pci_configure_bus(9) - NetBSD Manual Pages

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PCI_CONFIGURE_BUS(9)   NetBSD Kernel Developer's Manual   PCI_CONFIGURE_BUS(9)

pci_configure_bus, pci_conf_hook, pci_conf_interrupt, pciconf_resource_init, pciconf_resource_add, pciconf_resource_fini -- perform PCI bus configuration
#include <dev/pci/pciconf.h> int pci_configure_bus(pci_chipset_tag_t pc, struct pciconf_resources *res, int firstbus, int cacheline_size); struct pciconf_resources * pciconf_resource_init(void); void pciconf_resource_add(struct pciconf_resources *res, int type, bus_addr_t addr, bus_size_t size); void pciconf_resource_fini(struct pciconf_resources *res);
The pci_configure_bus() function configures a PCI bus for use. This involves: Defining bus numbers for all busses on the system, Setting the Base Address Registers for all devices, Setting up the interrupt line register for all devices, Configuring bus latency timers for all devices, and Configuring cacheline sizes for all devices. In traditional PCs and Alpha systems, the BIOS or firmware takes care of this task, but that is not the case for all systems. pci_configure_bus() should be called prior to the autoconfiguration of the bus. The pc argument is a machine-dependent tag used to specify the PCI chipset to the system. This should be the same value used with pci_make_tag(). The res argument is a container for PCI bus resources that will be used to configure the bus. The firstbus argument indicates the number of the first bus to be configured. The cacheline_size argu- ment is used to configure the PCI Cache Line Size Register; it should be the size, in bytes, of the largest D-cache line on the system. An implementation may choose to not have full configuration performed by pci_configure_bus() on certain PCI devices, such as PCI host bridges or PCI bus analyzers which are instantiated as devices on the bus. In order for this to take place, the header <machine/pci_machdep.h> must define the __HAVE_PCI_CONF_HOOK symbol (without a value), and a machine-depen- dent function pci_conf_hook() (declared in the same header) must be defined. The prototype for this function is: int pci_conf_hook(pci_chipset_tag_t pc, int bus, int device, int function, pcireg_t id); In this function, bus, device, and function uniquely identify the item being configured; in addition to this, the value of the device's PCI identification register is passed in id. For each device pci_conf_hook() can then decide upon the amount of configuration to be performed by returning a bitwise inclusive-or of the following flags: PCI_CONF_MAP_IO Configure Base Address Registers that map I/O space PCI_CONF_MAP_MEM Configure Base Address Registers that map mem- ory space PCI_CONF_MAP_ROM Configure Expansion ROM Base Address register PCI_CONF_ENABLE_IO Enable I/O space accesses PCI_CONF_ENABLE_MEM Enable memory space accesses PCI_CONF_ENABLE_BM Enable bus mastering In addition, PCI_CONF_ALL specifies all of the above. One of the functions of pci_configure_bus() is to configure interrupt ``line'' information. This must be done on a machine-dependent basis, so a machine-dependent function pci_conf_interrupt() must be defined. The prototype for this function is void pci_conf_interrupt(pci_chipset_tag_t pc, int bus, int device, int pin, int swiz, int *iline) In this function, bus, device, and pin, uniquely identify the item being configured. The swiz argument is a ``swizzle'', a sum of the device num- bers of the primary interface of the bridges between the host bridge and the current device. The function is responsible for setting the value of iline. See chapter 9 of the ``PCI-to-PCI Bridge Architecture Specification'' for more information on swizzling (also known as inter- rupt routing). The resources used to configure the PCI bus are encapsulated into a resource container. The pciconf_resource_init() function allocates and initializes one of these containers, and the pciconf_resource_add() func- tion adds resources to the container, specifying the type, start address, and size of the resource being added. The following resource types are supported: PCICONF_RESOURCE_IO An address region used for PCI I/O accesses. PCICONF_RESOURCE_MEM An address region used for PCI memory accesses where reads may have side effects. PCICONF_RESOURCE_PREFETCHABLE_MEM An address region used for PCI memory accesses where reads do not have side effects (e.g. ROMs, frame buffers, other memory-like regions that are marked as prefetchable in their BAR). If an implementation does not distinguish between prefetchable and non- prefetchable memory, then adding a PCICONF_RESOURCE_PREFETCHABLE_MEM resource is not required; PCICONF_RESOURCE_MEM resources will be used for ROMs and BARs that are marked as prefetchable. Once the bus has been successfully configured, the resource container should be disposed of by calling pciconf_resource_fini().
If successful pci_configure_bus() returns 0. A non-zero return value means that the bus was not completely configured for some reason. A description of the failure will be displayed on the console.
The pci_configure_bus() function is only included in the kernel if the kernel is compiled with the PCI_NETBSD_CONFIGURE option enabled.
The pci_conf_hook() function in evbppc's walnut implementation looks like: int pci_conf_hook(pci_chipset_tag_t pc, int bus, int dev, int func, pcireg_t id) { if ((PCI_VENDOR(id) == PCI_VENDOR_IBM && PCI_PRODUCT(id) == PCI_PRODUCT_IBM_405GP) || (PCI_VENDOR(id) == PCI_VENDOR_INTEL && PCI_PRODUCT(id) == PCI_PRODUCT_INTEL_80960_RP)) { /* Don't configure the bridge and PCI probe. */ return 0; } return (PCI_CONF_ALL & ~PCI_CONF_MAP_ROM); } The pci_conf_interrupt() function in the sandpoint implementation looks like: void pci_conf_interrupt(pci_chipset_tag_t pc, int bus, int dev, int pin, int swiz, int *iline) { if (bus == 0) { *iline = dev; } else { *iline = 13 + ((swiz + dev + 3) & 3); } } This configuration example is taken from the bebox port. #define PCI_IO_START 0x00008000 #define PCI_IO_END 0x0000ffff #define PCI_IO_SIZE ((PCI_IO_END - PCI_IO_START) + 1) #define PCI_MEM_START 0x00000000 #define PCI_MEM_END 0x0fffffff #define PCI_MEM_SIZE ((PCI_MEM_END - PCI_MEM_START) + 1) ... struct pciconf_resources *pcires; ... pcires = pciconf_resource_init(); pciconf_resource_add(pcires, PCICONF_RESOURCE_IO, PCI_IO_START, PCI_IO_SIZE); pciconf_resource_add(pcires, PCICONF_RESOURCE_MEM, PCI_MEM_START, PCI_MEM_SIZE); ... pci_configure_bus(pc, pcires, 0, CACHELINESIZE); ... pciconf_resource_fini(pcires); ... Note that this must be called before the PCI bus is attached during auto- configuration.
pci_configure_bus() was added in NetBSD 1.6. NetBSD 10.99 July 7, 2020 NetBSD 10.99
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