// SPDX-License-Identifier: GPL-2.0 #include #include #include #include #include #include "i2c-designware-core.h" #define PSP_I2C_RESERVATION_TIME_MS 100 #define PSP_I2C_REQ_RETRY_CNT 400 #define PSP_I2C_REQ_RETRY_DELAY_US (25 * USEC_PER_MSEC) #define PSP_I2C_REQ_STS_OK 0x0 #define PSP_I2C_REQ_STS_BUS_BUSY 0x1 #define PSP_I2C_REQ_STS_INV_PARAM 0x3 enum psp_i2c_req_type { PSP_I2C_REQ_ACQUIRE, PSP_I2C_REQ_RELEASE, PSP_I2C_REQ_MAX }; struct psp_i2c_req { struct psp_req_buffer_hdr hdr; enum psp_i2c_req_type type; }; static DEFINE_MUTEX(psp_i2c_access_mutex); static unsigned long psp_i2c_sem_acquired; static u32 psp_i2c_access_count; static bool psp_i2c_mbox_fail; static struct device *psp_i2c_dev; static int (*_psp_send_i2c_req)(struct psp_i2c_req *req); /* Helper to verify status returned by PSP */ static int check_i2c_req_sts(struct psp_i2c_req *req) { u32 status; /* Status field in command-response buffer is updated by PSP */ status = READ_ONCE(req->hdr.status); switch (status) { case PSP_I2C_REQ_STS_OK: return 0; case PSP_I2C_REQ_STS_BUS_BUSY: return -EBUSY; case PSP_I2C_REQ_STS_INV_PARAM: default: return -EIO; } } /* * Errors in x86-PSP i2c-arbitration protocol may occur at two levels: * 1. mailbox communication - PSP is not operational or some IO errors with * basic communication had happened. * 2. i2c-requests - PSP refuses to grant i2c arbitration to x86 for too long. * * In order to distinguish between these in error handling code all mailbox * communication errors on the first level (from CCP symbols) will be passed * up and if -EIO is returned the second level will be checked. */ static int psp_send_i2c_req_cezanne(struct psp_i2c_req *req) { int ret; ret = psp_send_platform_access_msg(PSP_I2C_REQ_BUS_CMD, (struct psp_request *)req); if (ret == -EIO) return check_i2c_req_sts(req); return ret; } static int psp_send_i2c_req_doorbell(struct psp_i2c_req *req) { int ret; ret = psp_ring_platform_doorbell(req->type, &req->hdr.status); if (ret == -EIO) return check_i2c_req_sts(req); return ret; } static int psp_send_i2c_req(enum psp_i2c_req_type i2c_req_type) { struct psp_i2c_req *req; unsigned long start; int status, ret; /* Allocate command-response buffer */ req = kzalloc(sizeof(*req), GFP_KERNEL); if (!req) return -ENOMEM; req->hdr.payload_size = sizeof(*req); req->type = i2c_req_type; start = jiffies; ret = read_poll_timeout(_psp_send_i2c_req, status, (status != -EBUSY), PSP_I2C_REQ_RETRY_DELAY_US, PSP_I2C_REQ_RETRY_CNT * PSP_I2C_REQ_RETRY_DELAY_US, 0, req); if (ret) { dev_err(psp_i2c_dev, "Timed out waiting for PSP to %s I2C bus\n", (i2c_req_type == PSP_I2C_REQ_ACQUIRE) ? "release" : "acquire"); goto cleanup; } ret = status; if (ret) { dev_err(psp_i2c_dev, "PSP communication error\n"); goto cleanup; } dev_dbg(psp_i2c_dev, "Request accepted by PSP after %ums\n", jiffies_to_msecs(jiffies - start)); cleanup: if (ret) { dev_err(psp_i2c_dev, "Assume i2c bus is for exclusive host usage\n"); psp_i2c_mbox_fail = true; } kfree(req); return ret; } static void release_bus(void) { int status; if (!psp_i2c_sem_acquired) return; status = psp_send_i2c_req(PSP_I2C_REQ_RELEASE); if (status) return; dev_dbg(psp_i2c_dev, "PSP semaphore held for %ums\n", jiffies_to_msecs(jiffies - psp_i2c_sem_acquired)); psp_i2c_sem_acquired = 0; } static void psp_release_i2c_bus_deferred(struct work_struct *work) { mutex_lock(&psp_i2c_access_mutex); /* * If there is any pending transaction, cannot release the bus here. * psp_release_i2c_bus() will take care of this later. */ if (psp_i2c_access_count) goto cleanup; release_bus(); cleanup: mutex_unlock(&psp_i2c_access_mutex); } static DECLARE_DELAYED_WORK(release_queue, psp_release_i2c_bus_deferred); static int psp_acquire_i2c_bus(void) { int status; mutex_lock(&psp_i2c_access_mutex); /* Return early if mailbox malfunctioned */ if (psp_i2c_mbox_fail) goto cleanup; psp_i2c_access_count++; /* * No need to request bus arbitration once we are inside semaphore * reservation period. */ if (psp_i2c_sem_acquired) goto cleanup; status = psp_send_i2c_req(PSP_I2C_REQ_ACQUIRE); if (status) goto cleanup; psp_i2c_sem_acquired = jiffies; schedule_delayed_work(&release_queue, msecs_to_jiffies(PSP_I2C_RESERVATION_TIME_MS)); /* * In case of errors with PSP arbitrator psp_i2c_mbox_fail variable is * set above. As a consequence consecutive calls to acquire will bypass * communication with PSP. At any case i2c bus is granted to the caller, * thus always return success. */ cleanup: mutex_unlock(&psp_i2c_access_mutex); return 0; } static void psp_release_i2c_bus(void) { mutex_lock(&psp_i2c_access_mutex); /* Return early if mailbox was malfunctioned */ if (psp_i2c_mbox_fail) goto cleanup; /* * If we are last owner of PSP semaphore, need to release arbitration * via mailbox. */ psp_i2c_access_count--; if (psp_i2c_access_count) goto cleanup; /* * Send a release command to PSP if the semaphore reservation timeout * elapsed but x86 still owns the controller. */ if (!delayed_work_pending(&release_queue)) release_bus(); cleanup: mutex_unlock(&psp_i2c_access_mutex); } /* * Locking methods are based on the default implementation from * drivers/i2c/i2c-core-base.c, but with PSP acquire and release operations * added. With this in place we can ensure that i2c clients on the bus shared * with PSP are able to lock HW access to the bus for arbitrary number of * operations - that is e.g. write-wait-read. */ static void i2c_adapter_dw_psp_lock_bus(struct i2c_adapter *adapter, unsigned int flags) { psp_acquire_i2c_bus(); rt_mutex_lock_nested(&adapter->bus_lock, i2c_adapter_depth(adapter)); } static int i2c_adapter_dw_psp_trylock_bus(struct i2c_adapter *adapter, unsigned int flags) { int ret; ret = rt_mutex_trylock(&adapter->bus_lock); if (ret) return ret; psp_acquire_i2c_bus(); return ret; } static void i2c_adapter_dw_psp_unlock_bus(struct i2c_adapter *adapter, unsigned int flags) { psp_release_i2c_bus(); rt_mutex_unlock(&adapter->bus_lock); } static const struct i2c_lock_operations i2c_dw_psp_lock_ops = { .lock_bus = i2c_adapter_dw_psp_lock_bus, .trylock_bus = i2c_adapter_dw_psp_trylock_bus, .unlock_bus = i2c_adapter_dw_psp_unlock_bus, }; int i2c_dw_amdpsp_probe_lock_support(struct dw_i2c_dev *dev) { struct pci_dev *rdev; if (!IS_REACHABLE(CONFIG_CRYPTO_DEV_CCP_DD)) return -ENODEV; if (!dev) return -ENODEV; if (!(dev->flags & ARBITRATION_SEMAPHORE)) return -ENODEV; /* Allow to bind only one instance of a driver */ if (psp_i2c_dev) return -EEXIST; /* Cezanne uses platform mailbox, Mendocino and later use doorbell */ rdev = pci_get_domain_bus_and_slot(0, 0, PCI_DEVFN(0, 0)); if (rdev->device == 0x1630) _psp_send_i2c_req = psp_send_i2c_req_cezanne; else _psp_send_i2c_req = psp_send_i2c_req_doorbell; pci_dev_put(rdev); if (psp_check_platform_access_status()) return -EPROBE_DEFER; psp_i2c_dev = dev->dev; dev_info(psp_i2c_dev, "I2C bus managed by AMD PSP\n"); /* * Install global locking callbacks for adapter as well as internal i2c * controller locks. */ dev->adapter.lock_ops = &i2c_dw_psp_lock_ops; dev->acquire_lock = psp_acquire_i2c_bus; dev->release_lock = psp_release_i2c_bus; return 0; }