diff USB-ID-assignments @ 102:49be28a15768

USB-ID-assignments: new official document location Our master document for assignment of USB IDs that have been allocated to us by FTDI previously resided in doc/USB-IDs in freecalypso-hwlab repository. However, that hw lab hacks repository is not the right place for a long-term official policy document - the present repository is a much better place.
author Mychaela Falconia <falcon@freecalypso.org>
date Mon, 11 Sep 2023 06:32:05 +0000
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+USB PIDs 0x7150 through 0x7157 out of FTDI's VID 0x0403 have been officially
+allocated by FTDI to Falconia Partners LLC for use in our company's hardware
+products based on FTDI chips.  The sole authority for further assignment and
+use of these USB IDs rests with Mychaela N. Falconia and no one else.
+
+Falconia-made vs off-the-shelf hardware
+=======================================
+
+The common-sense ethical rules imposed by FTDI on the use of USB PIDs allocated
+out of their VID 0x0403 stipulate that these USB IDs may be assigned only to
+board-level products that use FTDI chips.  However, in the case of USB PIDs
+allocated by FTDI to Falconia Partners LLC, there is no specific requirement
+that all board-level products using these ID codes must be physically
+manufactured by our company: we can also program these ID codes into FTDI chip
+EEPROMs on various off-the-shelf boards made by parties other than us, as long
+as (1) those off-the-shelf boards feature genuine FTDI-made chips and (2) we as
+in Falconia Partners LLC retain full control and sole deciding authority as to
+which boards we program these ID codes into, when and how.
+
+As of 2023-07, we have only one board-level product with an FTDI chip that was
+physically manufactured by us: our FreeCalypso DUART28 adapter, produced in
+year 2020.  That board has two supported EEPROM configurations, switchable by
+end users, one of which uses an FTDI-Falconia USB ID code.  Aside from this
+Falconia-made DUART28, we've been programming FTDI-Falconia USB ID codes into
+some off-the-shelf boards with FTDI chips:
+
+* In earlier years we made heavy use of generic FT2232D breakout boards made by
+  PLDkit OU in Estonia.  We are not sure if that original company still makes
+  them or not, but the person behind that company name did eventually sell us
+  their Gerber files, and we have published them here:
+
+  ftp://ftp.freecalypso.org/pub/USB/FTDI/
+
+  Given that we have a stash of FT2232D chips and given that we still have use
+  cases for these generic breakout boards, we have a tentative plan to produce
+  our own Falconia-branded version of the same adapter/breakout board.
+
+* We are now starting to play with iCE40 FPGA designs using a Lattice iCEstick
+  board, and we quickly discovered that instead of programming their FT2232H
+  EEPROM with a distinguishing VID:PID code, Lattice left that EEPROM blank.
+  To fix the problem of Linux kernel creating a bogus ttyUSB device for FT2232H
+  Channel A which subsequently disappears when the developer-operator runs
+  iceprog, we program the EEPROM ourselves, using one of our FTDI-Falconia PIDs
+  that is recognized by mainline Linux (since 2020-09) as a "JTAG quirk" device,
+  binding a ttyUSB device only to Channel B.
+
+Specific hw product vs particular desired treatment from Linux kernel
+=====================================================================
+
+The original intent being USB VID:PID codes was to assign a different ID code
+to each different physical hardware product.  However, when it comes to
+assigning different USB ID codes to various FTDI-based boards where the actual
+chip always stays the same, there is only one reason to program any custom ID
+codes at all: to elicit special treatment from the ftdi_sio driver in the Linux
+kernel.  If the EEPROM is omitted, left blank or programmed with the chip-
+default VID:PID code, the ftdi_sio driver will bind a ttyUSB device to every
+channel of a multichannel FT2232x or FT4232H chip; the only reason why anyone
+would wish to program a non-standard USB ID code and (in all cases but one) go
+through the pain of getting that code added to Linux is if this default ftdi_sio
+driver behaviour is undesirable and some different special handling is desired
+or required:
+
+* Some FTDI-based designs support non-UART functions only and should be ignored
+  altogether by the ftdi_sio driver.  In these cases, program a USB ID code
+  that is not known at all to this Linux kernel driver.
+
+* In many designs FT2232x Channel A is used for MPSSE (JTAG or SPI), while
+  Channel B is used as a UART.  In this case the desire is to tell the ftdi_sio
+  driver to bind a ttyUSB device only to Channel B, and there is an ever-growing
+  list of USB ID codes (typically one or more from each board maker who ran into
+  this issue) that are recognized by the ftdi_sio driver as "JTAG quirk"
+  devices.
+
+* In yet other cases some other special quirk other than "skip Channel A for
+  JTAG" is desired from the ftdi_sio driver.  We have one such use case in
+  FreeCalypso: we have dual-UART configurations (FT2232x chip, both channels
+  used as UARTs and need ttyUSB devices) in which the ttyUSB device for
+  Channel A needs to be fully standard, but the one for Channel B is modified
+  with a special quirk - see our Linux-DTR-RTS-flaw article.
+
+Specific FTDI-Falconia PID assignments
+======================================
+
+Our original plan was to assign specific ID codes out of our allocated range to
+specific hw products of our own design and make, following the classic model
+for USB VID:PID assignments.  However, upon gaining some years of real-life
+experience, we have switched to a Linux-centric model: we assign USB ID codes
+based not on what physical hw it is, but on what kind of special treatment we
+seek from the ftdi_sio driver in Linux.
+
+Furthermore and in an unconventional stance, we (Falconia family, doing business
+as Falconia Partners LLC) explicitly allow any member of FOSS & OSHW community,
+without any need to communicate with us, to program some of our FTDI-Falconia
+USB PIDs into their own FTDI-based boards, under one essential condition - any
+non-Falconia party who wishes to use one of our FTDI-Falconia USB PIDs may do
+so if and only if:
+
+* The specific PID code you wish to reuse is explicitly listed in the present
+  document as being eligible for third-party reuse;
+
+* The manner in which you use that PID code is exactly as prescribed in this
+  document, not any other way.
+
+VID 0x0403, PIDs 0x7150 and 0x7151
+==================================
+
+USB ID codes 0403:7150 and 0403:7151 are recognized by the ftdi_sio driver in
+mainline Linux (since 2020-09) as "JTAG quirk" devices: the driver binds only
+to Channel B and creates only one ttyUSB device.  We (Falconia) grant permission
+to anyone in FOSS & OSHW community to reuse either of these two ID codes in
+their own FTDI-based board designs, or in their own personal programming of ID
+EEPROMs on off-the-shelf FTDI-based boards, provided that:
+
+* The FTDI chip is either FT2232C/D/L or FT2232H, genuine FTDI;
+
+* Your intent with respect to handling from the ftdi_sio driver in Linux (or
+  its equivalent in other operating systems) is the same as ours: create a
+  ttyUSB device for Channel B only, while Channel A remains unbound.
+
+Choice between 0x7150 and 0x7151
+--------------------------------
+
+Our original intent was to use PID 0x7150 for a planned buffered JTAG adapter
+which we ended up never actually making, while 0x7151 was allocated for
+programming into generic FT2232D breakout boards for an unbuffered JTAG adapter
+configuration.  As of 2023-07, that previously planned distinction is now
+officially revoked: both PIDs may be used for any FTDI-based board-level gadget
+that needs "JTAG quirk" handling from the ftdi_sio driver.
+
+When to comes to our own (Falconia/FreeCalypso) usage, our current plan as of
+2023-07 is to use PID 0x7150 for FPGA boards that use FT2232x Channel A for
+FPGA configuration and/or FPGA SPI flash programming, and use PID 0x7151 for
+all JTAG adapters, buffered or unbuffered.  However, other FOSS & OSHW community
+members may use either PID, as long as the requirements listed above are met.
+
+USB ID 0x0403:0x7152
+====================
+
+For this FTDI-Falconia PID *NO* outside use permission is currently granted: we
+as in Falconia family, doing business as Falconia Partners LLC, reserve this
+FTDI-allocated PID for use in our own products only.  We use this USB ID on
+multiple hardware products, all of which meet the following criteria:
+
+* The FTDI chip is two-channel FT2232x;
+
+* Both channels are wired as UARTs and actually used as such, thus needing two
+  ttyUSB devices in Linux;
+
+* Channel A is a fully standard UART, no special quirks;
+
+* The ttyUSB device for Channel B must be given a special quirk: automatic
+  assertion of DTR & RTS upon device open MUST be suppressed, while TIOCMBIS
+  and TIOCMBIC ioctls remain available for explicit user control of these two
+  signals.
+
+The original user of this USB ID code is the 'C' configuration of our DUART28
+hardware adapter (thus forming DUART28C); our current plan is to reuse the same
+wiring arrangement and the same USB ID code on our upcoming FC Venus board.
+
+USB ID 0x0403:0x7153
+====================
+
+This USB ID code is explicitly reserved for community use - specifically, for
+anyone who needs the same suppression of DTR & RTS auto-assertion which we've
+implemented for 0x0403:0x7152, but needs it on a single-channel FTDI device, or
+on all channels of a multichannel FTDI chip.  We (Falconia) grant permission to
+anyone in FOSS & OSHW community to use this USB ID code in their own FTDI-based
+board designs, or in their own personal programming of ID EEPROMs on off-the-
+shelf FTDI-based boards, provided that:
+
+* The chip is genuine FTDI;
+
+* Your intent with respect to handling from the ftdi_sio driver in Linux (or
+  its equivalent in other operating systems) is the same as ours: intentionally
+  make this particular ttyUSB device non-POSIX-compliant by NOT automatically
+  raising DTR and RTS on open, instead leaving all control over these two
+  signals up to userspace via explicit TIOCMBIS and TIOCMBIC ioctls.
+
+VID 0x0403, PIDs 0x7154 through 0x7156
+======================================
+
+These 3 FTDI-Falconia PIDs are currently unassigned.  NO permission is granted
+to any outside parties to use any of these unassigned PIDs.
+
+USB ID 0x0403:0x7157
+====================
+
+This USB ID code is reserved for FTDI-based board-level gadgets that are
+entirely non-UART and should be skipped altogether by the ftdi_sio driver.
+Examples include, but are not limited to single-channel FT232H used for JTAG or
+other MPSSE applications, FT2232H with both channels wired for MPSSE, or FT2232x
+in MCU host bus emulation mode.  We (Falconia) grant permission to anyone in
+FOSS & OSHW community to use this USB ID code in their own FTDI-based board
+designs, or in their own personal programming of ID EEPROMs on off-the-shelf
+FTDI-based boards, provided that:
+
+* The chip is genuine FTDI;
+
+* Your intent with respect to handling from the ftdi_sio driver in Linux (or
+  its equivalent in other operating systems) is the same as ours: have the
+  driver ignore this FTDI-based USB device altogether and NOT bind to it.
+
+Textual ID strings
+==================
+
+The configuration EEPROM on FTDI chips (internal on FT232R, external on most
+others) allows the higher-level integrator to set not only VID:PID codes, but
+also textual ID strings for manufacturer and product.  We (Falconia/FreeCalypso)
+always set meaningful textual ID strings in all of our FTDI EEPROM programming,
+and we encourage others to do likewise.  Furthermore, because we have switched
+to using VID:PID codes to indicate what handling we seek from the ftdi_sio
+driver in the Linux kernel, as opposed to identifying more specific hw products
+or designs, it is no longer possible to locate specific device types by looking
+at VID:PID alone.  For this reason, our new philosophy is that userspace
+applications that need to locate a specific type of non-UART FTDI device should
+match not only by VID:PID, but also by looking for specific product ID strings.