123 lines
5.7 KiB
Text
123 lines
5.7 KiB
Text
FMC Driver
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**********
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An FMC driver is concerned with the specific mezzanine and associated
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gateware. As such, it is expected to be independent of the carrier
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being used: it will perform I/O accesses only by means of
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carrier-provided functions.
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The matching between device and driver is based on the content of the
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EEPROM (as mandated by the FMC standard) or by the actual cores
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configured in the FPGA; the latter technique is used when the FPGA is
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already programmed when the device is registered to the bus core.
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In some special cases it is possible for a driver to directly access
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FPGA registers, by means of the `fpga_base' field of the device
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structure. This may be needed for high-bandwidth peripherals like fast
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ADC cards. If the device module registered a remote device (for example
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by means of Etherbone), the `fpga_base' pointer will be NULL.
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Therefore, drivers must be ready to deal with NULL base pointers, and
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fail gracefully. Most driver, however, are not expected to access the
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pointer directly but run fmc_readl and fmc_writel instead, which will
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work in any case.
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In even more special cases, the driver may access carrier-specific
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functionality: the `carrier_name' string allows the driver to check
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which is the current carrier and make use of the `carrier_data'
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pointer. We chose to use carrier names rather than numeric identifiers
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for greater flexibility, but also to avoid a central registry within
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the `fmc.h' file - we hope other users will exploit our framework with
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their own carriers. An example use of carrier names is in GPIO setup
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(see *note The GPIO Abstraction::), although the name match is not
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expected to be performed by the driver. If you depend on specific
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carriers, please check the carrier name and fail gracefully if your
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driver finds it is running in a yet-unknown-to-it environment.
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ID Table
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========
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Like most other Linux drivers, and FMC driver must list all the devices
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which it is able to drive. This is usually done by means of a device
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table, but in FMC we can match hardware based either on the contents of
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their EEPROM or on the actual FPGA cores that can be enumerated.
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Therefore, we have two tables of identifiers.
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Matching of FRU information depends on two names, the manufacturer (or
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vendor) and the device (see *note FMC Identification::); for
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flexibility during production (i.e. before writing to the EEPROM) the
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bus supports a catch-all driver that specifies NULL strings. For this
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reason, the table is specified as pointer-and-length, not a a
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null-terminated array - the entry with NULL names can be a valid entry.
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Matching on FPGA cores depends on two numeric fields: the 64-bit vendor
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number and the 32-bit device number. Support for matching based on
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class is not yet implemented. Each device is expected to be uniquely
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identified by an array of cores (it matches if all of the cores are
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instantiated), and for consistency the list is passed as
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pointer-and-length. Several similar devices can be driven by the same
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driver, and thus the driver specifies and array of such arrays.
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The complete set of involved data structures is thus the following:
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struct fmc_fru_id { char *manufacturer; char *product_name; };
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struct fmc_sdb_one_id { uint64_t vendor; uint32_t device; };
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struct fmc_sdb_id { struct fmc_sdb_one_id *cores; int cores_nr; };
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struct fmc_device_id {
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struct fmc_fru_id *fru_id; int fru_id_nr;
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struct fmc_sdb_id *sdb_id; int sdb_id_nr;
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};
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A better reference, with full explanation, is the <linux/fmc.h> header.
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Module Parameters
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=================
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Most of the FMC drivers need the same set of kernel parameters. This
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package includes support to implement common parameters by means of
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fields in the `fmc_driver' structure and simple macro definitions.
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The parameters are carrier-specific, in that they rely on the busid
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concept, that varies among carriers. For the SPEC, the identifier is a
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PCI bus and devfn number, 16 bits wide in total; drivers for other
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carriers will most likely offer something similar but not identical,
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and some code duplication is unavoidable.
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This is the list of parameters that are common to several modules to
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see how they are actually used, please look at spec-trivial.c.
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`busid='
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This is an array of integers, listing carrier-specific
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identification numbers. For PIC, for example, `0x0400' represents
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bus 4, slot 0. If any such ID is specified, the driver will only
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accept to drive cards that appear in the list (even if the FMC ID
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matches). This is accomplished by the validate carrier method.
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`gateware='
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The argument is an array of strings. If no busid= is specified,
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the first string of gateware= is used for all cards; otherwise the
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identifiers and gateware names are paired one by one, in the order
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specified.
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`show_sdb='
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For modules supporting it, this parameter asks to show the SDB
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internal structure by means of kernel messages. It is disabled by
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default because those lines tend to hide more important messages,
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if you look at the system console while loading the drivers.
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Note: the parameter is being obsoleted, because fmc.ko itself now
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supports dump_sdb= that applies to every client driver.
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For example, if you are using the trivial driver to load two different
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gateware files to two different cards, you can use the following
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parameters to load different binaries to the cards, after looking up
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the PCI identifiers. This has been tested with a SPEC carrier.
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insmod fmc-trivial.ko \
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busid=0x0200,0x0400 \
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gateware=fmc/fine-delay.bin,fmc/simple-dio.bin
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Please note that not all sub-modules support all of those parameters.
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You can use modinfo to check what is supported by each module.
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