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2222 2223 2224 2225 2226 2227 2228 2229 2230 2231 2232 2233 2234 2235 2236 2237 2238 2239 2240 2241 2242 2243 2244 2245 2246 2247 2248 2249 2250 2251 2252 2253 2254 2255 2256 2257 2258 2259 2260 2261 2262 2263 2264 2265 2266 2267 2268 2269 2270 2271 2272 2273 2274 2275 2276 2277 2278 2279 2280 2281 2282 2283 2284 2285 2286 2287 2288 2289 2290 2291 2292 2293 2294 2295 2296 2297 2298 2299 2300 2301 2302 2303 2304 2305 2306 2307 2308 2309 2310 2311 2312 2313 2314 2315 2316 2317 2318 2319 2320 2321 2322 2323 2324 2325 2326 2327 | // SPDX-License-Identifier: GPL-2.0-or-later /* * RapidIO interconnect services * (RapidIO Interconnect Specification, http://www.rapidio.org) * * Copyright 2005 MontaVista Software, Inc. * Matt Porter <mporter@kernel.crashing.org> * * Copyright 2009 - 2013 Integrated Device Technology, Inc. * Alex Bounine <alexandre.bounine@idt.com> */ #include <linux/types.h> #include <linux/kernel.h> #include <linux/delay.h> #include <linux/init.h> #include <linux/rio.h> #include <linux/rio_drv.h> #include <linux/rio_ids.h> #include <linux/rio_regs.h> #include <linux/module.h> #include <linux/spinlock.h> #include <linux/slab.h> #include <linux/interrupt.h> #include "rio.h" /* * struct rio_pwrite - RIO portwrite event * @node: Node in list of doorbell events * @pwcback: Doorbell event callback * @context: Handler specific context to pass on event */ struct rio_pwrite { struct list_head node; int (*pwcback)(struct rio_mport *mport, void *context, union rio_pw_msg *msg, int step); void *context; }; MODULE_DESCRIPTION("RapidIO Subsystem Core"); MODULE_AUTHOR("Matt Porter <mporter@kernel.crashing.org>"); MODULE_AUTHOR("Alexandre Bounine <alexandre.bounine@idt.com>"); MODULE_LICENSE("GPL"); static int hdid[RIO_MAX_MPORTS]; static int ids_num; module_param_array(hdid, int, &ids_num, 0); MODULE_PARM_DESC(hdid, "Destination ID assignment to local RapidIO controllers"); static LIST_HEAD(rio_devices); static LIST_HEAD(rio_nets); static DEFINE_SPINLOCK(rio_global_list_lock); static LIST_HEAD(rio_mports); static LIST_HEAD(rio_scans); static DEFINE_MUTEX(rio_mport_list_lock); static unsigned char next_portid; static DEFINE_SPINLOCK(rio_mmap_lock); /** * rio_local_get_device_id - Get the base/extended device id for a port * @port: RIO master port from which to get the deviceid * * Reads the base/extended device id from the local device * implementing the master port. Returns the 8/16-bit device * id. */ u16 rio_local_get_device_id(struct rio_mport *port) { u32 result; rio_local_read_config_32(port, RIO_DID_CSR, &result); return (RIO_GET_DID(port->sys_size, result)); } EXPORT_SYMBOL_GPL(rio_local_get_device_id); /** * rio_query_mport - Query mport device attributes * @port: mport device to query * @mport_attr: mport attributes data structure * * Returns attributes of specified mport through the * pointer to attributes data structure. */ int rio_query_mport(struct rio_mport *port, struct rio_mport_attr *mport_attr) { if (!port->ops->query_mport) return -ENODATA; return port->ops->query_mport(port, mport_attr); } EXPORT_SYMBOL(rio_query_mport); /** * rio_alloc_net- Allocate and initialize a new RIO network data structure * @mport: Master port associated with the RIO network * * Allocates a RIO network structure, initializes per-network * list heads, and adds the associated master port to the * network list of associated master ports. Returns a * RIO network pointer on success or %NULL on failure. */ struct rio_net *rio_alloc_net(struct rio_mport *mport) { struct rio_net *net = kzalloc(sizeof(*net), GFP_KERNEL); if (net) { INIT_LIST_HEAD(&net->node); INIT_LIST_HEAD(&net->devices); INIT_LIST_HEAD(&net->switches); INIT_LIST_HEAD(&net->mports); mport->net = net; } return net; } EXPORT_SYMBOL_GPL(rio_alloc_net); int rio_add_net(struct rio_net *net) { int err; err = device_register(&net->dev); if (err) return err; spin_lock(&rio_global_list_lock); list_add_tail(&net->node, &rio_nets); spin_unlock(&rio_global_list_lock); return 0; } EXPORT_SYMBOL_GPL(rio_add_net); void rio_free_net(struct rio_net *net) { spin_lock(&rio_global_list_lock); if (!list_empty(&net->node)) list_del(&net->node); spin_unlock(&rio_global_list_lock); if (net->release) net->release(net); device_unregister(&net->dev); } EXPORT_SYMBOL_GPL(rio_free_net); /** * rio_local_set_device_id - Set the base/extended device id for a port * @port: RIO master port * @did: Device ID value to be written * * Writes the base/extended device id from a device. */ void rio_local_set_device_id(struct rio_mport *port, u16 did) { rio_local_write_config_32(port, RIO_DID_CSR, RIO_SET_DID(port->sys_size, did)); } EXPORT_SYMBOL_GPL(rio_local_set_device_id); /** * rio_add_device- Adds a RIO device to the device model * @rdev: RIO device * * Adds the RIO device to the global device list and adds the RIO * device to the RIO device list. Creates the generic sysfs nodes * for an RIO device. */ int rio_add_device(struct rio_dev *rdev) { int err; atomic_set(&rdev->state, RIO_DEVICE_RUNNING); err = device_register(&rdev->dev); if (err) return err; spin_lock(&rio_global_list_lock); list_add_tail(&rdev->global_list, &rio_devices); if (rdev->net) { list_add_tail(&rdev->net_list, &rdev->net->devices); if (rdev->pef & RIO_PEF_SWITCH) list_add_tail(&rdev->rswitch->node, &rdev->net->switches); } spin_unlock(&rio_global_list_lock); return 0; } EXPORT_SYMBOL_GPL(rio_add_device); /* * rio_del_device - removes a RIO device from the device model * @rdev: RIO device * @state: device state to set during removal process * * Removes the RIO device to the kernel device list and subsystem's device list. * Clears sysfs entries for the removed device. */ void rio_del_device(struct rio_dev *rdev, enum rio_device_state state) { pr_debug("RIO: %s: removing %s\n", __func__, rio_name(rdev)); atomic_set(&rdev->state, state); spin_lock(&rio_global_list_lock); list_del(&rdev->global_list); if (rdev->net) { list_del(&rdev->net_list); if (rdev->pef & RIO_PEF_SWITCH) { list_del(&rdev->rswitch->node); kfree(rdev->rswitch->route_table); } } spin_unlock(&rio_global_list_lock); device_unregister(&rdev->dev); } EXPORT_SYMBOL_GPL(rio_del_device); /** * rio_request_inb_mbox - request inbound mailbox service * @mport: RIO master port from which to allocate the mailbox resource * @dev_id: Device specific pointer to pass on event * @mbox: Mailbox number to claim * @entries: Number of entries in inbound mailbox queue * @minb: Callback to execute when inbound message is received * * Requests ownership of an inbound mailbox resource and binds * a callback function to the resource. Returns %0 on success. */ int rio_request_inb_mbox(struct rio_mport *mport, void *dev_id, int mbox, int entries, void (*minb) (struct rio_mport * mport, void *dev_id, int mbox, int slot)) { int rc = -ENOSYS; struct resource *res; if (!mport->ops->open_inb_mbox) goto out; res = kzalloc(sizeof(*res), GFP_KERNEL); if (res) { rio_init_mbox_res(res, mbox, mbox); /* Make sure this mailbox isn't in use */ rc = request_resource(&mport->riores[RIO_INB_MBOX_RESOURCE], res); if (rc < 0) { kfree(res); goto out; } mport->inb_msg[mbox].res = res; /* Hook the inbound message callback */ mport->inb_msg[mbox].mcback = minb; rc = mport->ops->open_inb_mbox(mport, dev_id, mbox, entries); if (rc) { mport->inb_msg[mbox].mcback = NULL; mport->inb_msg[mbox].res = NULL; release_resource(res); kfree(res); } } else rc = -ENOMEM; out: return rc; } EXPORT_SYMBOL_GPL(rio_request_inb_mbox); /** * rio_release_inb_mbox - release inbound mailbox message service * @mport: RIO master port from which to release the mailbox resource * @mbox: Mailbox number to release * * Releases ownership of an inbound mailbox resource. Returns 0 * if the request has been satisfied. */ int rio_release_inb_mbox(struct rio_mport *mport, int mbox) { int rc; if (!mport->ops->close_inb_mbox || !mport->inb_msg[mbox].res) return -EINVAL; mport->ops->close_inb_mbox(mport, mbox); mport->inb_msg[mbox].mcback = NULL; rc = release_resource(mport->inb_msg[mbox].res); if (rc) return rc; kfree(mport->inb_msg[mbox].res); mport->inb_msg[mbox].res = NULL; return 0; } EXPORT_SYMBOL_GPL(rio_release_inb_mbox); /** * rio_request_outb_mbox - request outbound mailbox service * @mport: RIO master port from which to allocate the mailbox resource * @dev_id: Device specific pointer to pass on event * @mbox: Mailbox number to claim * @entries: Number of entries in outbound mailbox queue * @moutb: Callback to execute when outbound message is sent * * Requests ownership of an outbound mailbox resource and binds * a callback function to the resource. Returns 0 on success. */ int rio_request_outb_mbox(struct rio_mport *mport, void *dev_id, int mbox, int entries, void (*moutb) (struct rio_mport * mport, void *dev_id, int mbox, int slot)) { int rc = -ENOSYS; struct resource *res; if (!mport->ops->open_outb_mbox) goto out; res = kzalloc(sizeof(*res), GFP_KERNEL); if (res) { rio_init_mbox_res(res, mbox, mbox); /* Make sure this outbound mailbox isn't in use */ rc = request_resource(&mport->riores[RIO_OUTB_MBOX_RESOURCE], res); if (rc < 0) { kfree(res); goto out; } mport->outb_msg[mbox].res = res; /* Hook the inbound message callback */ mport->outb_msg[mbox].mcback = moutb; rc = mport->ops->open_outb_mbox(mport, dev_id, mbox, entries); if (rc) { mport->outb_msg[mbox].mcback = NULL; mport->outb_msg[mbox].res = NULL; release_resource(res); kfree(res); } } else rc = -ENOMEM; out: return rc; } EXPORT_SYMBOL_GPL(rio_request_outb_mbox); /** * rio_release_outb_mbox - release outbound mailbox message service * @mport: RIO master port from which to release the mailbox resource * @mbox: Mailbox number to release * * Releases ownership of an inbound mailbox resource. Returns 0 * if the request has been satisfied. */ int rio_release_outb_mbox(struct rio_mport *mport, int mbox) { int rc; if (!mport->ops->close_outb_mbox || !mport->outb_msg[mbox].res) return -EINVAL; mport->ops->close_outb_mbox(mport, mbox); mport->outb_msg[mbox].mcback = NULL; rc = release_resource(mport->outb_msg[mbox].res); if (rc) return rc; kfree(mport->outb_msg[mbox].res); mport->outb_msg[mbox].res = NULL; return 0; } EXPORT_SYMBOL_GPL(rio_release_outb_mbox); /** * rio_setup_inb_dbell - bind inbound doorbell callback * @mport: RIO master port to bind the doorbell callback * @dev_id: Device specific pointer to pass on event * @res: Doorbell message resource * @dinb: Callback to execute when doorbell is received * * Adds a doorbell resource/callback pair into a port's * doorbell event list. Returns 0 if the request has been * satisfied. */ static int rio_setup_inb_dbell(struct rio_mport *mport, void *dev_id, struct resource *res, void (*dinb) (struct rio_mport * mport, void *dev_id, u16 src, u16 dst, u16 info)) { struct rio_dbell *dbell = kmalloc(sizeof(*dbell), GFP_KERNEL); if (!dbell) return -ENOMEM; dbell->res = res; dbell->dinb = dinb; dbell->dev_id = dev_id; mutex_lock(&mport->lock); list_add_tail(&dbell->node, &mport->dbells); mutex_unlock(&mport->lock); return 0; } /** * rio_request_inb_dbell - request inbound doorbell message service * @mport: RIO master port from which to allocate the doorbell resource * @dev_id: Device specific pointer to pass on event * @start: Doorbell info range start * @end: Doorbell info range end * @dinb: Callback to execute when doorbell is received * * Requests ownership of an inbound doorbell resource and binds * a callback function to the resource. Returns 0 if the request * has been satisfied. */ int rio_request_inb_dbell(struct rio_mport *mport, void *dev_id, u16 start, u16 end, void (*dinb) (struct rio_mport * mport, void *dev_id, u16 src, u16 dst, u16 info)) { int rc; struct resource *res = kzalloc(sizeof(*res), GFP_KERNEL); if (res) { rio_init_dbell_res(res, start, end); /* Make sure these doorbells aren't in use */ rc = request_resource(&mport->riores[RIO_DOORBELL_RESOURCE], res); if (rc < 0) { kfree(res); goto out; } /* Hook the doorbell callback */ rc = rio_setup_inb_dbell(mport, dev_id, res, dinb); } else rc = -ENOMEM; out: return rc; } EXPORT_SYMBOL_GPL(rio_request_inb_dbell); /** * rio_release_inb_dbell - release inbound doorbell message service * @mport: RIO master port from which to release the doorbell resource * @start: Doorbell info range start * @end: Doorbell info range end * * Releases ownership of an inbound doorbell resource and removes * callback from the doorbell event list. Returns 0 if the request * has been satisfied. */ int rio_release_inb_dbell(struct rio_mport *mport, u16 start, u16 end) { int rc = 0, found = 0; struct rio_dbell *dbell; mutex_lock(&mport->lock); list_for_each_entry(dbell, &mport->dbells, node) { if ((dbell->res->start == start) && (dbell->res->end == end)) { list_del(&dbell->node); found = 1; break; } } mutex_unlock(&mport->lock); /* If we can't find an exact match, fail */ if (!found) { rc = -EINVAL; goto out; } /* Release the doorbell resource */ rc = release_resource(dbell->res); /* Free the doorbell event */ kfree(dbell); out: return rc; } EXPORT_SYMBOL_GPL(rio_release_inb_dbell); /** * rio_request_outb_dbell - request outbound doorbell message range * @rdev: RIO device from which to allocate the doorbell resource * @start: Doorbell message range start * @end: Doorbell message range end * * Requests ownership of a doorbell message range. Returns a resource * if the request has been satisfied or %NULL on failure. */ struct resource *rio_request_outb_dbell(struct rio_dev *rdev, u16 start, u16 end) { struct resource *res = kzalloc(sizeof(struct resource), GFP_KERNEL); if (res) { rio_init_dbell_res(res, start, end); /* Make sure these doorbells aren't in use */ if (request_resource(&rdev->riores[RIO_DOORBELL_RESOURCE], res) < 0) { kfree(res); res = NULL; } } return res; } EXPORT_SYMBOL_GPL(rio_request_outb_dbell); /** * rio_release_outb_dbell - release outbound doorbell message range * @rdev: RIO device from which to release the doorbell resource * @res: Doorbell resource to be freed * * Releases ownership of a doorbell message range. Returns 0 if the * request has been satisfied. */ int rio_release_outb_dbell(struct rio_dev *rdev, struct resource *res) { int rc = release_resource(res); kfree(res); return rc; } EXPORT_SYMBOL_GPL(rio_release_outb_dbell); /** * rio_add_mport_pw_handler - add port-write message handler into the list * of mport specific pw handlers * @mport: RIO master port to bind the portwrite callback * @context: Handler specific context to pass on event * @pwcback: Callback to execute when portwrite is received * * Returns 0 if the request has been satisfied. */ int rio_add_mport_pw_handler(struct rio_mport *mport, void *context, int (*pwcback)(struct rio_mport *mport, void *context, union rio_pw_msg *msg, int step)) { struct rio_pwrite *pwrite = kzalloc(sizeof(*pwrite), GFP_KERNEL); if (!pwrite) return -ENOMEM; pwrite->pwcback = pwcback; pwrite->context = context; mutex_lock(&mport->lock); list_add_tail(&pwrite->node, &mport->pwrites); mutex_unlock(&mport->lock); return 0; } EXPORT_SYMBOL_GPL(rio_add_mport_pw_handler); /** * rio_del_mport_pw_handler - remove port-write message handler from the list * of mport specific pw handlers * @mport: RIO master port to bind the portwrite callback * @context: Registered handler specific context to pass on event * @pwcback: Registered callback function * * Returns 0 if the request has been satisfied. */ int rio_del_mport_pw_handler(struct rio_mport *mport, void *context, int (*pwcback)(struct rio_mport *mport, void *context, union rio_pw_msg *msg, int step)) { int rc = -EINVAL; struct rio_pwrite *pwrite; mutex_lock(&mport->lock); list_for_each_entry(pwrite, &mport->pwrites, node) { if (pwrite->pwcback == pwcback && pwrite->context == context) { list_del(&pwrite->node); kfree(pwrite); rc = 0; break; } } mutex_unlock(&mport->lock); return rc; } EXPORT_SYMBOL_GPL(rio_del_mport_pw_handler); /** * rio_request_inb_pwrite - request inbound port-write message service for * specific RapidIO device * @rdev: RIO device to which register inbound port-write callback routine * @pwcback: Callback routine to execute when port-write is received * * Binds a port-write callback function to the RapidIO device. * Returns 0 if the request has been satisfied. */ int rio_request_inb_pwrite(struct rio_dev *rdev, int (*pwcback)(struct rio_dev *rdev, union rio_pw_msg *msg, int step)) { int rc = 0; spin_lock(&rio_global_list_lock); if (rdev->pwcback) rc = -ENOMEM; else rdev->pwcback = pwcback; spin_unlock(&rio_global_list_lock); return rc; } EXPORT_SYMBOL_GPL(rio_request_inb_pwrite); /** * rio_release_inb_pwrite - release inbound port-write message service * associated with specific RapidIO device * @rdev: RIO device which registered for inbound port-write callback * * Removes callback from the rio_dev structure. Returns 0 if the request * has been satisfied. */ int rio_release_inb_pwrite(struct rio_dev *rdev) { int rc = -ENOMEM; spin_lock(&rio_global_list_lock); if (rdev->pwcback) { rdev->pwcback = NULL; rc = 0; } spin_unlock(&rio_global_list_lock); return rc; } EXPORT_SYMBOL_GPL(rio_release_inb_pwrite); /** * rio_pw_enable - Enables/disables port-write handling by a master port * @mport: Master port associated with port-write handling * @enable: 1=enable, 0=disable */ void rio_pw_enable(struct rio_mport *mport, int enable) { if (mport->ops->pwenable) { mutex_lock(&mport->lock); if ((enable && ++mport->pwe_refcnt == 1) || (!enable && mport->pwe_refcnt && --mport->pwe_refcnt == 0)) mport->ops->pwenable(mport, enable); mutex_unlock(&mport->lock); } } EXPORT_SYMBOL_GPL(rio_pw_enable); /** * rio_map_inb_region -- Map inbound memory region. * @mport: Master port. * @local: physical address of memory region to be mapped * @rbase: RIO base address assigned to this window * @size: Size of the memory region * @rflags: Flags for mapping. * * Return: 0 -- Success. * * This function will create the mapping from RIO space to local memory. */ int rio_map_inb_region(struct rio_mport *mport, dma_addr_t local, u64 rbase, u32 size, u32 rflags) { int rc; unsigned long flags; if (!mport->ops->map_inb) return -1; spin_lock_irqsave(&rio_mmap_lock, flags); rc = mport->ops->map_inb(mport, local, rbase, size, rflags); spin_unlock_irqrestore(&rio_mmap_lock, flags); return rc; } EXPORT_SYMBOL_GPL(rio_map_inb_region); /** * rio_unmap_inb_region -- Unmap the inbound memory region * @mport: Master port * @lstart: physical address of memory region to be unmapped */ void rio_unmap_inb_region(struct rio_mport *mport, dma_addr_t lstart) { unsigned long flags; if (!mport->ops->unmap_inb) return; spin_lock_irqsave(&rio_mmap_lock, flags); mport->ops->unmap_inb(mport, lstart); spin_unlock_irqrestore(&rio_mmap_lock, flags); } EXPORT_SYMBOL_GPL(rio_unmap_inb_region); /** * rio_map_outb_region -- Map outbound memory region. * @mport: Master port. * @destid: destination id window points to * @rbase: RIO base address window translates to * @size: Size of the memory region * @rflags: Flags for mapping. * @local: physical address of memory region mapped * * Return: 0 -- Success. * * This function will create the mapping from RIO space to local memory. */ int rio_map_outb_region(struct rio_mport *mport, u16 destid, u64 rbase, u32 size, u32 rflags, dma_addr_t *local) { int rc; unsigned long flags; if (!mport->ops->map_outb) return -ENODEV; spin_lock_irqsave(&rio_mmap_lock, flags); rc = mport->ops->map_outb(mport, destid, rbase, size, rflags, local); spin_unlock_irqrestore(&rio_mmap_lock, flags); return rc; } EXPORT_SYMBOL_GPL(rio_map_outb_region); /** * rio_unmap_inb_region -- Unmap the inbound memory region * @mport: Master port * @destid: destination id mapping points to * @rstart: RIO base address window translates to */ void rio_unmap_outb_region(struct rio_mport *mport, u16 destid, u64 rstart) { unsigned long flags; if (!mport->ops->unmap_outb) return; spin_lock_irqsave(&rio_mmap_lock, flags); mport->ops->unmap_outb(mport, destid, rstart); spin_unlock_irqrestore(&rio_mmap_lock, flags); } EXPORT_SYMBOL_GPL(rio_unmap_outb_region); /** * rio_mport_get_physefb - Helper function that returns register offset * for Physical Layer Extended Features Block. * @port: Master port to issue transaction * @local: Indicate a local master port or remote device access * @destid: Destination ID of the device * @hopcount: Number of switch hops to the device * @rmap: pointer to location to store register map type info */ u32 rio_mport_get_physefb(struct rio_mport *port, int local, u16 destid, u8 hopcount, u32 *rmap) { u32 ext_ftr_ptr; u32 ftr_header; ext_ftr_ptr = rio_mport_get_efb(port, local, destid, hopcount, 0); while (ext_ftr_ptr) { if (local) rio_local_read_config_32(port, ext_ftr_ptr, &ftr_header); else rio_mport_read_config_32(port, destid, hopcount, ext_ftr_ptr, &ftr_header); ftr_header = RIO_GET_BLOCK_ID(ftr_header); switch (ftr_header) { case RIO_EFB_SER_EP_ID: case RIO_EFB_SER_EP_REC_ID: case RIO_EFB_SER_EP_FREE_ID: case RIO_EFB_SER_EP_M1_ID: case RIO_EFB_SER_EP_SW_M1_ID: case RIO_EFB_SER_EPF_M1_ID: case RIO_EFB_SER_EPF_SW_M1_ID: *rmap = 1; return ext_ftr_ptr; case RIO_EFB_SER_EP_M2_ID: case RIO_EFB_SER_EP_SW_M2_ID: case RIO_EFB_SER_EPF_M2_ID: case RIO_EFB_SER_EPF_SW_M2_ID: *rmap = 2; return ext_ftr_ptr; default: break; } ext_ftr_ptr = rio_mport_get_efb(port, local, destid, hopcount, ext_ftr_ptr); } return ext_ftr_ptr; } EXPORT_SYMBOL_GPL(rio_mport_get_physefb); /** * rio_get_comptag - Begin or continue searching for a RIO device by component tag * @comp_tag: RIO component tag to match * @from: Previous RIO device found in search, or %NULL for new search * * Iterates through the list of known RIO devices. If a RIO device is * found with a matching @comp_tag, a pointer to its device * structure is returned. Otherwise, %NULL is returned. A new search * is initiated by passing %NULL to the @from argument. Otherwise, if * @from is not %NULL, searches continue from next device on the global * list. */ struct rio_dev *rio_get_comptag(u32 comp_tag, struct rio_dev *from) { struct list_head *n; struct rio_dev *rdev; spin_lock(&rio_global_list_lock); n = from ? from->global_list.next : rio_devices.next; while (n && (n != &rio_devices)) { rdev = rio_dev_g(n); if (rdev->comp_tag == comp_tag) goto exit; n = n->next; } rdev = NULL; exit: spin_unlock(&rio_global_list_lock); return rdev; } EXPORT_SYMBOL_GPL(rio_get_comptag); /** * rio_set_port_lockout - Sets/clears LOCKOUT bit (RIO EM 1.3) for a switch port. * @rdev: Pointer to RIO device control structure * @pnum: Switch port number to set LOCKOUT bit * @lock: Operation : set (=1) or clear (=0) */ int rio_set_port_lockout(struct rio_dev *rdev, u32 pnum, int lock) { u32 regval; rio_read_config_32(rdev, RIO_DEV_PORT_N_CTL_CSR(rdev, pnum), ®val); if (lock) regval |= RIO_PORT_N_CTL_LOCKOUT; else regval &= ~RIO_PORT_N_CTL_LOCKOUT; rio_write_config_32(rdev, RIO_DEV_PORT_N_CTL_CSR(rdev, pnum), regval); return 0; } EXPORT_SYMBOL_GPL(rio_set_port_lockout); /** * rio_enable_rx_tx_port - enable input receiver and output transmitter of * given port * @port: Master port associated with the RIO network * @local: local=1 select local port otherwise a far device is reached * @destid: Destination ID of the device to check host bit * @hopcount: Number of hops to reach the target * @port_num: Port (-number on switch) to enable on a far end device * * Returns 0 or 1 from on General Control Command and Status Register * (EXT_PTR+0x3C) */ int rio_enable_rx_tx_port(struct rio_mport *port, int local, u16 destid, u8 hopcount, u8 port_num) { #ifdef CONFIG_RAPIDIO_ENABLE_RX_TX_PORTS u32 regval; u32 ext_ftr_ptr; u32 rmap; /* * enable rx input tx output port */ pr_debug("rio_enable_rx_tx_port(local = %d, destid = %d, hopcount = " "%d, port_num = %d)\n", local, destid, hopcount, port_num); ext_ftr_ptr = rio_mport_get_physefb(port, local, destid, hopcount, &rmap); if (local) { rio_local_read_config_32(port, ext_ftr_ptr + RIO_PORT_N_CTL_CSR(0, rmap), ®val); } else { if (rio_mport_read_config_32(port, destid, hopcount, ext_ftr_ptr + RIO_PORT_N_CTL_CSR(port_num, rmap), ®val) < 0) return -EIO; } regval = regval | RIO_PORT_N_CTL_EN_RX | RIO_PORT_N_CTL_EN_TX; if (local) { rio_local_write_config_32(port, ext_ftr_ptr + RIO_PORT_N_CTL_CSR(0, rmap), regval); } else { if (rio_mport_write_config_32(port, destid, hopcount, ext_ftr_ptr + RIO_PORT_N_CTL_CSR(port_num, rmap), regval) < 0) return -EIO; } #endif return 0; } EXPORT_SYMBOL_GPL(rio_enable_rx_tx_port); /** * rio_chk_dev_route - Validate route to the specified device. * @rdev: RIO device failed to respond * @nrdev: Last active device on the route to rdev * @npnum: nrdev's port number on the route to rdev * * Follows a route to the specified RIO device to determine the last available * device (and corresponding RIO port) on the route. */ static int rio_chk_dev_route(struct rio_dev *rdev, struct rio_dev **nrdev, int *npnum) { u32 result; int p_port, rc = -EIO; struct rio_dev *prev = NULL; /* Find switch with failed RIO link */ while (rdev->prev && (rdev->prev->pef & RIO_PEF_SWITCH)) { if (!rio_read_config_32(rdev->prev, RIO_DEV_ID_CAR, &result)) { prev = rdev->prev; break; } rdev = rdev->prev; } if (!prev) goto err_out; p_port = prev->rswitch->route_table[rdev->destid]; if (p_port != RIO_INVALID_ROUTE) { pr_debug("RIO: link failed on [%s]-P%d\n", rio_name(prev), p_port); *nrdev = prev; *npnum = p_port; rc = 0; } else pr_debug("RIO: failed to trace route to %s\n", rio_name(rdev)); err_out: return rc; } /** * rio_mport_chk_dev_access - Validate access to the specified device. * @mport: Master port to send transactions * @destid: Device destination ID in network * @hopcount: Number of hops into the network */ int rio_mport_chk_dev_access(struct rio_mport *mport, u16 destid, u8 hopcount) { int i = 0; u32 tmp; while (rio_mport_read_config_32(mport, destid, hopcount, RIO_DEV_ID_CAR, &tmp)) { i++; if (i == RIO_MAX_CHK_RETRY) return -EIO; mdelay(1); } return 0; } EXPORT_SYMBOL_GPL(rio_mport_chk_dev_access); /** * rio_chk_dev_access - Validate access to the specified device. * @rdev: Pointer to RIO device control structure */ static int rio_chk_dev_access(struct rio_dev *rdev) { return rio_mport_chk_dev_access(rdev->net->hport, rdev->destid, rdev->hopcount); } /** * rio_get_input_status - Sends a Link-Request/Input-Status control symbol and * returns link-response (if requested). * @rdev: RIO devive to issue Input-status command * @pnum: Device port number to issue the command * @lnkresp: Response from a link partner */ static int rio_get_input_status(struct rio_dev *rdev, int pnum, u32 *lnkresp) { u32 regval; int checkcount; if (lnkresp) { /* Read from link maintenance response register * to clear valid bit */ rio_read_config_32(rdev, RIO_DEV_PORT_N_MNT_RSP_CSR(rdev, pnum), ®val); udelay(50); } /* Issue Input-status command */ rio_write_config_32(rdev, RIO_DEV_PORT_N_MNT_REQ_CSR(rdev, pnum), RIO_MNT_REQ_CMD_IS); /* Exit if the response is not expected */ if (!lnkresp) return 0; checkcount = 3; while (checkcount--) { udelay(50); rio_read_config_32(rdev, RIO_DEV_PORT_N_MNT_RSP_CSR(rdev, pnum), ®val); if (regval & RIO_PORT_N_MNT_RSP_RVAL) { *lnkresp = regval; return 0; } } return -EIO; } /** * rio_clr_err_stopped - Clears port Error-stopped states. * @rdev: Pointer to RIO device control structure * @pnum: Switch port number to clear errors * @err_status: port error status (if 0 reads register from device) * * TODO: Currently this routine is not compatible with recovery process * specified for idt_gen3 RapidIO switch devices. It has to be reviewed * to implement universal recovery process that is compatible full range * off available devices. * IDT gen3 switch driver now implements HW-specific error handler that * issues soft port reset to the port to reset ERR_STOP bits and ackIDs. */ static int rio_clr_err_stopped(struct rio_dev *rdev, u32 pnum, u32 err_status) { struct rio_dev *nextdev = rdev->rswitch->nextdev[pnum]; u32 regval; u32 far_ackid, far_linkstat, near_ackid; if (err_status == 0) rio_read_config_32(rdev, RIO_DEV_PORT_N_ERR_STS_CSR(rdev, pnum), &err_status); if (err_status & RIO_PORT_N_ERR_STS_OUT_ES) { pr_debug("RIO_EM: servicing Output Error-Stopped state\n"); /* * Send a Link-Request/Input-Status control symbol */ if (rio_get_input_status(rdev, pnum, ®val)) { pr_debug("RIO_EM: Input-status response timeout\n"); goto rd_err; } pr_debug("RIO_EM: SP%d Input-status response=0x%08x\n", pnum, regval); far_ackid = (regval & RIO_PORT_N_MNT_RSP_ASTAT) >> 5; far_linkstat = regval & RIO_PORT_N_MNT_RSP_LSTAT; rio_read_config_32(rdev, RIO_DEV_PORT_N_ACK_STS_CSR(rdev, pnum), ®val); pr_debug("RIO_EM: SP%d_ACK_STS_CSR=0x%08x\n", pnum, regval); near_ackid = (regval & RIO_PORT_N_ACK_INBOUND) >> 24; pr_debug("RIO_EM: SP%d far_ackID=0x%02x far_linkstat=0x%02x" \ " near_ackID=0x%02x\n", pnum, far_ackid, far_linkstat, near_ackid); /* * If required, synchronize ackIDs of near and * far sides. */ if ((far_ackid != ((regval & RIO_PORT_N_ACK_OUTSTAND) >> 8)) || (far_ackid != (regval & RIO_PORT_N_ACK_OUTBOUND))) { /* Align near outstanding/outbound ackIDs with * far inbound. */ rio_write_config_32(rdev, RIO_DEV_PORT_N_ACK_STS_CSR(rdev, pnum), (near_ackid << 24) | (far_ackid << 8) | far_ackid); /* Align far outstanding/outbound ackIDs with * near inbound. */ far_ackid++; if (!nextdev) { pr_debug("RIO_EM: nextdev pointer == NULL\n"); goto rd_err; } rio_write_config_32(nextdev, RIO_DEV_PORT_N_ACK_STS_CSR(nextdev, RIO_GET_PORT_NUM(nextdev->swpinfo)), (far_ackid << 24) | (near_ackid << 8) | near_ackid); } rd_err: rio_read_config_32(rdev, RIO_DEV_PORT_N_ERR_STS_CSR(rdev, pnum), &err_status); pr_debug("RIO_EM: SP%d_ERR_STS_CSR=0x%08x\n", pnum, err_status); } if ((err_status & RIO_PORT_N_ERR_STS_INP_ES) && nextdev) { pr_debug("RIO_EM: servicing Input Error-Stopped state\n"); rio_get_input_status(nextdev, RIO_GET_PORT_NUM(nextdev->swpinfo), NULL); udelay(50); rio_read_config_32(rdev, RIO_DEV_PORT_N_ERR_STS_CSR(rdev, pnum), &err_status); pr_debug("RIO_EM: SP%d_ERR_STS_CSR=0x%08x\n", pnum, err_status); } return (err_status & (RIO_PORT_N_ERR_STS_OUT_ES | RIO_PORT_N_ERR_STS_INP_ES)) ? 1 : 0; } /** * rio_inb_pwrite_handler - inbound port-write message handler * @mport: mport device associated with port-write * @pw_msg: pointer to inbound port-write message * * Processes an inbound port-write message. Returns 0 if the request * has been satisfied. */ int rio_inb_pwrite_handler(struct rio_mport *mport, union rio_pw_msg *pw_msg) { struct rio_dev *rdev; u32 err_status, em_perrdet, em_ltlerrdet; int rc, portnum; struct rio_pwrite *pwrite; #ifdef DEBUG_PW { u32 i; pr_debug("%s: PW to mport_%d:\n", __func__, mport->id); for (i = 0; i < RIO_PW_MSG_SIZE / sizeof(u32); i = i + 4) { pr_debug("0x%02x: %08x %08x %08x %08x\n", i * 4, pw_msg->raw[i], pw_msg->raw[i + 1], pw_msg->raw[i + 2], pw_msg->raw[i + 3]); } } #endif rdev = rio_get_comptag((pw_msg->em.comptag & RIO_CTAG_UDEVID), NULL); if (rdev) { pr_debug("RIO: Port-Write message from %s\n", rio_name(rdev)); } else { pr_debug("RIO: %s No matching device for CTag 0x%08x\n", __func__, pw_msg->em.comptag); } /* Call a device-specific handler (if it is registered for the device). * This may be the service for endpoints that send device-specific * port-write messages. End-point messages expected to be handled * completely by EP specific device driver. * For switches rc==0 signals that no standard processing required. */ if (rdev && rdev->pwcback) { rc = rdev->pwcback(rdev, pw_msg, 0); if (rc == 0) return 0; } mutex_lock(&mport->lock); list_for_each_entry(pwrite, &mport->pwrites, node) pwrite->pwcback(mport, pwrite->context, pw_msg, 0); mutex_unlock(&mport->lock); if (!rdev) return 0; /* * FIXME: The code below stays as it was before for now until we decide * how to do default PW handling in combination with per-mport callbacks */ portnum = pw_msg->em.is_port & 0xFF; /* Check if device and route to it are functional: * Sometimes devices may send PW message(s) just before being * powered down (or link being lost). */ if (rio_chk_dev_access(rdev)) { pr_debug("RIO: device access failed - get link partner\n"); /* Scan route to the device and identify failed link. * This will replace device and port reported in PW message. * PW message should not be used after this point. */ if (rio_chk_dev_route(rdev, &rdev, &portnum)) { pr_err("RIO: Route trace for %s failed\n", rio_name(rdev)); return -EIO; } pw_msg = NULL; } /* For End-point devices processing stops here */ if (!(rdev->pef & RIO_PEF_SWITCH)) return 0; if (rdev->phys_efptr == 0) { pr_err("RIO_PW: Bad switch initialization for %s\n", rio_name(rdev)); return 0; } /* * Process the port-write notification from switch */ if (rdev->rswitch->ops && rdev->rswitch->ops->em_handle) rdev->rswitch->ops->em_handle(rdev, portnum); rio_read_config_32(rdev, RIO_DEV_PORT_N_ERR_STS_CSR(rdev, portnum), &err_status); pr_debug("RIO_PW: SP%d_ERR_STS_CSR=0x%08x\n", portnum, err_status); if (err_status & RIO_PORT_N_ERR_STS_PORT_OK) { if (!(rdev->rswitch->port_ok & (1 << portnum))) { rdev->rswitch->port_ok |= (1 << portnum); rio_set_port_lockout(rdev, portnum, 0); /* Schedule Insertion Service */ pr_debug("RIO_PW: Device Insertion on [%s]-P%d\n", rio_name(rdev), portnum); } /* Clear error-stopped states (if reported). * Depending on the link partner state, two attempts * may be needed for successful recovery. */ if (err_status & (RIO_PORT_N_ERR_STS_OUT_ES | RIO_PORT_N_ERR_STS_INP_ES)) { if (rio_clr_err_stopped(rdev, portnum, err_status)) rio_clr_err_stopped(rdev, portnum, 0); } } else { /* if (err_status & RIO_PORT_N_ERR_STS_PORT_UNINIT) */ if (rdev->rswitch->port_ok & (1 << portnum)) { rdev->rswitch->port_ok &= ~(1 << portnum); rio_set_port_lockout(rdev, portnum, 1); if (rdev->phys_rmap == 1) { rio_write_config_32(rdev, RIO_DEV_PORT_N_ACK_STS_CSR(rdev, portnum), RIO_PORT_N_ACK_CLEAR); } else { rio_write_config_32(rdev, RIO_DEV_PORT_N_OB_ACK_CSR(rdev, portnum), RIO_PORT_N_OB_ACK_CLEAR); rio_write_config_32(rdev, RIO_DEV_PORT_N_IB_ACK_CSR(rdev, portnum), 0); } /* Schedule Extraction Service */ pr_debug("RIO_PW: Device Extraction on [%s]-P%d\n", rio_name(rdev), portnum); } } rio_read_config_32(rdev, rdev->em_efptr + RIO_EM_PN_ERR_DETECT(portnum), &em_perrdet); if (em_perrdet) { pr_debug("RIO_PW: RIO_EM_P%d_ERR_DETECT=0x%08x\n", portnum, em_perrdet); /* Clear EM Port N Error Detect CSR */ rio_write_config_32(rdev, rdev->em_efptr + RIO_EM_PN_ERR_DETECT(portnum), 0); } rio_read_config_32(rdev, rdev->em_efptr + RIO_EM_LTL_ERR_DETECT, &em_ltlerrdet); if (em_ltlerrdet) { pr_debug("RIO_PW: RIO_EM_LTL_ERR_DETECT=0x%08x\n", em_ltlerrdet); /* Clear EM L/T Layer Error Detect CSR */ rio_write_config_32(rdev, rdev->em_efptr + RIO_EM_LTL_ERR_DETECT, 0); } /* Clear remaining error bits and Port-Write Pending bit */ rio_write_config_32(rdev, RIO_DEV_PORT_N_ERR_STS_CSR(rdev, portnum), err_status); return 0; } EXPORT_SYMBOL_GPL(rio_inb_pwrite_handler); /** * rio_mport_get_efb - get pointer to next extended features block * @port: Master port to issue transaction * @local: Indicate a local master port or remote device access * @destid: Destination ID of the device * @hopcount: Number of switch hops to the device * @from: Offset of current Extended Feature block header (if 0 starts * from ExtFeaturePtr) */ u32 rio_mport_get_efb(struct rio_mport *port, int local, u16 destid, u8 hopcount, u32 from) { u32 reg_val; if (from == 0) { if (local) rio_local_read_config_32(port, RIO_ASM_INFO_CAR, ®_val); else rio_mport_read_config_32(port, destid, hopcount, RIO_ASM_INFO_CAR, ®_val); return reg_val & RIO_EXT_FTR_PTR_MASK; } else { if (local) rio_local_read_config_32(port, from, ®_val); else rio_mport_read_config_32(port, destid, hopcount, from, ®_val); return RIO_GET_BLOCK_ID(reg_val); } } EXPORT_SYMBOL_GPL(rio_mport_get_efb); /** * rio_mport_get_feature - query for devices' extended features * @port: Master port to issue transaction * @local: Indicate a local master port or remote device access * @destid: Destination ID of the device * @hopcount: Number of switch hops to the device * @ftr: Extended feature code * * Tell if a device supports a given RapidIO capability. * Returns the offset of the requested extended feature * block within the device's RIO configuration space or * 0 in case the device does not support it. */ u32 rio_mport_get_feature(struct rio_mport * port, int local, u16 destid, u8 hopcount, int ftr) { u32 asm_info, ext_ftr_ptr, ftr_header; if (local) rio_local_read_config_32(port, RIO_ASM_INFO_CAR, &asm_info); else rio_mport_read_config_32(port, destid, hopcount, RIO_ASM_INFO_CAR, &asm_info); ext_ftr_ptr = asm_info & RIO_EXT_FTR_PTR_MASK; while (ext_ftr_ptr) { if (local) rio_local_read_config_32(port, ext_ftr_ptr, &ftr_header); else rio_mport_read_config_32(port, destid, hopcount, ext_ftr_ptr, &ftr_header); if (RIO_GET_BLOCK_ID(ftr_header) == ftr) return ext_ftr_ptr; ext_ftr_ptr = RIO_GET_BLOCK_PTR(ftr_header); if (!ext_ftr_ptr) break; } return 0; } EXPORT_SYMBOL_GPL(rio_mport_get_feature); /** * rio_get_asm - Begin or continue searching for a RIO device by vid/did/asm_vid/asm_did * @vid: RIO vid to match or %RIO_ANY_ID to match all vids * @did: RIO did to match or %RIO_ANY_ID to match all dids * @asm_vid: RIO asm_vid to match or %RIO_ANY_ID to match all asm_vids * @asm_did: RIO asm_did to match or %RIO_ANY_ID to match all asm_dids * @from: Previous RIO device found in search, or %NULL for new search * * Iterates through the list of known RIO devices. If a RIO device is * found with a matching @vid, @did, @asm_vid, @asm_did, the reference * count to the device is incrememted and a pointer to its device * structure is returned. Otherwise, %NULL is returned. A new search * is initiated by passing %NULL to the @from argument. Otherwise, if * @from is not %NULL, searches continue from next device on the global * list. The reference count for @from is always decremented if it is * not %NULL. */ struct rio_dev *rio_get_asm(u16 vid, u16 did, u16 asm_vid, u16 asm_did, struct rio_dev *from) { struct list_head *n; struct rio_dev *rdev; WARN_ON(in_interrupt()); spin_lock(&rio_global_list_lock); n = from ? from->global_list.next : rio_devices.next; while (n && (n != &rio_devices)) { rdev = rio_dev_g(n); if ((vid == RIO_ANY_ID || rdev->vid == vid) && (did == RIO_ANY_ID || rdev->did == did) && (asm_vid == RIO_ANY_ID || rdev->asm_vid == asm_vid) && (asm_did == RIO_ANY_ID || rdev->asm_did == asm_did)) goto exit; n = n->next; } rdev = NULL; exit: rio_dev_put(from); rdev = rio_dev_get(rdev); spin_unlock(&rio_global_list_lock); return rdev; } EXPORT_SYMBOL_GPL(rio_get_asm); /** * rio_get_device - Begin or continue searching for a RIO device by vid/did * @vid: RIO vid to match or %RIO_ANY_ID to match all vids * @did: RIO did to match or %RIO_ANY_ID to match all dids * @from: Previous RIO device found in search, or %NULL for new search * * Iterates through the list of known RIO devices. If a RIO device is * found with a matching @vid and @did, the reference count to the * device is incrememted and a pointer to its device structure is returned. * Otherwise, %NULL is returned. A new search is initiated by passing %NULL * to the @from argument. Otherwise, if @from is not %NULL, searches * continue from next device on the global list. The reference count for * @from is always decremented if it is not %NULL. */ struct rio_dev *rio_get_device(u16 vid, u16 did, struct rio_dev *from) { return rio_get_asm(vid, did, RIO_ANY_ID, RIO_ANY_ID, from); } EXPORT_SYMBOL_GPL(rio_get_device); /** * rio_std_route_add_entry - Add switch route table entry using standard * registers defined in RIO specification rev.1.3 * @mport: Master port to issue transaction * @destid: Destination ID of the device * @hopcount: Number of switch hops to the device * @table: routing table ID (global or port-specific) * @route_destid: destID entry in the RT * @route_port: destination port for specified destID */ static int rio_std_route_add_entry(struct rio_mport *mport, u16 destid, u8 hopcount, u16 table, u16 route_destid, u8 route_port) { if (table == RIO_GLOBAL_TABLE) { rio_mport_write_config_32(mport, destid, hopcount, RIO_STD_RTE_CONF_DESTID_SEL_CSR, (u32)route_destid); rio_mport_write_config_32(mport, destid, hopcount, RIO_STD_RTE_CONF_PORT_SEL_CSR, (u32)route_port); } udelay(10); return 0; } /** * rio_std_route_get_entry - Read switch route table entry (port number) * associated with specified destID using standard registers defined in RIO * specification rev.1.3 * @mport: Master port to issue transaction * @destid: Destination ID of the device * @hopcount: Number of switch hops to the device * @table: routing table ID (global or port-specific) * @route_destid: destID entry in the RT * @route_port: returned destination port for specified destID */ static int rio_std_route_get_entry(struct rio_mport *mport, u16 destid, u8 hopcount, u16 table, u16 route_destid, u8 *route_port) { u32 result; if (table == RIO_GLOBAL_TABLE) { rio_mport_write_config_32(mport, destid, hopcount, RIO_STD_RTE_CONF_DESTID_SEL_CSR, route_destid); rio_mport_read_config_32(mport, destid, hopcount, RIO_STD_RTE_CONF_PORT_SEL_CSR, &result); *route_port = (u8)result; } return 0; } /** * rio_std_route_clr_table - Clear swotch route table using standard registers * defined in RIO specification rev.1.3. * @mport: Master port to issue transaction * @destid: Destination ID of the device * @hopcount: Number of switch hops to the device * @table: routing table ID (global or port-specific) */ static int rio_std_route_clr_table(struct rio_mport *mport, u16 destid, u8 hopcount, u16 table) { u32 max_destid = 0xff; u32 i, pef, id_inc = 1, ext_cfg = 0; u32 port_sel = RIO_INVALID_ROUTE; if (table == RIO_GLOBAL_TABLE) { rio_mport_read_config_32(mport, destid, hopcount, RIO_PEF_CAR, &pef); if (mport->sys_size) { rio_mport_read_config_32(mport, destid, hopcount, RIO_SWITCH_RT_LIMIT, &max_destid); max_destid &= RIO_RT_MAX_DESTID; } if (pef & RIO_PEF_EXT_RT) { ext_cfg = 0x80000000; id_inc = 4; port_sel = (RIO_INVALID_ROUTE << 24) | (RIO_INVALID_ROUTE << 16) | (RIO_INVALID_ROUTE << 8) | RIO_INVALID_ROUTE; } for (i = 0; i <= max_destid;) { rio_mport_write_config_32(mport, destid, hopcount, RIO_STD_RTE_CONF_DESTID_SEL_CSR, ext_cfg | i); rio_mport_write_config_32(mport, destid, hopcount, RIO_STD_RTE_CONF_PORT_SEL_CSR, port_sel); i += id_inc; } } udelay(10); return 0; } /** * rio_lock_device - Acquires host device lock for specified device * @port: Master port to send transaction * @destid: Destination ID for device/switch * @hopcount: Hopcount to reach switch * @wait_ms: Max wait time in msec (0 = no timeout) * * Attepts to acquire host device lock for specified device * Returns 0 if device lock acquired or EINVAL if timeout expires. */ int rio_lock_device(struct rio_mport *port, u16 destid, u8 hopcount, int wait_ms) { u32 result; int tcnt = 0; /* Attempt to acquire device lock */ rio_mport_write_config_32(port, destid, hopcount, RIO_HOST_DID_LOCK_CSR, port->host_deviceid); rio_mport_read_config_32(port, destid, hopcount, RIO_HOST_DID_LOCK_CSR, &result); while (result != port->host_deviceid) { if (wait_ms != 0 && tcnt == wait_ms) { pr_debug("RIO: timeout when locking device %x:%x\n", destid, hopcount); return -EINVAL; } /* Delay a bit */ mdelay(1); tcnt++; /* Try to acquire device lock again */ rio_mport_write_config_32(port, destid, hopcount, RIO_HOST_DID_LOCK_CSR, port->host_deviceid); rio_mport_read_config_32(port, destid, hopcount, RIO_HOST_DID_LOCK_CSR, &result); } return 0; } EXPORT_SYMBOL_GPL(rio_lock_device); /** * rio_unlock_device - Releases host device lock for specified device * @port: Master port to send transaction * @destid: Destination ID for device/switch * @hopcount: Hopcount to reach switch * * Returns 0 if device lock released or EINVAL if fails. */ int rio_unlock_device(struct rio_mport *port, u16 destid, u8 hopcount) { u32 result; /* Release device lock */ rio_mport_write_config_32(port, destid, hopcount, RIO_HOST_DID_LOCK_CSR, port->host_deviceid); rio_mport_read_config_32(port, destid, hopcount, RIO_HOST_DID_LOCK_CSR, &result); if ((result & 0xffff) != 0xffff) { pr_debug("RIO: badness when releasing device lock %x:%x\n", destid, hopcount); return -EINVAL; } return 0; } EXPORT_SYMBOL_GPL(rio_unlock_device); /** * rio_route_add_entry- Add a route entry to a switch routing table * @rdev: RIO device * @table: Routing table ID * @route_destid: Destination ID to be routed * @route_port: Port number to be routed * @lock: apply a hardware lock on switch device flag (1=lock, 0=no_lock) * * If available calls the switch specific add_entry() method to add a route * entry into a switch routing table. Otherwise uses standard RT update method * as defined by RapidIO specification. A specific routing table can be selected * using the @table argument if a switch has per port routing tables or * the standard (or global) table may be used by passing * %RIO_GLOBAL_TABLE in @table. * * Returns %0 on success or %-EINVAL on failure. */ int rio_route_add_entry(struct rio_dev *rdev, u16 table, u16 route_destid, u8 route_port, int lock) { int rc = -EINVAL; struct rio_switch_ops *ops = rdev->rswitch->ops; if (lock) { rc = rio_lock_device(rdev->net->hport, rdev->destid, rdev->hopcount, 1000); if (rc) return rc; } spin_lock(&rdev->rswitch->lock); if (!ops || !ops->add_entry) { rc = rio_std_route_add_entry(rdev->net->hport, rdev->destid, rdev->hopcount, table, route_destid, route_port); } else if (try_module_get(ops->owner)) { rc = ops->add_entry(rdev->net->hport, rdev->destid, rdev->hopcount, table, route_destid, route_port); module_put(ops->owner); } spin_unlock(&rdev->rswitch->lock); if (lock) rio_unlock_device(rdev->net->hport, rdev->destid, rdev->hopcount); return rc; } EXPORT_SYMBOL_GPL(rio_route_add_entry); /** * rio_route_get_entry- Read an entry from a switch routing table * @rdev: RIO device * @table: Routing table ID * @route_destid: Destination ID to be routed * @route_port: Pointer to read port number into * @lock: apply a hardware lock on switch device flag (1=lock, 0=no_lock) * * If available calls the switch specific get_entry() method to fetch a route * entry from a switch routing table. Otherwise uses standard RT read method * as defined by RapidIO specification. A specific routing table can be selected * using the @table argument if a switch has per port routing tables or * the standard (or global) table may be used by passing * %RIO_GLOBAL_TABLE in @table. * * Returns %0 on success or %-EINVAL on failure. */ int rio_route_get_entry(struct rio_dev *rdev, u16 table, u16 route_destid, u8 *route_port, int lock) { int rc = -EINVAL; struct rio_switch_ops *ops = rdev->rswitch->ops; if (lock) { rc = rio_lock_device(rdev->net->hport, rdev->destid, rdev->hopcount, 1000); if (rc) return rc; } spin_lock(&rdev->rswitch->lock); if (!ops || !ops->get_entry) { rc = rio_std_route_get_entry(rdev->net->hport, rdev->destid, rdev->hopcount, table, route_destid, route_port); } else if (try_module_get(ops->owner)) { rc = ops->get_entry(rdev->net->hport, rdev->destid, rdev->hopcount, table, route_destid, route_port); module_put(ops->owner); } spin_unlock(&rdev->rswitch->lock); if (lock) rio_unlock_device(rdev->net->hport, rdev->destid, rdev->hopcount); return rc; } EXPORT_SYMBOL_GPL(rio_route_get_entry); /** * rio_route_clr_table - Clear a switch routing table * @rdev: RIO device * @table: Routing table ID * @lock: apply a hardware lock on switch device flag (1=lock, 0=no_lock) * * If available calls the switch specific clr_table() method to clear a switch * routing table. Otherwise uses standard RT write method as defined by RapidIO * specification. A specific routing table can be selected using the @table * argument if a switch has per port routing tables or the standard (or global) * table may be used by passing %RIO_GLOBAL_TABLE in @table. * * Returns %0 on success or %-EINVAL on failure. */ int rio_route_clr_table(struct rio_dev *rdev, u16 table, int lock) { int rc = -EINVAL; struct rio_switch_ops *ops = rdev->rswitch->ops; if (lock) { rc = rio_lock_device(rdev->net->hport, rdev->destid, rdev->hopcount, 1000); if (rc) return rc; } spin_lock(&rdev->rswitch->lock); if (!ops || !ops->clr_table) { rc = rio_std_route_clr_table(rdev->net->hport, rdev->destid, rdev->hopcount, table); } else if (try_module_get(ops->owner)) { rc = ops->clr_table(rdev->net->hport, rdev->destid, rdev->hopcount, table); module_put(ops->owner); } spin_unlock(&rdev->rswitch->lock); if (lock) rio_unlock_device(rdev->net->hport, rdev->destid, rdev->hopcount); return rc; } EXPORT_SYMBOL_GPL(rio_route_clr_table); #ifdef CONFIG_RAPIDIO_DMA_ENGINE static bool rio_chan_filter(struct dma_chan *chan, void *arg) { struct rio_mport *mport = arg; /* Check that DMA device belongs to the right MPORT */ return mport == container_of(chan->device, struct rio_mport, dma); } /** * rio_request_mport_dma - request RapidIO capable DMA channel associated * with specified local RapidIO mport device. * @mport: RIO mport to perform DMA data transfers * * Returns pointer to allocated DMA channel or NULL if failed. */ struct dma_chan *rio_request_mport_dma(struct rio_mport *mport) { dma_cap_mask_t mask; dma_cap_zero(mask); dma_cap_set(DMA_SLAVE, mask); return dma_request_channel(mask, rio_chan_filter, mport); } EXPORT_SYMBOL_GPL(rio_request_mport_dma); /** * rio_request_dma - request RapidIO capable DMA channel that supports * specified target RapidIO device. * @rdev: RIO device associated with DMA transfer * * Returns pointer to allocated DMA channel or NULL if failed. */ struct dma_chan *rio_request_dma(struct rio_dev *rdev) { return rio_request_mport_dma(rdev->net->hport); } EXPORT_SYMBOL_GPL(rio_request_dma); /** * rio_release_dma - release specified DMA channel * @dchan: DMA channel to release */ void rio_release_dma(struct dma_chan *dchan) { dma_release_channel(dchan); } EXPORT_SYMBOL_GPL(rio_release_dma); /** * rio_dma_prep_xfer - RapidIO specific wrapper * for device_prep_slave_sg callback defined by DMAENGINE. * @dchan: DMA channel to configure * @destid: target RapidIO device destination ID * @data: RIO specific data descriptor * @direction: DMA data transfer direction (TO or FROM the device) * @flags: dmaengine defined flags * * Initializes RapidIO capable DMA channel for the specified data transfer. * Uses DMA channel private extension to pass information related to remote * target RIO device. * * Returns: pointer to DMA transaction descriptor if successful, * error-valued pointer or NULL if failed. */ struct dma_async_tx_descriptor *rio_dma_prep_xfer(struct dma_chan *dchan, u16 destid, struct rio_dma_data *data, enum dma_transfer_direction direction, unsigned long flags) { struct rio_dma_ext rio_ext; if (!dchan->device->device_prep_slave_sg) { pr_err("%s: prep_rio_sg == NULL\n", __func__); return NULL; } rio_ext.destid = destid; rio_ext.rio_addr_u = data->rio_addr_u; rio_ext.rio_addr = data->rio_addr; rio_ext.wr_type = data->wr_type; return dmaengine_prep_rio_sg(dchan, data->sg, data->sg_len, direction, flags, &rio_ext); } EXPORT_SYMBOL_GPL(rio_dma_prep_xfer); /** * rio_dma_prep_slave_sg - RapidIO specific wrapper * for device_prep_slave_sg callback defined by DMAENGINE. * @rdev: RIO device control structure * @dchan: DMA channel to configure * @data: RIO specific data descriptor * @direction: DMA data transfer direction (TO or FROM the device) * @flags: dmaengine defined flags * * Initializes RapidIO capable DMA channel for the specified data transfer. * Uses DMA channel private extension to pass information related to remote * target RIO device. * * Returns: pointer to DMA transaction descriptor if successful, * error-valued pointer or NULL if failed. */ struct dma_async_tx_descriptor *rio_dma_prep_slave_sg(struct rio_dev *rdev, struct dma_chan *dchan, struct rio_dma_data *data, enum dma_transfer_direction direction, unsigned long flags) { return rio_dma_prep_xfer(dchan, rdev->destid, data, direction, flags); } EXPORT_SYMBOL_GPL(rio_dma_prep_slave_sg); #endif /* CONFIG_RAPIDIO_DMA_ENGINE */ /** * rio_find_mport - find RIO mport by its ID * @mport_id: number (ID) of mport device * * Given a RIO mport number, the desired mport is located * in the global list of mports. If the mport is found, a pointer to its * data structure is returned. If no mport is found, %NULL is returned. */ struct rio_mport *rio_find_mport(int mport_id) { struct rio_mport *port; mutex_lock(&rio_mport_list_lock); list_for_each_entry(port, &rio_mports, node) { if (port->id == mport_id) goto found; } port = NULL; found: mutex_unlock(&rio_mport_list_lock); return port; } /** * rio_register_scan - enumeration/discovery method registration interface * @mport_id: mport device ID for which fabric scan routine has to be set * (RIO_MPORT_ANY = set for all available mports) * @scan_ops: enumeration/discovery operations structure * * Registers enumeration/discovery operations with RapidIO subsystem and * attaches it to the specified mport device (or all available mports * if RIO_MPORT_ANY is specified). * * Returns error if the mport already has an enumerator attached to it. * In case of RIO_MPORT_ANY skips mports with valid scan routines (no error). */ int rio_register_scan(int mport_id, struct rio_scan *scan_ops) { struct rio_mport *port; struct rio_scan_node *scan; int rc = 0; pr_debug("RIO: %s for mport_id=%d\n", __func__, mport_id); if ((mport_id != RIO_MPORT_ANY && mport_id >= RIO_MAX_MPORTS) || !scan_ops) return -EINVAL; mutex_lock(&rio_mport_list_lock); /* * Check if there is another enumerator already registered for * the same mport ID (including RIO_MPORT_ANY). Multiple enumerators * for the same mport ID are not supported. */ list_for_each_entry(scan, &rio_scans, node) { if (scan->mport_id == mport_id) { rc = -EBUSY; goto err_out; } } /* * Allocate and initialize new scan registration node. */ scan = kzalloc(sizeof(*scan), GFP_KERNEL); if (!scan) { rc = -ENOMEM; goto err_out; } scan->mport_id = mport_id; scan->ops = scan_ops; /* * Traverse the list of registered mports to attach this new scan. * * The new scan with matching mport ID overrides any previously attached * scan assuming that old scan (if any) is the default one (based on the * enumerator registration check above). * If the new scan is the global one, it will be attached only to mports * that do not have their own individual operations already attached. */ list_for_each_entry(port, &rio_mports, node) { if (port->id == mport_id) { port->nscan = scan_ops; break; } else if (mport_id == RIO_MPORT_ANY && !port->nscan) port->nscan = scan_ops; } list_add_tail(&scan->node, &rio_scans); err_out: mutex_unlock(&rio_mport_list_lock); return rc; } EXPORT_SYMBOL_GPL(rio_register_scan); /** * rio_unregister_scan - removes enumeration/discovery method from mport * @mport_id: mport device ID for which fabric scan routine has to be * unregistered (RIO_MPORT_ANY = apply to all mports that use * the specified scan_ops) * @scan_ops: enumeration/discovery operations structure * * Removes enumeration or discovery method assigned to the specified mport * device. If RIO_MPORT_ANY is specified, removes the specified operations from * all mports that have them attached. */ int rio_unregister_scan(int mport_id, struct rio_scan *scan_ops) { struct rio_mport *port; struct rio_scan_node *scan; pr_debug("RIO: %s for mport_id=%d\n", __func__, mport_id); if (mport_id != RIO_MPORT_ANY && mport_id >= RIO_MAX_MPORTS) return -EINVAL; mutex_lock(&rio_mport_list_lock); list_for_each_entry(port, &rio_mports, node) if (port->id == mport_id || (mport_id == RIO_MPORT_ANY && port->nscan == scan_ops)) port->nscan = NULL; list_for_each_entry(scan, &rio_scans, node) { if (scan->mport_id == mport_id) { list_del(&scan->node); kfree(scan); break; } } mutex_unlock(&rio_mport_list_lock); return 0; } EXPORT_SYMBOL_GPL(rio_unregister_scan); /** * rio_mport_scan - execute enumeration/discovery on the specified mport * @mport_id: number (ID) of mport device */ int rio_mport_scan(int mport_id) { struct rio_mport *port = NULL; int rc; mutex_lock(&rio_mport_list_lock); list_for_each_entry(port, &rio_mports, node) { if (port->id == mport_id) goto found; } mutex_unlock(&rio_mport_list_lock); return -ENODEV; found: if (!port->nscan) { mutex_unlock(&rio_mport_list_lock); return -EINVAL; } if (!try_module_get(port->nscan->owner)) { mutex_unlock(&rio_mport_list_lock); return -ENODEV; } mutex_unlock(&rio_mport_list_lock); if (port->host_deviceid >= 0) rc = port->nscan->enumerate(port, 0); else rc = port->nscan->discover(port, RIO_SCAN_ENUM_NO_WAIT); module_put(port->nscan->owner); return rc; } static void rio_fixup_device(struct rio_dev *dev) { } static int rio_init(void) { struct rio_dev *dev = NULL; while ((dev = rio_get_device(RIO_ANY_ID, RIO_ANY_ID, dev)) != NULL) { rio_fixup_device(dev); } return 0; } static struct workqueue_struct *rio_wq; struct rio_disc_work { struct work_struct work; struct rio_mport *mport; }; static void disc_work_handler(struct work_struct *_work) { struct rio_disc_work *work; work = container_of(_work, struct rio_disc_work, work); pr_debug("RIO: discovery work for mport %d %s\n", work->mport->id, work->mport->name); if (try_module_get(work->mport->nscan->owner)) { work->mport->nscan->discover(work->mport, 0); module_put(work->mport->nscan->owner); } } int rio_init_mports(void) { struct rio_mport *port; struct rio_disc_work *work; int n = 0; if (!next_portid) return -ENODEV; /* * First, run enumerations and check if we need to perform discovery * on any of the registered mports. */ mutex_lock(&rio_mport_list_lock); list_for_each_entry(port, &rio_mports, node) { if (port->host_deviceid >= 0) { if (port->nscan && try_module_get(port->nscan->owner)) { port->nscan->enumerate(port, 0); module_put(port->nscan->owner); } } else n++; } mutex_unlock(&rio_mport_list_lock); if (!n) goto no_disc; /* * If we have mports that require discovery schedule a discovery work * for each of them. If the code below fails to allocate needed * resources, exit without error to keep results of enumeration * process (if any). * TODO: Implement restart of discovery process for all or * individual discovering mports. */ rio_wq = alloc_workqueue("riodisc", 0, 0); if (!rio_wq) { pr_err("RIO: unable allocate rio_wq\n"); goto no_disc; } work = kcalloc(n, sizeof *work, GFP_KERNEL); if (!work) { destroy_workqueue(rio_wq); goto no_disc; } n = 0; mutex_lock(&rio_mport_list_lock); list_for_each_entry(port, &rio_mports, node) { if (port->host_deviceid < 0 && port->nscan) { work[n].mport = port; INIT_WORK(&work[n].work, disc_work_handler); queue_work(rio_wq, &work[n].work); n++; } } flush_workqueue(rio_wq); mutex_unlock(&rio_mport_list_lock); pr_debug("RIO: destroy discovery workqueue\n"); destroy_workqueue(rio_wq); kfree(work); no_disc: rio_init(); return 0; } EXPORT_SYMBOL_GPL(rio_init_mports); static int rio_get_hdid(int index) { if (ids_num == 0 || ids_num <= index || index >= RIO_MAX_MPORTS) return -1; return hdid[index]; } int rio_mport_initialize(struct rio_mport *mport) { if (next_portid >= RIO_MAX_MPORTS) { pr_err("RIO: reached specified max number of mports\n"); return -ENODEV; } atomic_set(&mport->state, RIO_DEVICE_INITIALIZING); mport->id = next_portid++; mport->host_deviceid = rio_get_hdid(mport->id); mport->nscan = NULL; mutex_init(&mport->lock); mport->pwe_refcnt = 0; INIT_LIST_HEAD(&mport->pwrites); return 0; } EXPORT_SYMBOL_GPL(rio_mport_initialize); int rio_register_mport(struct rio_mport *port) { struct rio_scan_node *scan = NULL; int res = 0; mutex_lock(&rio_mport_list_lock); /* * Check if there are any registered enumeration/discovery operations * that have to be attached to the added mport. */ list_for_each_entry(scan, &rio_scans, node) { if (port->id == scan->mport_id || scan->mport_id == RIO_MPORT_ANY) { port->nscan = scan->ops; if (port->id == scan->mport_id) break; } } list_add_tail(&port->node, &rio_mports); mutex_unlock(&rio_mport_list_lock); dev_set_name(&port->dev, "rapidio%d", port->id); port->dev.class = &rio_mport_class; atomic_set(&port->state, RIO_DEVICE_RUNNING); res = device_register(&port->dev); if (res) dev_err(&port->dev, "RIO: mport%d registration failed ERR=%d\n", port->id, res); else dev_dbg(&port->dev, "RIO: registered mport%d\n", port->id); return res; } EXPORT_SYMBOL_GPL(rio_register_mport); static int rio_mport_cleanup_callback(struct device *dev, void *data) { struct rio_dev *rdev = to_rio_dev(dev); if (dev->bus == &rio_bus_type) rio_del_device(rdev, RIO_DEVICE_SHUTDOWN); return 0; } static int rio_net_remove_children(struct rio_net *net) { /* * Unregister all RapidIO devices residing on this net (this will * invoke notification of registered subsystem interfaces as well). */ device_for_each_child(&net->dev, NULL, rio_mport_cleanup_callback); return 0; } int rio_unregister_mport(struct rio_mport *port) { pr_debug("RIO: %s %s id=%d\n", __func__, port->name, port->id); /* Transition mport to the SHUTDOWN state */ if (atomic_cmpxchg(&port->state, RIO_DEVICE_RUNNING, RIO_DEVICE_SHUTDOWN) != RIO_DEVICE_RUNNING) { pr_err("RIO: %s unexpected state transition for mport %s\n", __func__, port->name); } if (port->net && port->net->hport == port) { rio_net_remove_children(port->net); rio_free_net(port->net); } /* * Unregister all RapidIO devices attached to this mport (this will * invoke notification of registered subsystem interfaces as well). */ mutex_lock(&rio_mport_list_lock); list_del(&port->node); mutex_unlock(&rio_mport_list_lock); device_unregister(&port->dev); return 0; } EXPORT_SYMBOL_GPL(rio_unregister_mport); |