tried to optimize the +memory space in term of allocated page. One buffer has 1520 bytes, one +descriptor has 16 bytes. We have 7 receive buffers and 1 transmit buffer, and +for each, 1 descriptor : (7+1)*(1520+16) = 12288 bytes = 12Kb = 3 entire +pages. This allows not to lose too much memory or not to disable cache memory +for a page which contains other data than buffer, which could decrease +performance. + +Netboot DEC driver +================== + +We use Netboot tool to load our development from a server to the target via an +ethernet network. Currently, this tool does not support the DEC board. We plan +to port the DEC driver for the Netboot tool. + +But concerning the port of the DEC driver into Netboot, we are faced with a +problem: in RTEMS environment, the DEC driver is interrupt or event driven, in +Netboot environment, it must be used in polling mode. It means that we will +have to re-write some mechanisms of this driver. + +List of Ethernet cards using the DEC chip +========================================= + +Many Ethernet adapter cards use the Tulip chip. Here is a non exhaustive list +of adapters which support this driver : + +- Accton EtherDuo PCI. + +- Accton EN1207 All three media types supported. + +- Adaptec ANA6911/TX 21140-AC. + +- Cogent EM110 21140-A with DP83840 N-Way MII transceiver. + +- Cogent EM400 EM100 with 4 21140 100mbps-only ports + PCI Bridge. + +- Danpex EN-9400P3. + +- D-Link DFE500-Tx 21140-A with DP83840 transceiver. + +- Kingston EtherX KNE100TX 21140AE. + +- Netgear FX310 TX 10/100 21140AE. + +- SMC EtherPower10/100 With DEC21140 and 68836 SYM transceiver. + +- SMC EtherPower10/100 With DEC21140-AC and DP83840 MII transceiver. + Note: The EtherPower II uses the EPIC chip, which requires a different driver. + +- Surecom EP-320X DEC 21140. + +- Thomas Conrad TC5048. + +- Znyx ZX345 21140-A, usually with the DP83840 N-Way MII transciever. Some ZX345 + cards made in 1996 have an ICS 1890 transciver instead. + +- ZNYX ZX348 Two 21140-A chips using ICS 1890 transcievers and either a 21052 + or 21152 bridge. Early versions used National 83840 transcievers, but later + versions are depopulated ZX346 boards. + +- ZNYX ZX351 21140 chip with a Broadcom 100BaseT4 transciever. + +Our DEC driver has not been tested with all these cards, only with the D-Link +DFE500-TX. + +- DEC21140 Hardware Manual DIGITAL, DIGITAL Semiconductor 21140A PCI Fast + Ethernet LAN Controller - Hardware Reference Manual**. + +- *[99.TA.0021.M.ER]Emmanuel Raguet,*RTEMS Cache Management For Intel**. -- cgit v1.2.3