FreeCalypso > hg > freecalypso-tools
comparison doc/High-speed-serial @ 0:e7502631a0f9
initial import from freecalypso-sw rev 1033:5ab737ac3ad7
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Sat, 11 Jun 2016 00:13:35 +0000 |
| parents | |
| children | 00805e7c4c45 |
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| 1 The highest baud rate supported by "standard" PC serial ports is 115200 bps, | |
| 2 but Calypso UARTs can go quite a bit faster. Being clocked with 13 MHz (a | |
| 3 standard frequency in the GSM world), these UARTs can produce non-standard | |
| 4 (outside of the GSM world) baud rates of 203125, 406250 and 812500 bps. When | |
| 5 working with Motorola C1xx and Openmoko GTA01/02 phones which present a debug | |
| 6 and programming serial interface on a 2.5 mm headset jack, one can make use of | |
| 7 these high serial baud rates by using a USB to headset jack programming cable | |
| 8 based on one of the better USB-serial chips that can support these GSM special | |
| 9 baud rates well above 115200. The two USB-serial chips that are known to work | |
| 10 in this manner are CP2102 and FTDI, although each of the two requires its own | |
| 11 special quirks described below. Other USB to serial cables use chips which | |
| 12 don't support the high baud rates in question, and therefore are limited to | |
| 13 115200 baud max like a "standard" PC serial port. | |
| 14 | |
| 15 FreeCalypso tools can use these high serial baud rates in the following ways: | |
| 16 | |
| 17 * When you use fc-loadtool to dump and program GSM device flash memory | |
| 18 (flashing firmware images), the transfers get annoyingly slow at 115200 baud | |
| 19 if you have to do it a lot. Switching to 406250 or even better 812500 baud | |
| 20 makes them go considerably faster. | |
| 21 | |
| 22 * Some of our target devices have large enough RAM to execute a GSM firmware | |
| 23 image entirely from RAM without flashing - very handy for development and | |
| 24 experimentation. The tool used to run these RAM-based images is fc-xram, | |
| 25 and it also supports the option of using high serial baud rates for the image | |
| 26 transfer for the same reason: repeatedly transferring 1.5 MiB images over | |
| 27 115200 baud gets tiresome. | |
| 28 | |
| 29 * If you are building your own GSM firmware (either FC GSM fw or one of our | |
| 30 TCS211-based hacks), you can make it run its RVTMUX interface at 406250 or | |
| 31 812500 baud. We used this trick when we tried to make TCS211 with D-Sample- | |
| 32 targeting UI (176x220 pix LCD, 16 bits per pixel) send its virtual LCD raster | |
| 33 blits out the serial port. Our rvtdump and rvinterf utilities support this | |
| 34 mode of operation by providing options to select different baud rates. | |
| 35 | |
| 36 Using CP2102 adapters | |
| 37 ===================== | |
| 38 | |
| 39 CP2102 chips have a built-in EEPROM that contains (among other things) a | |
| 40 32-entry table in which the supported serial baud rates are programmed. In | |
| 41 order to support the special GSM baud rates, these rates need to be added to | |
| 42 that table, displacing some other entries. The convention established by the | |
| 43 Pirelli DP-L10 phone (has a CP2102 built in and programmed at the factory for | |
| 44 GSM baud rates) is that 203120 baud takes the place of 230400, 406250 takes the | |
| 45 place of 460800, and 812500 takes the place of 921600. | |
| 46 | |
| 47 Because you need a special cable anyway to make the necessary physical | |
| 48 connection to the debug/programming serial port presented on a 2.5 mm headset | |
| 49 jack, you will probably be buying the requisite cable from a specialized | |
| 50 professional vendor. In that case it is that vendor's responsibility to sell | |
| 51 you the cable with the CP2102 chip already programmed with GSM baud rates: | |
| 52 because the physical construction of the cable (2.5 mm headset jack on the | |
| 53 serial end) makes it specific to GSM devices, and all known GSM devices use a | |
| 54 13 MHz clock or some integer multiple thereof, it is pointless for a | |
| 55 physically-GSM-specific cable to be set up for 230400/460800/921600 baud when | |
| 56 all known GSM devices will need 203125/406250/812500 baud instead. | |
| 57 | |
| 58 If you making a CP2102-based serial cable yourself (either for your own personal | |
| 59 use or professionally/commercially), please follow these instructions for baud | |
| 60 rate programming: | |
| 61 | |
| 62 http://bb.osmocom.org/trac/wiki/Hardware/CP210xTutorial | |
| 63 | |
| 64 If you follow the procedure given on that page, your CP2102 will be programmed | |
| 65 the same way as the one in the Pirelli DP-L10 (Foxconn's original factory | |
| 66 programming). | |
| 67 | |
| 68 The serial port handling code in FreeCalypso host tools is written to request | |
| 69 B230400 from termios when 203125 baud is desired, likewise B460800 for 406250 | |
| 70 baud and B921600 for 812500 baud. Therefore, if you have a CP2102-based cable | |
| 71 with properly programmed EEPROM, everything will Just Work. | |
| 72 | |
| 73 Using FTDI adapters | |
| 74 =================== | |
| 75 | |
| 76 Unlike CP2102, FTDI adapters don't require any non-volatile EEPROM programming | |
| 77 for GSM baud rates, but they have a different pain point - arguably a worse one | |
| 78 - that is entirely a software issue. The API which the Linux kernel provides | |
| 79 to userspace applications for opening and configuring serial ports provides no | |
| 80 clean, sensible way for an application to request a particular baud rate that | |
| 81 is not in the predefined-once-and-for-all list, and to make it unambiguous to | |
| 82 the in-kernel driver exactly what it wants. | |
| 83 | |
| 84 The method provided by the ftdi_sio driver in the standard Linux kernel is | |
| 85 gross, and I (Space Falcon) refuse to use it. The serial port handling code in | |
| 86 FreeCalypso host tools is written for the clean CP2102 way, and is *not* muddied | |
| 87 with the muck that would be necessary to get the high GSM baud rates with an | |
| 88 unpatched ftdi_sio driver. Therefore, if you would like to use one of the high | |
| 89 GSM baud rates with FreeCalypso with an FTDI adapter, you will need to dirty | |
| 90 your Linux host system with a hacky kernel patch. The patch provided in | |
| 91 linux-2.6.37.6-ftdi_sio.c.patch (made against Linux 2.6.37.6, which is what I | |
| 92 use - came with Slackware 13.37 - adapt as necessary for your kernel version) | |
| 93 makes the ftdi_sio driver behave like a GSM-programmed CP2102: termios B230400 | |
| 94 turns into 203125 baud, B460800 turns into 406250 and B921600 turns into 812500. | |
| 95 | |
| 96 This patch won't break other software (*cough* osmocom-bb *cough*) that does | |
| 97 use the "standard" ftdi_sio way of requesting high GSM baud rates, i.e., both | |
| 98 ways of selecting these baud rates should still work, but if you have other | |
| 99 (non-GSM) serial devices on the same system which need 230400, 460800 or 921600 | |
| 100 baud, those will break. | |
| 101 | |
| 102 Using adapters built into phones | |
| 103 ================================ | |
| 104 | |
| 105 The Calypso chip has no native USB capabilities, thus if a Calypso phone | |
| 106 presents a USB charging+data port to the user, it must have a USB to serial | |
| 107 converter built in. The only phone we currently know of that does this is | |
| 108 Pirelli DP-L10, and its built-in USB-serial adapter chip is CP2102. It has | |
| 109 already been programmed with the correct GSM baud rates on Foxconn's original | |
| 110 production line, thus one can always use 812500 baud with FreeCalypso tools on | |
| 111 this phone and it will Just Work. |