/* * (C) Copyright IBM Corporation 2006 * All Rights Reserved. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * on the rights to use, copy, modify, merge, publish, distribute, sub * license, and/or sell copies of the Software, and to permit persons to whom * the Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice (including the next * paragraph) shall be included in all copies or substantial portions of the * Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. IN NO EVENT SHALL * IBM AND/OR THEIR SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. */ /** * \file pciaccess.h * * \author Ian Romanick */ #ifndef PCIACCESS_H #define PCIACCESS_H #include #if __GNUC__ >= 3 #define __deprecated __attribute__((deprecated)) #else #define __deprecated #endif typedef uint64_t pciaddr_t; struct pci_device; struct pci_device_iterator; struct pci_id_match; struct pci_slot_match; int pci_device_read_rom(struct pci_device *dev, void *buffer); int __deprecated pci_device_map_region(struct pci_device *dev, unsigned region, int write_enable); int __deprecated pci_device_unmap_region(struct pci_device *dev, unsigned region); int pci_device_map_range(struct pci_device *dev, pciaddr_t base, pciaddr_t size, unsigned map_flags, void **addr); int pci_device_unmap_range(struct pci_device *dev, void *memory, pciaddr_t size); int __deprecated pci_device_map_memory_range(struct pci_device *dev, pciaddr_t base, pciaddr_t size, int write_enable, void **addr); int __deprecated pci_device_unmap_memory_range(struct pci_device *dev, void *memory, pciaddr_t size); int pci_device_probe(struct pci_device *dev); const struct pci_agp_info *pci_device_get_agp_info(struct pci_device *dev); const struct pci_bridge_info *pci_device_get_bridge_info( struct pci_device *dev); const struct pci_pcmcia_bridge_info *pci_device_get_pcmcia_bridge_info( struct pci_device *dev); int pci_device_get_bridge_buses(struct pci_device *dev, int *primary_bus, int *secondary_bus, int *subordinate_bus); int pci_system_init(void); void pci_system_cleanup(void); struct pci_device_iterator *pci_slot_match_iterator_create( const struct pci_slot_match *match); struct pci_device_iterator *pci_id_match_iterator_create( const struct pci_id_match *match); void pci_iterator_destroy(struct pci_device_iterator *iter); struct pci_device *pci_device_next(struct pci_device_iterator *iter); struct pci_device *pci_device_find_by_slot(uint32_t domain, uint32_t bus, uint32_t dev, uint32_t func); void pci_get_strings(const struct pci_id_match *m, const char **device_name, const char **vendor_name, const char **subdevice_name, const char **subvendor_name); const char *pci_device_get_device_name(const struct pci_device *dev); const char *pci_device_get_subdevice_name(const struct pci_device *dev); const char *pci_device_get_vendor_name(const struct pci_device *dev); const char *pci_device_get_subvendor_name(const struct pci_device *dev); int pci_device_cfg_read (struct pci_device *dev, void *data, pciaddr_t offset, pciaddr_t size, pciaddr_t *bytes_read); int pci_device_cfg_read_u8 (struct pci_device *dev, uint8_t *data, pciaddr_t offset); int pci_device_cfg_read_u16(struct pci_device *dev, uint16_t *data, pciaddr_t offset); int pci_device_cfg_read_u32(struct pci_device *dev, uint32_t *data, pciaddr_t offset); int pci_device_cfg_write (struct pci_device *dev, const void *data, pciaddr_t offset, pciaddr_t size, pciaddr_t *bytes_written); int pci_device_cfg_write_u8 (struct pci_device *dev, uint8_t data, pciaddr_t offset); int pci_device_cfg_write_u16(struct pci_device *dev, uint16_t data, pciaddr_t offset); int pci_device_cfg_write_u32(struct pci_device *dev, uint32_t data, pciaddr_t offset); int pci_device_cfg_write_bits(struct pci_device *dev, uint32_t mask, uint32_t data, pciaddr_t offset); /** * \name Mapping flags passed to \c pci_device_map_range */ /*@{*/ #define PCI_DEV_MAP_FLAG_WRITABLE (1U<<0) #define PCI_DEV_MAP_FLAG_WRITE_COMBINE (1U<<1) #define PCI_DEV_MAP_FLAG_CACHABLE (1U<<2) /*@}*/ #define PCI_MATCH_ANY (~0) /** * Compare two PCI ID values (either vendor or device). This is used * internally to compare the fields of \c pci_id_match to the fields of * \c pci_device. */ #define PCI_ID_COMPARE(a, b) \ (((a) == PCI_MATCH_ANY) || ((a) == (b))) /** */ struct pci_id_match { /** * \name Device / vendor matching controls * * Control the search based on the device, vendor, subdevice, or subvendor * IDs. Setting any of these fields to \c PCI_MATCH_ANY will cause the * field to not be used in the comparison. */ /*@{*/ uint32_t vendor_id; uint32_t device_id; uint32_t subvendor_id; uint32_t subdevice_id; /*@}*/ /** * \name Device class matching controls * */ /*@{*/ uint32_t device_class; uint32_t device_class_mask; /*@}*/ intptr_t match_data; }; /** */ struct pci_slot_match { /** * \name Device slot matching controls * * Control the search based on the domain, bus, slot, and function of * the device. Setting any of these fields to \c PCI_MATCH_ANY will cause * the field to not be used in the comparison. */ /*@{*/ uint32_t domain; uint32_t bus; uint32_t dev; uint32_t func; /*@}*/ intptr_t match_data; }; /** * BAR descriptor for a PCI device. */ struct pci_mem_region { /** * When the region is mapped, this is the pointer to the memory. * * This field is \b only set when the deprecated \c pci_device_map_region * interface is used. Use \c pci_device_map_range instead. * * \deprecated */ void *memory; /** * Base physical address of the region within its bus / domain. * * \warning * This address is really only useful to other devices in the same * domain. It's probably \b not the address applications will ever * use. * * \warning * Most (all?) platform back-ends leave this field unset. */ pciaddr_t bus_addr; /** * Base physical address of the region from the CPU's point of view. * * This address is typically passed to \c pci_device_map_range to create * a mapping of the region to the CPU's virtual address space. */ pciaddr_t base_addr; /** * Size, in bytes, of the region. */ pciaddr_t size; /** * Is the region I/O ports or memory? */ unsigned is_IO:1; /** * Is the memory region prefetchable? * * \note * This can only be set if \c is_IO is not set. */ unsigned is_prefetchable:1; /** * Is the memory at a 64-bit address? * * \note * This can only be set if \c is_IO is not set. */ unsigned is_64:1; }; /** * PCI device. * * Contains all of the information about a particular PCI device. */ struct pci_device { /** * \name Device bus identification. * * Complete bus identification, including domain, of the device. On * platforms that do not support PCI domains (e.g., 32-bit x86 hardware), * the domain will always be zero. */ /*@{*/ uint16_t domain; uint8_t bus; uint8_t dev; uint8_t func; /*@}*/ /** * \name Vendor / device ID * * The vendor ID, device ID, and sub-IDs for the device. */ /*@{*/ uint16_t vendor_id; uint16_t device_id; uint16_t subvendor_id; uint16_t subdevice_id; /*@}*/ /** * Device's class, subclass, and programming interface packed into a * single 32-bit value. The class is at bits [23:16], subclass is at * bits [15:8], and programming interface is at [7:0]. */ uint32_t device_class; /** * Device revision number, as read from the configuration header. */ uint8_t revision; /** * BAR descriptors for the device. */ struct pci_mem_region regions[6]; /** * Size, in bytes, of the device's expansion ROM. */ pciaddr_t rom_size; /** * IRQ associated with the device. If there is no IRQ, this value will * be -1. */ int irq; /** * Storage for user data. Users of the library can store arbitrary * data in this pointer. The library will not use it for any purpose. * It is the user's responsability to free this memory before destroying * the \c pci_device structure. */ intptr_t user_data; }; /** * Description of the AGP capability of the device. * * \sa pci_device_get_agp_info */ struct pci_agp_info { /** * Offset of the AGP registers in the devices configuration register * space. This is generally used so that the offset of the AGP command * register can be determined. */ unsigned config_offset; /** * \name AGP major / minor version. */ /*@{*/ uint8_t major_version; uint8_t minor_version; /*@}*/ /** * Logical OR of the supported AGP rates. For example, a value of 0x07 * means that the device can support 1x, 2x, and 4x. A value of 0x0c * means that the device can support 8x and 4x. */ uint8_t rates; unsigned int fast_writes:1; /**< Are fast-writes supported? */ unsigned int addr64:1; unsigned int htrans:1; unsigned int gart64:1; unsigned int coherent:1; unsigned int sideband:1; /**< Is side-band addressing supported? */ unsigned int isochronus:1; uint8_t async_req_size; uint8_t calibration_cycle_timing; uint8_t max_requests; }; /** * Description of a PCI-to-PCI bridge device. * * \sa pci_device_get_bridge_info */ struct pci_bridge_info { uint8_t primary_bus; uint8_t secondary_bus; uint8_t subordinate_bus; uint8_t secondary_latency_timer; uint8_t io_type; uint8_t mem_type; uint8_t prefetch_mem_type; uint16_t secondary_status; uint16_t bridge_control; uint32_t io_base; uint32_t io_limit; uint32_t mem_base; uint32_t mem_limit; uint64_t prefetch_mem_base; uint64_t prefetch_mem_limit; }; /** * Description of a PCI-to-PCMCIA bridge device. * * \sa pci_device_get_pcmcia_bridge_info */ struct pci_pcmcia_bridge_info { uint8_t primary_bus; uint8_t card_bus; uint8_t subordinate_bus; uint8_t cardbus_latency_timer; uint16_t secondary_status; uint16_t bridge_control; struct { uint32_t base; uint32_t limit; } io[2]; struct { uint32_t base; uint32_t limit; } mem[2]; }; #endif /* PCIACCESS_H */