From: Linus Torvalds Date: Sat, 15 Jul 2017 19:58:58 +0000 (-0700) Subject: Merge tag 'standardize-docs' of git://git.lwn.net/linux X-Git-Tag: MMI-PSA29.97-13-9~5129 X-Git-Url: https://git.stricted.de/?a=commitdiff_plain;h=486088bc4689f826b80aa317b45ac9e42e8b25ee;p=GitHub%2FMotorolaMobilityLLC%2Fkernel-slsi.git Merge tag 'standardize-docs' of git://git.lwn.net/linux Pull documentation format standardization from Jonathan Corbet: "This series converts a number of top-level documents to the RST format without incorporating them into the Sphinx tree. The hope is to bring some uniformity to kernel documentation and, perhaps more importantly, have our existing docs serve as an example of the desired formatting for those that will be added later. Mauro has gone through and fixed up a lot of top-level documentation files to make them conform to the RST format, but without moving or renaming them in any way. This will help when we incorporate the ones we want to keep into the Sphinx doctree, but the real purpose is to bring a bit of uniformity to our documentation and let the top-level docs serve as examples for those writing new ones" * tag 'standardize-docs' of git://git.lwn.net/linux: (84 commits) docs: kprobes.txt: Fix whitespacing tee.txt: standardize document format cgroup-v2.txt: standardize document format dell_rbu.txt: standardize document format zorro.txt: standardize document format xz.txt: standardize document format xillybus.txt: standardize document format vfio.txt: standardize document format vfio-mediated-device.txt: standardize document format unaligned-memory-access.txt: standardize document format this_cpu_ops.txt: standardize document format svga.txt: standardize document format static-keys.txt: standardize document format smsc_ece1099.txt: standardize document format SM501.txt: standardize document format siphash.txt: standardize document format sgi-ioc4.txt: standardize document format SAK.txt: standardize document format rpmsg.txt: standardize document format robust-futexes.txt: standardize document format ... --- 486088bc4689f826b80aa317b45ac9e42e8b25ee diff --cc Documentation/ntb.txt index a5af4f0159f3,e4771e5c2ad7..a043854d28df --- a/Documentation/ntb.txt +++ b/Documentation/ntb.txt @@@ -1,18 -1,19 +1,21 @@@ - # NTB Drivers + =========== + NTB Drivers + =========== NTB (Non-Transparent Bridge) is a type of PCI-Express bridge chip that connects -the separate memory systems of two computers to the same PCI-Express fabric. -Existing NTB hardware supports a common feature set, including scratchpad -registers, doorbell registers, and memory translation windows. Scratchpad -registers are read-and-writable registers that are accessible from either side -of the device, so that peers can exchange a small amount of information at a -fixed address. Doorbell registers provide a way for peers to send interrupt -events. Memory windows allow translated read and write access to the peer -memory. +the separate memory systems of two or more computers to the same PCI-Express +fabric. Existing NTB hardware supports a common feature set: doorbell +registers and memory translation windows, as well as non common features like +scratchpad and message registers. Scratchpad registers are read-and-writable +registers that are accessible from either side of the device, so that peers can +exchange a small amount of information at a fixed address. Message registers can +be utilized for the same purpose. Additionally they are provided with with +special status bits to make sure the information isn't rewritten by another +peer. Doorbell registers provide a way for peers to send interrupt events. +Memory windows allow translated read and write access to the peer memory. - ## NTB Core Driver (ntb) + NTB Core Driver (ntb) + ===================== The NTB core driver defines an api wrapping the common feature set, and allows clients interested in NTB features to discover NTB the devices supported by @@@ -28,88 -30,8 +32,90 @@@ as ntb hardware, or hardware drivers, a registration uses the Linux Device framework, so it should feel familiar to anyone who has written a pci driver. - ### NTB Typical client driver implementation ++NTB Typical client driver implementation ++---------------------------------------- + +Primary purpose of NTB is to share some peace of memory between at least two +systems. So the NTB device features like Scratchpad/Message registers are +mainly used to perform the proper memory window initialization. Typically +there are two types of memory window interfaces supported by the NTB API: +inbound translation configured on the local ntb port and outbound translation +configured by the peer, on the peer ntb port. The first type is +depicted on the next figure + +Inbound translation: + Memory: Local NTB Port: Peer NTB Port: Peer MMIO: + ____________ + | dma-mapped |-ntb_mw_set_trans(addr) | + | memory | _v____________ | ______________ + | (addr) |<======| MW xlat addr |<====| MW base addr |<== memory-mapped IO + |------------| |--------------| | |--------------| + +So typical scenario of the first type memory window initialization looks: +1) allocate a memory region, 2) put translated address to NTB config, +3) somehow notify a peer device of performed initialization, 4) peer device +maps corresponding outbound memory window so to have access to the shared +memory region. + +The second type of interface, that implies the shared windows being +initialized by a peer device, is depicted on the figure: + +Outbound translation: + Memory: Local NTB Port: Peer NTB Port: Peer MMIO: + ____________ ______________ + | dma-mapped | | | MW base addr |<== memory-mapped IO + | memory | | |--------------| + | (addr) |<===================| MW xlat addr |<-ntb_peer_mw_set_trans(addr) + |------------| | |--------------| + +Typical scenario of the second type interface initialization would be: +1) allocate a memory region, 2) somehow deliver a translated address to a peer +device, 3) peer puts the translated address to NTB config, 4) peer device maps +outbound memory window so to have access to the shared memory region. + +As one can see the described scenarios can be combined in one portable +algorithm. + Local device: + 1) Allocate memory for a shared window + 2) Initialize memory window by translated address of the allocated region + (it may fail if local memory window initialization is unsupported) + 3) Send the translated address and memory window index to a peer device + Peer device: + 1) Initialize memory window with retrieved address of the allocated + by another device memory region (it may fail if peer memory window + initialization is unsupported) + 2) Map outbound memory window + +In accordance with this scenario, the NTB Memory Window API can be used as +follows: + Local device: + 1) ntb_mw_count(pidx) - retrieve number of memory ranges, which can + be allocated for memory windows between local device and peer device + of port with specified index. + 2) ntb_get_align(pidx, midx) - retrieve parameters restricting the + shared memory region alignment and size. Then memory can be properly + allocated. + 3) Allocate physically contiguous memory region in compliance with + restrictions retrieved in 2). + 4) ntb_mw_set_trans(pidx, midx) - try to set translation address of + the memory window with specified index for the defined peer device + (it may fail if local translated address setting is not supported) + 5) Send translated base address (usually together with memory window + number) to the peer device using, for instance, scratchpad or message + registers. + Peer device: + 1) ntb_peer_mw_set_trans(pidx, midx) - try to set received from other + device (related to pidx) translated address for specified memory + window. It may fail if retrieved address, for instance, exceeds + maximum possible address or isn't properly aligned. + 2) ntb_peer_mw_get_addr(widx) - retrieve MMIO address to map the memory + window so to have an access to the shared memory. + +Also it is worth to note, that method ntb_mw_count(pidx) should return the +same value as ntb_peer_mw_count() on the peer with port index - pidx. + - ### NTB Transport Client (ntb\_transport) and NTB Netdev (ntb\_netdev) + NTB Transport Client (ntb\_transport) and NTB Netdev (ntb\_netdev) + ------------------------------------------------------------------ The primary client for NTB is the Transport client, used in tandem with NTB Netdev. These drivers function together to create a logical link to the peer,