wiki2801: Nto640TiDra446evm1.0.0Releasenotes (Version 8) |
Release Notes for the QNX Neutrino 6.4.0 BSP for Texas Instruments DRA446 EVM 1.0.0#System requirements#Target system#
Host development system#
Getting Started#Step 1: Connect your hardware#Connect the serial cable to the serial port of the jacinto board and to the first serial port on the host machine (e.g. ser1 on a Neutrino host).Note:If you have a Neutrino host with a serial mouse, you may have to move the mouse to the second serial port on your host, because some terminal programs require the first serial port. Step 2: Build the BSP#You can build a BSP OS image from the source code or the binary components contained in a BSP package. For instructions about building a BSP OS image, please refer to the chapter Working with a BSP in the Building Embedded Systems manual. Step 3: Transfer the OS image to the target #Boot OS images by ROM monitor#1. On your host machine, start your favorite terminal program with these settings:
2. Start your target. You should see output similar to the following: U-Boot 1.1.3 (Jan 22 2007 - 16:13:39) U-Boot code: 62080000 -> 620977D0 BSS: -> 6209C4C8 RAM Configuration: Bank #0: 60000000 128 MB ******************** DRI version 0.05 ******************* qjwang@ti.com ARM Clock :- 324MHz SDRAM Clock :- 110MHz SPANSION NOR Flash: 64 MB In: serial Out: serial Err: serial Hit any key to stop autoboot: 3 Press any key to stop autobooting, and then you'll see the Jacinto prompt: Jacinto # On your target, type the following, filling in the appropriate IP addresses and ifs file: Jacinto # setenv netmask 255.255.240.0 Jacinto # setenv ipaddr 10.42.101.242 Jacinto # setenv gatewayip 10.42.96.1 Jacinto # setenv serverip 10.42.98.211 Jacinto # setenv 'bootcmd tftpboot 40100000;go 40100000' Jacinto # saveenv Restart your target. You should see output similar to the following: --------------------------------------------------------------------------------------------- Using MAC Address 00:0E:99:02:61:53 TFTP from server 10.42.98.211; our IP address is 10.42.101.242 Filename 'ifs-jacinto.raw'. Load address: 0x40100000 Loading: T T T T T T T ################################################################# ########################################################## done Bytes transferred = 627276 (9924c hex) ## Starting application at 0x40100000 ... Dcache: 512x32 WB Icache: 512x32 arm926 rev 5 324MHz System page at phys:40166000 user:fc404000 kern:fc404000 Starting next program at vfe0203a4 Welcome to QNX Neutrino 6.x on a TI Jacinto EVM # --------------------------------------------------------------------------------------------- Boot OS images by IPL#Note: Before burning the IPL, you might want to save the first 1 MB of flash in order to save the ROM monitor. 1. Run mkflashimage in the BSP's images directory to create a combined IPL/OS image to use when burning the flash. # ./mkflashimage 2. Download the ipl-ifs-jacinto.bin image to your target board, /dev/shmem/ipl-ifs-jacinto.bin. 3. Make sure the target can read the image you want to copy, and then execute the following commands in the Neutrino shell to burn the IPL-IFS images to flash: # devf-generic -s0x20000000,64M # flashctl -p/dev/fs0 -l6M -ve # cp -V /dev/shmem/ipl-ifs-jacinto.bin /dev/fs0 4. Reboot the target; the IPL should come up. Either press s to transfer the OS image serially using sendnto, or if you generated ipl-ifs-jacinto.bin and copied it to /dev/fs0, press f to scan the flash for an os image. Note: When booting serially, images larger than 6 MB won't load unless you first modify the IPL source. Step 4: Start working with Neutrino OS#You can test the OS simply by executing any shell builtin command or any command residing within the OS image (e.g. ls). Once the initial image is running, you can update the OS image using the network and flash drivers. For sample command lines, please see the “Summary of driver commands” section. Known issues for this BSP#Wrong link definition for /bin/sh in build file. Currently the link definition is pointing to an invalid executable and will cause other application invoking "sh" to fail. In order to fix the problem you need to modify the build file to point to the proper "sh" application.
Note: Please check the version of these release notes on the website for the most up-to-date information.
Workaround: When you start spi-master, don't specify the edma option. If you have acquired the ADE code from TI, you might be able to to resolve the conflict by modifying the EDMA channel numbers on both the DSP and ARM systems.
/bsp-TI-Jacinto-1.0.0-20071115-binsrc/src/hardware/devg/jacinto/mode.c:62: warning: passing arg 1 of `disp_phys_addr' discards qualifiers from pointer target type
/bsp-TI-Jacinto-1.0.0-20071115-binsrc/src/hardware/can/jacinto/driver.c:162: warning: comparison is always false due to limited range of data type /bsp-TI-Jacinto-1.0.0-20071115-binsrc/src/hardware/devg/jacinto/mode.c:62: warning: passing arg 1 of `disp_phys_addr' discards qualifiers from pointer target type
Workaround: Edit dra446.h and change this line: #define DRA446_SPI0_BASE 0x01C41800 to this: #define DRA446_SPI0_BASE 0x01C4CC00
Workaround: Modify your PATH environment variable and remove any quotation marks.
Workaround: If you need to specify a MAC address to io-pkt-v4, we recommend that you use the same MAC address that the ROM monitor uses. This will ensure that if the host caches the ROM monitor's MAC address, you'll still be able to communicate with the target. Otherwise you might need to delete the target's arp entry on your host.
Workaround: Modify the following 4 files 1. Download the latest version of setenv.sh or Modify the existing setenv.sh (line 2) Change from: CPWD=`$QNX_HOST/usr/bin/pwd` To: CPWD=`$QNX_HOST/usr/bin/pwd.exe` 2. Modify the file lib/dsplink14005/src/api/nto/drv_api.c (From line 1432 to 1434) Change from: (SMAPOOL_Attrs *)((POOL_OpenParams *)args->apiArgs.poolOpenArgs.params)->params = save_SMAPOOL_Attrs; (Uint32 *)((SMAPOOL_Attrs *)((POOL_OpenParams *)args->apiArgs.poolOpenArgs.params)->params)->bufSizes = save_bufsizes; (Uint32 *)((SMAPOOL_Attrs *)((POOL_OpenParams *)args->apiArgs.poolOpenArgs.params)->params)->numBuffers = save_numBuffers; To: ((POOL_OpenParams *)args->apiArgs.poolOpenArgs.params)->params = save_SMAPOOL_Attrs; ((SMAPOOL_Attrs *)((POOL_OpenParams *)args->apiArgs.poolOpenArgs.params)->params)->bufSizes = save_bufsizes; ((SMAPOOL_Attrs *)((POOL_OpenParams *)args->apiArgs.poolOpenArgs.params)->params)->numBuffers = save_numBuffers; 3. Modify the file lib/dsplink14005/src/gen/coff.c (both line 930 and 1125) Change from: Char8 symbolFromStrTab [COFF_NAME_LEN + 1]; To: Char8 symbolFromStrTab [COFF_NAME_LEN + 1] __attribute__((aligned(32))); 4. Modify the file services/Dsplink/resmgr.c (From line1209 to 1211) Change from: (SMAPOOL_Attrs *)((POOL_OpenParams *)args->apiArgs.poolOpenArgs.params)->params = smapoolattrs; (Uint32 *)((SMAPOOL_Attrs *)((POOL_OpenParams *)args->apiArgs.poolOpenArgs.params)->params)->bufSizes = bufsizes; (Uint32 *)((SMAPOOL_Attrs *)((POOL_OpenParams *)args->apiArgs.poolOpenArgs.params)->params)->numBuffers = numBufs; To: ((POOL_OpenParams *)args->apiArgs.poolOpenArgs.params)->params = smapoolattrs; ((SMAPOOL_Attrs *)((POOL_OpenParams *)args->apiArgs.poolOpenArgs.params)->params)->bufSizes = bufsizes; ((SMAPOOL_Attrs *)((POOL_OpenParams *)args->apiArgs.poolOpenArgs.params)->params)->numBuffers = numBufs; Summary of driver commands#The driver command lines below are specific to the TI Jacinto EVM board. See the online docs for each driver for additional command-line options and other details. Note: Some of the following drivers are commented out in the default buildfile. To use the drivers in the target hardware, you'll need to uncomment them in your buildfile, rebuild the image, and load the image into the board. Startup:#Command:startup-jacinto -L 0x67800000,0x800000 -vvvvv Serial:#Command:devc-ser8250-jacinto -e -F -S -b 115200 -c24000000/16 0x01c20000^2,43Required binaries:
Flash(NOR):#Command:devf-generic -s0x20000000,64MRequired binaries:
SPI:#Command:spi-master -d dra446 base=0x01c24c00,irq=37,edmairq=0xc128,edmachannel=40,edma=1Required binaries:
I2C:#Command:i2c-dm6446 -p0x01C21000 -i39 --u0 i2c-dm6446 -p0x01C21000 -i39 --u1Required binaries:
USB:#Command:io-usb -d jacinto ioport=0x01c42000,irq=2Required binaries:
Ethernet:#Command:io-pkt-v4 -dsmc9000-jacinto ioport=0x2a000000,irq=106Required binaries:
Block and SD:#Command: devb-eide-dm644x blk cache=12M devb-sd-jacinto blk cache=12M Required binaries:
Required libraries:
Audio:#Command: io-audio -d dra44x-jacintoNote: This driver must be started after the I2C driver is active. Required binaries:
Required libraries:
ETFS NAND flash#Command when using 16-bit nand chips:fs-etfs-jacinto -Dwidth=16 -m /fs/etfs Command when using 8-bit nand chips: fs-etfs-jacinto -Dwidth=8 -m /fs/etfs You should then see /dev/etfs1 and /dev/etfs2 partitions. Required binaries:
Note: You have to change the S1 config switch on the base board and start the driver with the correct command line options depending on the width of the chip. Graphics:#Command: io-display -dvid=0,did=0 Required binaries:
Required libraries:
1.The eVRU_Jacinto.out (version 2.03) DSP image must be running in order for the graphics driver to use hardware-accelerated rendering. 2. You must build the DSP image with the same configuration as DSPLink on the ARM side. Make sure you're using the correct command-line options to startup. For testing of this BSP, we used an 8M DSP image with eVRU version 2.03 provided by TES. 3. This BSP includes a sample jacinto.conf file. You may have to change the dspexe= option in the jacinto.conf file, depending on where the DSP image is located. Required config files:
Note: For more information about these commands, see the Neutrino Utilities Reference. About graphics#The graphics driver supports these display interfaces:
It's possible to do dual-display output using the VPSS analog output and the Internal Raster Controller. You can set this up in the jacinto.conf configuration file. VPSS display interface#The driver supports the following analog outputs:
You can use jacinto.conf to configure digital output. We tested the driver with the LG Philips LB080WV3 LCD. The VPSS controller supports the following layers or “OSD windows”:
You can control the following features for all layers:
The OSD windows can support the follow features:
You can enable or configure OSD Rectangular Cursor support using jacinto.conf. Note: Caveats:
Raster controller#The Raster Controller has been validated with the Sharp LQ050Q5DR01 TFT LCD. The Raster controller supports a single layer and runs only at the RGB565 pixel format. Optional graphics driver rendering acceleration#The graphics driver can run with SW rendering or can have accelerated 2D/3D rendering using a DSP image containing the TES eVRU graphics library. Hardware-accelerated 2D rendering using the eVRU graphics library is supported for RGB565, RGB888, and ARGB8888 color formats. The 2D accelerated features are:
Note: The alpha map must be the same size as the fill/blit size. Hardware-accelerated 3D rendering using the eVRU graphics library is limited, and is disabled by default to allow OpenGLES conformance. To enable the accelerated 3D rendering, set the sw3d option in jacinto.conf to 0 (sw3d=0). When enabled, the following features are accelerated for RGB565 and RGB888:
Optional graphics memory management#The Jacinto has two memory buses (EMIFA, EMIFB). We've found that for certain graphics operations, performance is improved if the source and destination surfaces are on separate EMIFs. You can reserve memory from the system by using the -rBASE,SIZE option, where BASE is the physical base address of memory, and SIZE is the number of bytes to reserve. To take advantage of this, you can specific two memory regions to devg-jacinto.so, using the following new options in jacinto.conf: abase The physical base address of the reserved memory pool. This must match the address specified to startup with the -r option. asize The size of the memory pool. This must match the size specified to startup with the -r option. bbase The physical base address of reserved memory pool. This must match the address specified to startup with the -r option. bsize The size of the memory pool. This must match the size specified to startup with the -r option. The EMIFA base address is 0x40000000 and is 128 MB in size, and the EMIFB base address is 0x60000000 and is 128 MB in size. In developing/testing this functionality, we used the following startup line: startup-jacinto -r 0x60000000,0x200000 -r0x47E00000,0x200000 -L 0x67800000,0x800000 -vvvvv The above line reserves 2 MB in EMIFA and 2 MB in EMIFB. The resulting entries in jacinto.conf are: bbase=0x60000000,bsize=0x200000,abase=0x47e00000,asize=0x200000 The devg-jacinto.so driver creates two memory pools to allocate surfaces from while surfaces can be allocated. By default, the driver attempts to allocate memory from POOL B (specified by bbase and bsize). If this allocation fails, the surface is allocated by the graphics framework from general system memory. It doesn't attempt to allocate the surface from the other pool. You can select POOL A (specified by abase and asize) by passing in the GF_SURFACE_CREATE_CPU_FAST_ACCESS flag to gf_surface_create() or gf_surface_create_layer() as shown in the following examples: if (gf_surface_create( &images[0], device, 100, 100, GF_FORMAT_BGR888, NULL, GF_SURFACE_CREATE_2D_ACCESSIBLE | GF_SURFACE_CREATE_CPU_FAST_ACCESS) != GF_ERR_OK) { return -1; } if (gf_surface_create_layer( &t_surface, &info->layer, 1, 0, info->width, info->height, info->layer_format, NULL, GF_SURFACE_CREATE_CPU_FAST_ACCESS) != GF_ERR_OK) { return 0; }If this allocation fails, the surface is allocated by the graphics framework from general system memory. It doesn't attempt to allocate the surface from the other pool. If you don't specify memory regions to that driver, all surfaces are created by the graphics framework in general memory (whether or not memory was reserved at startup). AVME/devg coexistence AVME/devg coexistence#It's possible to have the TI AVME and QNX graphics coexist in the same system. To do this, the following must occur:
For details on the avme options, see jacinto.conf. Creating a flash partition#1. Enter the following command to start the flash filesystem driver: devf-generic -s0x20000000,64M 2. Erase the flash, except for the first 6 MB: Note: Because the ROM monitor or IPL/OS image are in the first 6 megabyte of flash , you may not want to erase them. Use the -l (length) and -o (offset) options to avoid these areas. flashctl -p/dev/fs0 -o6M -l58M -ve 3. Format the partition: flashctl -p/dev/fs0p0 -o6M -l58M -vf 4. Slay and then restart the driver to mount the new partition: slay devf-generic devf-generic -s0x20000000,64MYou should now have a /fs0p0 and /fs0p1 directory automounted. |
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