/* * Copyright (c) 2022 Intel Corporation * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #include #include #include LOG_MODULE_REGISTER(i3c, CONFIG_I3C_LOG_LEVEL); void i3c_dump_msgs(const char *name, const struct i3c_msg *msgs, uint8_t num_msgs, struct i3c_device_desc *target) { LOG_DBG("I3C msg: %s, addr=%x", name, target->dynamic_addr); for (unsigned int i = 0; i < num_msgs; i++) { const struct i3c_msg *msg = &msgs[i]; LOG_DBG(" %c len=%02x: ", msg->flags & I3C_MSG_READ ? 'R' : 'W', msg->len); if (!(msg->flags & I3C_MSG_READ)) { LOG_HEXDUMP_DBG(msg->buf, msg->len, "contents:"); } } } void i3c_addr_slots_set(struct i3c_addr_slots *slots, uint8_t dev_addr, enum i3c_addr_slot_status status) { int bitpos; int idx; __ASSERT_NO_MSG(slots != NULL); if (dev_addr > I3C_MAX_ADDR) { /* Invalid address. Do nothing. */ return; } bitpos = dev_addr * 2; idx = bitpos / BITS_PER_LONG; slots->slots[idx] &= ~((unsigned long)I3C_ADDR_SLOT_STATUS_MASK << (bitpos % BITS_PER_LONG)); slots->slots[idx] |= status << (bitpos % BITS_PER_LONG); } enum i3c_addr_slot_status i3c_addr_slots_status(struct i3c_addr_slots *slots, uint8_t dev_addr) { unsigned long status; int bitpos; int idx; __ASSERT_NO_MSG(slots != NULL); if (dev_addr > I3C_MAX_ADDR) { /* Invalid address. * Simply says it's reserved so it will not be * used for anything. */ return I3C_ADDR_SLOT_STATUS_RSVD; } bitpos = dev_addr * 2; idx = bitpos / BITS_PER_LONG; status = slots->slots[idx] >> (bitpos % BITS_PER_LONG); status &= I3C_ADDR_SLOT_STATUS_MASK; return status; } int i3c_addr_slots_init(const struct device *dev) { struct i3c_driver_data *data = (struct i3c_driver_data *)dev->data; const struct i3c_driver_config *config = (const struct i3c_driver_config *)dev->config; int i, ret = 0; struct i3c_device_desc *i3c_dev; struct i3c_i2c_device_desc *i2c_dev; __ASSERT_NO_MSG(dev != NULL); (void)memset(&data->attached_dev.addr_slots, 0, sizeof(data->attached_dev.addr_slots)); sys_slist_init(&data->attached_dev.devices.i3c); sys_slist_init(&data->attached_dev.devices.i2c); for (i = 0; i <= 7; i++) { /* Addresses 0 to 7 are reserved */ i3c_addr_slots_set(&data->attached_dev.addr_slots, i, I3C_ADDR_SLOT_STATUS_RSVD); /* * Addresses within a single bit error of broadcast address * are also reserved. */ i3c_addr_slots_set(&data->attached_dev.addr_slots, I3C_BROADCAST_ADDR ^ BIT(i), I3C_ADDR_SLOT_STATUS_RSVD); } /* The broadcast address is reserved */ i3c_addr_slots_set(&data->attached_dev.addr_slots, I3C_BROADCAST_ADDR, I3C_ADDR_SLOT_STATUS_RSVD); /* * Mark all I2C addresses first. */ for (i = 0; i < config->dev_list.num_i2c; i++) { i2c_dev = &config->dev_list.i2c[i]; ret = i3c_attach_i2c_device(i2c_dev); if (ret != 0) { /* Address slot is not free */ ret = -EINVAL; goto out; } } /* * If there is a static address for the I3C devices, check * if this address is free, and there is no other devices of * the same (pre-assigned) address on the bus. */ for (i = 0; i < config->dev_list.num_i3c; i++) { i3c_dev = &config->dev_list.i3c[i]; ret = i3c_attach_i3c_device(i3c_dev); if (ret != 0) { /* Address slot is not free */ ret = -EINVAL; goto out; } } out: return ret; } bool i3c_addr_slots_is_free(struct i3c_addr_slots *slots, uint8_t dev_addr) { enum i3c_addr_slot_status status; __ASSERT_NO_MSG(slots != NULL); status = i3c_addr_slots_status(slots, dev_addr); return (status == I3C_ADDR_SLOT_STATUS_FREE); } uint8_t i3c_addr_slots_next_free_find(struct i3c_addr_slots *slots, uint8_t start_addr) { uint8_t addr; enum i3c_addr_slot_status status; /* Addresses 0 to 7 are reserved. So start at 8. */ for (addr = MAX(start_addr, 8); addr < I3C_MAX_ADDR; addr++) { status = i3c_addr_slots_status(slots, addr); if (status == I3C_ADDR_SLOT_STATUS_FREE) { return addr; } } return 0; } struct i3c_device_desc *i3c_dev_list_find(const struct i3c_dev_list *dev_list, const struct i3c_device_id *id) { int i; struct i3c_device_desc *ret = NULL; __ASSERT_NO_MSG(dev_list != NULL); /* this only searches known I3C PIDs */ for (i = 0; i < dev_list->num_i3c; i++) { struct i3c_device_desc *desc = &dev_list->i3c[i]; if (desc->pid == id->pid) { ret = desc; break; } } return ret; } struct i3c_device_desc *i3c_dev_list_i3c_addr_find(struct i3c_dev_attached_list *dev_list, uint8_t addr) { sys_snode_t *node; struct i3c_device_desc *ret = NULL; __ASSERT_NO_MSG(dev_list != NULL); SYS_SLIST_FOR_EACH_NODE(&dev_list->devices.i3c, node) { struct i3c_device_desc *desc = (void *)node; if (desc->dynamic_addr == addr) { ret = desc; break; } } return ret; } struct i3c_i2c_device_desc *i3c_dev_list_i2c_addr_find(struct i3c_dev_attached_list *dev_list, uint16_t addr) { sys_snode_t *node; struct i3c_i2c_device_desc *ret = NULL; __ASSERT_NO_MSG(dev_list != NULL); SYS_SLIST_FOR_EACH_NODE(&dev_list->devices.i2c, node) { struct i3c_i2c_device_desc *desc = (void *)node; if (desc->addr == addr) { ret = desc; break; } } return ret; } int i3c_determine_default_addr(struct i3c_device_desc *target, uint8_t *addr) { struct i3c_driver_data *data = (struct i3c_driver_data *)target->bus->data; /* If dynamic addr is set, then it assumed that it was assigned by a primary controller */ if (target->dynamic_addr == 0) { /* It is assumed that SETDASA or ENTDAA will be run after this */ if (target->init_dynamic_addr != 0U) { /* initial dynamic address is requested */ if (target->static_addr == 0) { /* SA is set to 0, so DA will be set with ENTDAA */ if (i3c_addr_slots_is_free(&data->attached_dev.addr_slots, target->init_dynamic_addr)) { /* Set DA during ENTDAA */ *addr = target->init_dynamic_addr; } else { /* address is not free, get the next one */ *addr = i3c_addr_slots_next_free_find( &data->attached_dev.addr_slots, 0); } } else { /* Use the init dynamic address as it's DA, but the RR will need to * be first set with it's SA to run SETDASA, the RR address will * need be updated after SETDASA with the request dynamic address */ if (i3c_addr_slots_is_free(&data->attached_dev.addr_slots, target->static_addr)) { *addr = target->static_addr; } else { /* static address has already been taken */ return -EINVAL; } } } else { /* no init dynamic address is requested */ if (target->static_addr != 0) { if (i3c_addr_slots_is_free(&data->attached_dev.addr_slots, target->static_addr)) { /* static exists, set DA with same SA during SETDASA*/ *addr = target->static_addr; } else { /* static address has already been taken */ return -EINVAL; } } else { /* pick a DA to use */ *addr = i3c_addr_slots_next_free_find( &data->attached_dev.addr_slots, 0); } } } else { *addr = target->dynamic_addr; } return 0; } int i3c_attach_i3c_device(struct i3c_device_desc *target) { struct i3c_driver_data *data = (struct i3c_driver_data *)target->bus->data; const struct i3c_driver_api *api = (const struct i3c_driver_api *)target->bus->api; sys_snode_t *node; uint8_t addr = 0; int status = 0; /* check to see if the device has already been attached */ if (!sys_slist_is_empty(&data->attached_dev.devices.i3c)) { SYS_SLIST_FOR_EACH_NODE(&data->attached_dev.devices.i3c, node) { if (node == &target->node) { return -EINVAL; } } } status = i3c_determine_default_addr(target, &addr); if (status != 0) { return status; } sys_slist_append(&data->attached_dev.devices.i3c, &target->node); if (api->attach_i3c_device != NULL) { status = api->attach_i3c_device(target->bus, target, addr); } i3c_addr_slots_mark_i3c(&data->attached_dev.addr_slots, addr); return status; } int i3c_reattach_i3c_device(struct i3c_device_desc *target, uint8_t old_dyn_addr) { struct i3c_driver_data *data = (struct i3c_driver_data *)target->bus->data; const struct i3c_driver_api *api = (const struct i3c_driver_api *)target->bus->api; int status = 0; if (!i3c_addr_slots_is_free(&data->attached_dev.addr_slots, target->dynamic_addr)) { return -EINVAL; } if (api->reattach_i3c_device != NULL) { status = api->reattach_i3c_device(target->bus, target, old_dyn_addr); } if (old_dyn_addr) { /* mark the old address as free */ i3c_addr_slots_mark_free(&data->attached_dev.addr_slots, old_dyn_addr); } i3c_addr_slots_mark_i3c(&data->attached_dev.addr_slots, target->dynamic_addr); return status; } int i3c_detach_i3c_device(struct i3c_device_desc *target) { struct i3c_driver_data *data = (struct i3c_driver_data *)target->bus->data; const struct i3c_driver_api *api = (const struct i3c_driver_api *)target->bus->api; int status = 0; if (!sys_slist_is_empty(&data->attached_dev.devices.i3c)) { if (!sys_slist_find_and_remove(&data->attached_dev.devices.i3c, &target->node)) { return -EINVAL; } } else { return -EINVAL; } if (api->detach_i3c_device != NULL) { status = api->detach_i3c_device(target->bus, target); } i3c_addr_slots_mark_free(&data->attached_dev.addr_slots, target->dynamic_addr ? target->dynamic_addr : target->static_addr); return status; } int i3c_attach_i2c_device(struct i3c_i2c_device_desc *target) { struct i3c_driver_data *data = (struct i3c_driver_data *)target->bus->data; const struct i3c_driver_api *api = (const struct i3c_driver_api *)target->bus->api; sys_snode_t *node; int status = 0; /* check to see if the device has already been attached */ if (!sys_slist_is_empty(&data->attached_dev.devices.i2c)) { SYS_SLIST_FOR_EACH_NODE(&data->attached_dev.devices.i2c, node) { if (node == &target->node) { return -EINVAL; } } } if (!i3c_addr_slots_is_free(&data->attached_dev.addr_slots, target->addr)) { return -EINVAL; } sys_slist_append(&data->attached_dev.devices.i2c, &target->node); if (api->attach_i2c_device != NULL) { status = api->attach_i2c_device(target->bus, target); } i3c_addr_slots_mark_i2c(&data->attached_dev.addr_slots, target->addr); return status; } int i3c_detach_i2c_device(struct i3c_i2c_device_desc *target) { struct i3c_driver_data *data = (struct i3c_driver_data *)target->bus->data; const struct i3c_driver_api *api = (const struct i3c_driver_api *)target->bus->api; int status = 0; if (!sys_slist_is_empty(&data->attached_dev.devices.i2c)) { if (!sys_slist_find_and_remove(&data->attached_dev.devices.i2c, &target->node)) { return -EINVAL; } } else { return -EINVAL; } if (api->detach_i2c_device != NULL) { status = api->detach_i2c_device(target->bus, target); } i3c_addr_slots_mark_free(&data->attached_dev.addr_slots, target->addr); return status; } int i3c_dev_list_daa_addr_helper(struct i3c_addr_slots *addr_slots, const struct i3c_dev_list *dev_list, uint64_t pid, bool must_match, bool assigned_okay, struct i3c_device_desc **target, uint8_t *addr) { struct i3c_device_desc *desc; const uint16_t vendor_id = (uint16_t)(pid >> 32); const uint32_t part_no = (uint32_t)(pid & 0xFFFFFFFFU); uint8_t dyn_addr = 0; int ret = 0; const struct i3c_device_id i3c_id = I3C_DEVICE_ID(pid); desc = i3c_dev_list_find(dev_list, &i3c_id); if (must_match && (desc == NULL)) { /* * No device descriptor matching incoming PID and * that we want an exact match. */ ret = -ENODEV; LOG_DBG("PID 0x%04x%08x is not in registered device list", vendor_id, part_no); goto out; } if (desc->dynamic_addr != 0U) { if (assigned_okay) { /* Return the already assigned address if desired so. */ dyn_addr = desc->dynamic_addr; goto out; } else { /* * Bail If target already has an assigned address. * This is probably due to having the same PIDs for multiple targets * in the device tree. */ LOG_ERR("PID 0x%04x%08x already has " "dynamic address (0x%02x) assigned", vendor_id, part_no, desc->dynamic_addr); ret = -EINVAL; goto err; } } /* * Use the desired dynamic address as the new dynamic address * if the slot is free. */ if (desc->init_dynamic_addr != 0U) { if (i3c_addr_slots_is_free(addr_slots, desc->init_dynamic_addr)) { dyn_addr = desc->init_dynamic_addr; goto out; } } /* * Find the next available address. */ dyn_addr = i3c_addr_slots_next_free_find(addr_slots, 0); if (dyn_addr == 0U) { /* No free addresses available */ LOG_DBG("No more free addresses available."); ret = -ENOSPC; } out: *addr = dyn_addr; *target = desc; err: return ret; } int i3c_device_basic_info_get(struct i3c_device_desc *target) { int ret; uint8_t tmp_bcr; struct i3c_ccc_getbcr bcr = {0}; struct i3c_ccc_getdcr dcr = {0}; struct i3c_ccc_mrl mrl = {0}; struct i3c_ccc_mwl mwl = {0}; /* * Since some CCC functions requires BCR to function * correctly, we save the BCR here and update the BCR * in the descriptor. If any following operations fails, * we can restore the BCR. */ tmp_bcr = target->bcr; /* GETBCR */ ret = i3c_ccc_do_getbcr(target, &bcr); if (ret != 0) { goto out; } target->bcr = bcr.bcr; /* GETDCR */ ret = i3c_ccc_do_getdcr(target, &dcr); if (ret != 0) { goto out; } /* GETMRL */ if (i3c_ccc_do_getmrl(target, &mrl) != 0) { /* GETMRL may be optionally supported if no settable limit */ LOG_DBG("No settable limit for GETMRL"); } /* GETMWL */ if (i3c_ccc_do_getmwl(target, &mwl) != 0) { /* GETMWL may be optionally supported if no settable limit */ LOG_DBG("No settable limit for GETMWL"); } target->dcr = dcr.dcr; target->data_length.mrl = mrl.len; target->data_length.mwl = mwl.len; target->data_length.max_ibi = mrl.ibi_len; out: if (ret != 0) { /* Restore BCR is any CCC fails. */ target->bcr = tmp_bcr; } return ret; } /** * @brief Do SETDASA to set static address as dynamic address. * * @param dev Pointer to the device driver instance. * @param[out] True if DAA is still needed. False if all registered * devices have static addresses. * * @retval 0 if successful. */ static int i3c_bus_setdasa(const struct device *dev, const struct i3c_dev_list *dev_list, bool *need_daa) { int i, ret; *need_daa = false; /* Loop through the registered I3C devices */ for (i = 0; i < dev_list->num_i3c; i++) { struct i3c_device_desc *desc = &dev_list->i3c[i]; /* * A device without static address => need to do * dynamic address assignment. */ if (desc->static_addr == 0U) { *need_daa = true; continue; } LOG_DBG("SETDASA for 0x%x", desc->static_addr); ret = i3c_ccc_do_setdasa(desc); if (ret == 0) { desc->dynamic_addr = (desc->init_dynamic_addr ? desc->init_dynamic_addr : desc->static_addr); if (desc->dynamic_addr != desc->static_addr) { if (i3c_reattach_i3c_device(desc, desc->static_addr) != 0) { LOG_ERR("Failed to reattach %s (%d)", desc->dev->name, ret); } } } else { /* SETDASA failed, detach it from the controller */ if (i3c_detach_i3c_device(desc) != 0) { LOG_ERR("Failed to detach %s (%d)", desc->dev->name, ret); } LOG_ERR("SETDASA error on address 0x%x (%d)", desc->static_addr, ret); continue; } } return 0; } int i3c_bus_init(const struct device *dev, const struct i3c_dev_list *dev_list) { int i, ret = 0; bool need_daa = true; struct i3c_ccc_events i3c_events; /* * Reset all connected targets. Also reset dynamic * addresses for all devices as we have no idea what * dynamic addresses the connected devices have * (e.g. assigned during previous power cycle). * * Note that we ignore error for both RSTACT and RSTDAA * as there may not be any connected devices responding * to these CCCs. */ if (i3c_ccc_do_rstact_all(dev, I3C_CCC_RSTACT_RESET_WHOLE_TARGET) != 0) { /* * Reset Whole Target support is not required so * if there is any NACK, we want to at least reset * the I3C peripheral of targets. */ LOG_DBG("Broadcast RSTACT (whole target) was NACK."); if (i3c_ccc_do_rstact_all(dev, I3C_CCC_RSTACT_PERIPHERAL_ONLY) != 0) { LOG_DBG("Broadcast RSTACT (peripehral) was NACK."); } } if (i3c_ccc_do_rstdaa_all(dev) != 0) { LOG_DBG("Broadcast RSTDAA was NACK."); } /* * Disable all events from targets to avoid them * interfering with bus initialization, * especially during DAA. */ i3c_events.events = I3C_CCC_EVT_ALL; ret = i3c_ccc_do_events_all_set(dev, false, &i3c_events); if (ret != 0) { LOG_DBG("Broadcast DISEC was NACK."); } /* * Set static addresses as dynamic addresses. */ ret = i3c_bus_setdasa(dev, dev_list, &need_daa); if (ret != 0) { goto err_out; } /* * Perform Dynamic Address Assignment if needed. */ if (need_daa) { ret = i3c_do_daa(dev); if (ret != 0) { /* * Spec says to try once more * if DAA fails the first time. */ ret = i3c_do_daa(dev); if (ret != 0) { /* * Failure to finish dynamic address assignment * is not the end of world... hopefully. * Continue on so the devices already have * addresses can still function. */ LOG_ERR("DAA was not successful."); } } } /* * Loop through the registered I3C devices to retrieve * basic target information. */ for (i = 0; i < dev_list->num_i3c; i++) { struct i3c_device_desc *desc = &dev_list->i3c[i]; if (desc->dynamic_addr == 0U) { continue; } ret = i3c_device_basic_info_get(desc); if (ret != 0) { LOG_ERR("Error getting basic device info for 0x%02x", desc->static_addr); } else { LOG_DBG("Target 0x%02x, BCR 0x%02x, DCR 0x%02x, MRL %d, MWL %d, IBI %d", desc->dynamic_addr, desc->bcr, desc->dcr, desc->data_length.mrl, desc->data_length.mwl, desc->data_length.max_ibi); } } /* * Only re-enable Hot-Join from targets. * Target interrupts will be enabled when IBI is enabled. * And transferring controller role is not supported so not need to * enable the event. */ i3c_events.events = I3C_CCC_EVT_HJ; ret = i3c_ccc_do_events_all_set(dev, true, &i3c_events); if (ret != 0) { LOG_DBG("Broadcast ENEC was NACK."); } err_out: return ret; }