/* chips are arbitrary chips (superio, southbridge, etc.) * They have private structures that define chip resources and default * settings. They have four externally visible functions for control. * They have a generic component which applies to all chips for * path, etc. */ #include #include #include /** * @brief Configure static devices * * Starting from the static device 'root', walk the tree and configure each * device by calling the device specific chip_control::enable(). * * This function is only an iterator, the exact definition of 'configure' * depends on the device specific implementation of chip_control::enable(). * * @param root root of the static device tree to be configured. * @param pass pass of the configuration operation to be perfromed. * * @see chip_pass * @see chip_control::enable */ void chip_configure(struct chip *root, enum chip_pass pass) { struct chip *c; for (c = root; c; c = c->next) { if (c->control && c->control->enable) c->control->enable(c, pass); } for (c = root; c; c = c->next) { if (c->children) chip_configure(c->children, pass); } } /** * @brief Convert static device structures to dynamic structures. * * A static device may contain one or more dynamic devices. Dynamic device * structures of these devices have to be generated before the enumeration * of dynamic devices. This function converts a static chip structure to a * set of dynamic device structures. * * This function is the generic method called by enumerate_static_device_chain() * for static devices. Devices extend this default behavior by defining their * own chip_controll::enumerate(). Generally, device specific * chip_control::enumerate() method calls this function as its last operation. * * @param chip static chip structure to be converted. * */ void chip_enumerate(struct chip *chip) { struct chip *child; device_t dev; int link; int i; dev = 0; link = 0; if (chip->control && chip->control->name) { printk_debug("Enumerating: %s\n", chip->control->name); } for (i = 0; i < MAX_CHIP_PATHS; i++) { int identical_paths; identical_paths = (i > 0) && (path_eq(&chip->path[i - 1].path, &chip->path[i].path)); if (!identical_paths) { struct bus *parent; int bus; link = 0; dev = 0; parent = chip->bus; switch(chip->path[i].path.type) { case DEVICE_PATH_NONE: /* no dynamic device associated */ break; case DEVICE_PATH_PCI: bus = chip->path[i].path.u.pci.bus; if (bus != 0) { device_t dev; int i = 1; dev = chip->dev; while (dev && (i != bus)) { dev = dev->next; i++; } if ((i == bus) && dev) { parent = &dev->link[0]; } } /* Fall through */ default: dev = alloc_dev(parent, &chip->path[i].path); break; } } else { link += 1; } if (dev) { struct chip_resource *res, *res_limit; printk_spew("path (%p) %s %s", dev, dev_path(dev), identical_paths?"identical":""); printk_spew(" parent: (%p) %s\n", dev->bus->dev, dev_path(dev->bus->dev)); dev->chip = chip; dev->enabled = chip->path[i].enable; dev->links = link + 1; for (child = chip->children; child; child = child->next) { if (!child->bus && child->link == i) { child->bus = &dev->link[link]; } } res = &chip->path[i].resource[0]; res_limit = &chip->path[i].resource[MAX_RESOURCES]; for(; res < res_limit; res++) { if (res->flags) { struct resource *resource; resource = get_resource(dev, res->index); resource->flags = res->flags | IORESOURCE_FIXED | IORESOURCE_ASSIGNED; resource->base = res->base; } } } if (dev && !chip->dev) { chip->dev = dev; } } for (child = chip->children; child; child = child->next) { if (!child->bus) { child->bus = &chip->dev->link[0]; } } } /** * @brief Enumerate a static device tree. * * A static device chain is a linked list of static device structures which are * on the same branch of the static device tree. This function does not only * enumerate the devices on a single chain, as its name suggest, it also walks * into the subordinary chains by recursion. It calls the device specific * chip_control::enumerate() of the device if one exists or calls the generic * chip_enumerate(). * * This function is only an iterator, the exact definition of 'enumerate' * depends on the implementation of the generic chip_enumerate() and/or device * specific chip_control::enumerate(). * * @param root static chip structure to start with. * * @see chip_control::enumerate() */ static void enumerate_static_device_chain(struct chip *root) { struct chip *chip; for (chip = root; chip; chip = chip->next) { void (*enumerate)(struct chip *chip); enumerate = chip_enumerate; if (chip->control && chip->control->enumerate) { enumerate = chip->control->enumerate; } enumerate(chip); } for (chip = root; chip; chip = chip->next) { if (chip->children) { enumerate_static_device_chain(chip->children); } } } /** * @brief Enumerate static devices in the system. * * Static device is . Static devices are actually enumerated or "listed" in * the Config.lb config file and the corresponding data structures are * generated by config tool in the static.c. * * \note The definition of 'enumerate' is not clear in this context. Does it * mean probe ? * * \note How do we determine the existence of the static devices ? Static * devices are listed in the config file and generated at compile time by config * tool. This function is called at certain point in the early stage of * LinuxBIOS. It uses the chip_enumerate() function to convert the static * structures into dynamic ones. What if the static devices listed in the config * file does actually not exist in the system ? Is there any side effect of * these 'phantom' device structures * * The static device does not necesarry conform to the dynamic device tree in * the system. */ void enumerate_static_devices(void) { printk_info("Enumerating static devices...\n"); enumerate_static_device_chain(&static_root); }