/* * Copyright (c) 2022 Intel Corporation * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #include #include LOG_MODULE_DECLARE(i3c, CONFIG_I3C_LOG_LEVEL); int i3c_ccc_do_getbcr(struct i3c_device_desc *target, struct i3c_ccc_getbcr *bcr) { struct i3c_ccc_payload ccc_payload; struct i3c_ccc_target_payload ccc_tgt_payload; __ASSERT_NO_MSG(target != NULL); __ASSERT_NO_MSG(target->bus != NULL); __ASSERT_NO_MSG(bcr != NULL); ccc_tgt_payload.addr = target->dynamic_addr; ccc_tgt_payload.rnw = 1; ccc_tgt_payload.data = &bcr->bcr; ccc_tgt_payload.data_len = sizeof(bcr->bcr); memset(&ccc_payload, 0, sizeof(ccc_payload)); ccc_payload.ccc.id = I3C_CCC_GETBCR; ccc_payload.targets.payloads = &ccc_tgt_payload; ccc_payload.targets.num_targets = 1; return i3c_do_ccc(target->bus, &ccc_payload); } int i3c_ccc_do_getdcr(struct i3c_device_desc *target, struct i3c_ccc_getdcr *dcr) { struct i3c_ccc_payload ccc_payload; struct i3c_ccc_target_payload ccc_tgt_payload; __ASSERT_NO_MSG(target != NULL); __ASSERT_NO_MSG(target->bus != NULL); __ASSERT_NO_MSG(dcr != NULL); ccc_tgt_payload.addr = target->dynamic_addr; ccc_tgt_payload.rnw = 1; ccc_tgt_payload.data = &dcr->dcr; ccc_tgt_payload.data_len = sizeof(dcr->dcr); memset(&ccc_payload, 0, sizeof(ccc_payload)); ccc_payload.ccc.id = I3C_CCC_GETDCR; ccc_payload.targets.payloads = &ccc_tgt_payload; ccc_payload.targets.num_targets = 1; return i3c_do_ccc(target->bus, &ccc_payload); } int i3c_ccc_do_getpid(struct i3c_device_desc *target, struct i3c_ccc_getpid *pid) { struct i3c_ccc_payload ccc_payload; struct i3c_ccc_target_payload ccc_tgt_payload; __ASSERT_NO_MSG(target != NULL); __ASSERT_NO_MSG(target->bus != NULL); __ASSERT_NO_MSG(pid != NULL); ccc_tgt_payload.addr = target->dynamic_addr; ccc_tgt_payload.rnw = 1; ccc_tgt_payload.data = &pid->pid[0]; ccc_tgt_payload.data_len = sizeof(pid->pid); memset(&ccc_payload, 0, sizeof(ccc_payload)); ccc_payload.ccc.id = I3C_CCC_GETPID; ccc_payload.targets.payloads = &ccc_tgt_payload; ccc_payload.targets.num_targets = 1; return i3c_do_ccc(target->bus, &ccc_payload); } int i3c_ccc_do_rstact_all(const struct device *controller, enum i3c_ccc_rstact_defining_byte action) { struct i3c_ccc_payload ccc_payload; uint8_t def_byte; __ASSERT_NO_MSG(controller != NULL); memset(&ccc_payload, 0, sizeof(ccc_payload)); ccc_payload.ccc.id = I3C_CCC_RSTACT(true); def_byte = (uint8_t)action; ccc_payload.ccc.data = &def_byte; ccc_payload.ccc.data_len = 1U; return i3c_do_ccc(controller, &ccc_payload); } int i3c_ccc_do_rstdaa_all(const struct device *controller) { struct i3c_ccc_payload ccc_payload; __ASSERT_NO_MSG(controller != NULL); memset(&ccc_payload, 0, sizeof(ccc_payload)); ccc_payload.ccc.id = I3C_CCC_RSTDAA; return i3c_do_ccc(controller, &ccc_payload); } int i3c_ccc_do_setdasa(const struct i3c_device_desc *target) { struct i3c_driver_data *bus_data = (struct i3c_driver_data *)target->bus->data; struct i3c_ccc_payload ccc_payload; struct i3c_ccc_target_payload ccc_tgt_payload; uint8_t dyn_addr; __ASSERT_NO_MSG(target != NULL); __ASSERT_NO_MSG(target->bus != NULL); if ((target->static_addr == 0U) || (target->dynamic_addr != 0U)) { return -EINVAL; } /* * Note that the 7-bit address needs to start at bit 1 * (aka left-justified). So shift left by 1; */ dyn_addr = (target->init_dynamic_addr ? target->init_dynamic_addr : target->static_addr) << 1; /* check that initial dynamic address is free before setting it */ if ((target->init_dynamic_addr != 0) && (target->init_dynamic_addr != target->static_addr)) { if (!i3c_addr_slots_is_free(&bus_data->attached_dev.addr_slots, dyn_addr >> 1)) { return -EINVAL; } } ccc_tgt_payload.addr = target->static_addr; ccc_tgt_payload.rnw = 0; ccc_tgt_payload.data = &dyn_addr; ccc_tgt_payload.data_len = 1; memset(&ccc_payload, 0, sizeof(ccc_payload)); ccc_payload.ccc.id = I3C_CCC_SETDASA; ccc_payload.targets.payloads = &ccc_tgt_payload; ccc_payload.targets.num_targets = 1; return i3c_do_ccc(target->bus, &ccc_payload); } int i3c_ccc_do_setnewda(const struct i3c_device_desc *target, struct i3c_ccc_address new_da) { struct i3c_driver_data *bus_data = (struct i3c_driver_data *)target->bus->data; struct i3c_ccc_payload ccc_payload; struct i3c_ccc_target_payload ccc_tgt_payload; uint8_t new_dyn_addr; __ASSERT_NO_MSG(target != NULL); __ASSERT_NO_MSG(target->bus != NULL); if (target->dynamic_addr == 0U) { return -EINVAL; } /* * Note that the 7-bit address needs to start at bit 1 * (aka left-justified). So shift left by 1; */ new_dyn_addr = new_da.addr << 1; /* check that initial dynamic address is free before setting it */ if (target->dynamic_addr != new_da.addr) { if (!i3c_addr_slots_is_free(&bus_data->attached_dev.addr_slots, new_da.addr)) { return -EINVAL; } } ccc_tgt_payload.addr = target->dynamic_addr; ccc_tgt_payload.rnw = 0; ccc_tgt_payload.data = &new_dyn_addr; ccc_tgt_payload.data_len = 1; memset(&ccc_payload, 0, sizeof(ccc_payload)); ccc_payload.ccc.id = I3C_CCC_SETNEWDA; ccc_payload.targets.payloads = &ccc_tgt_payload; ccc_payload.targets.num_targets = 1; return i3c_do_ccc(target->bus, &ccc_payload); } int i3c_ccc_do_events_all_set(const struct device *controller, bool enable, struct i3c_ccc_events *events) { struct i3c_ccc_payload ccc_payload; __ASSERT_NO_MSG(controller != NULL); memset(&ccc_payload, 0, sizeof(ccc_payload)); ccc_payload.ccc.id = enable ? I3C_CCC_ENEC(true) : I3C_CCC_DISEC(true); ccc_payload.ccc.data = &events->events; ccc_payload.ccc.data_len = sizeof(events->events); return i3c_do_ccc(controller, &ccc_payload); } int i3c_ccc_do_events_set(struct i3c_device_desc *target, bool enable, struct i3c_ccc_events *events) { struct i3c_ccc_payload ccc_payload; struct i3c_ccc_target_payload ccc_tgt_payload; __ASSERT_NO_MSG(target != NULL); __ASSERT_NO_MSG(target->bus != NULL); if (target->dynamic_addr == 0U) { return -EINVAL; } ccc_tgt_payload.addr = target->dynamic_addr; ccc_tgt_payload.rnw = 0; ccc_tgt_payload.data = &events->events; ccc_tgt_payload.data_len = sizeof(events->events); memset(&ccc_payload, 0, sizeof(ccc_payload)); ccc_payload.ccc.id = enable ? I3C_CCC_ENEC(false) : I3C_CCC_DISEC(false); ccc_payload.targets.payloads = &ccc_tgt_payload; ccc_payload.targets.num_targets = 1; return i3c_do_ccc(target->bus, &ccc_payload); } int i3c_ccc_do_setmwl_all(const struct device *controller, const struct i3c_ccc_mwl *mwl) { struct i3c_ccc_payload ccc_payload; uint8_t data[2]; __ASSERT_NO_MSG(controller != NULL); memset(&ccc_payload, 0, sizeof(ccc_payload)); ccc_payload.ccc.id = I3C_CCC_SETMWL(true); ccc_payload.ccc.data = &data[0]; ccc_payload.ccc.data_len = sizeof(data); /* The actual data is MSB first. So order the data. */ data[0] = (uint8_t)((mwl->len & 0xFF00U) >> 8); data[1] = (uint8_t)(mwl->len & 0xFFU); return i3c_do_ccc(controller, &ccc_payload); } int i3c_ccc_do_setmwl(const struct i3c_device_desc *target, const struct i3c_ccc_mwl *mwl) { struct i3c_ccc_payload ccc_payload; struct i3c_ccc_target_payload ccc_tgt_payload; uint8_t data[2]; __ASSERT_NO_MSG(target != NULL); __ASSERT_NO_MSG(target->bus != NULL); memset(&ccc_payload, 0, sizeof(ccc_payload)); ccc_tgt_payload.addr = target->dynamic_addr; ccc_tgt_payload.rnw = 0; ccc_tgt_payload.data = &data[0]; ccc_tgt_payload.data_len = sizeof(data); ccc_payload.ccc.id = I3C_CCC_SETMWL(false); ccc_payload.targets.payloads = &ccc_tgt_payload; ccc_payload.targets.num_targets = 1; /* The actual length is MSB first. So order the data. */ data[0] = (uint8_t)((mwl->len & 0xFF00U) >> 8); data[1] = (uint8_t)(mwl->len & 0xFFU); return i3c_do_ccc(target->bus, &ccc_payload); } int i3c_ccc_do_getmwl(const struct i3c_device_desc *target, struct i3c_ccc_mwl *mwl) { struct i3c_ccc_payload ccc_payload; struct i3c_ccc_target_payload ccc_tgt_payload; uint8_t data[2]; int ret; __ASSERT_NO_MSG(target != NULL); __ASSERT_NO_MSG(target->bus != NULL); __ASSERT_NO_MSG(mwl != NULL); ccc_tgt_payload.addr = target->dynamic_addr; ccc_tgt_payload.rnw = 1; ccc_tgt_payload.data = &data[0]; ccc_tgt_payload.data_len = sizeof(data); memset(&ccc_payload, 0, sizeof(ccc_payload)); ccc_payload.ccc.id = I3C_CCC_GETMWL; ccc_payload.targets.payloads = &ccc_tgt_payload; ccc_payload.targets.num_targets = 1; ret = i3c_do_ccc(target->bus, &ccc_payload); if (ret == 0) { /* The actual length is MSB first. So order the data. */ mwl->len = (data[0] << 8) | data[1]; } return ret; } int i3c_ccc_do_setmrl_all(const struct device *controller, const struct i3c_ccc_mrl *mrl, bool has_ibi_size) { struct i3c_ccc_payload ccc_payload; uint8_t data[3]; __ASSERT_NO_MSG(controller != NULL); memset(&ccc_payload, 0, sizeof(ccc_payload)); ccc_payload.ccc.id = I3C_CCC_SETMRL(true); ccc_payload.ccc.data = &data[0]; ccc_payload.ccc.data_len = has_ibi_size ? 3 : 2; /* The actual length is MSB first. So order the data. */ data[0] = (uint8_t)((mrl->len & 0xFF00U) >> 8); data[1] = (uint8_t)(mrl->len & 0xFFU); if (has_ibi_size) { data[2] = mrl->ibi_len; } return i3c_do_ccc(controller, &ccc_payload); } int i3c_ccc_do_setmrl(const struct i3c_device_desc *target, const struct i3c_ccc_mrl *mrl) { struct i3c_ccc_payload ccc_payload; struct i3c_ccc_target_payload ccc_tgt_payload; uint8_t data[3]; __ASSERT_NO_MSG(target != NULL); __ASSERT_NO_MSG(target->bus != NULL); memset(&ccc_payload, 0, sizeof(ccc_payload)); ccc_tgt_payload.addr = target->dynamic_addr; ccc_tgt_payload.rnw = 0; ccc_tgt_payload.data = &data[0]; ccc_payload.ccc.id = I3C_CCC_SETMRL(false); ccc_payload.targets.payloads = &ccc_tgt_payload; ccc_payload.targets.num_targets = 1; /* The actual length is MSB first. So order the data. */ data[0] = (uint8_t)((mrl->len & 0xFF00U) >> 8); data[1] = (uint8_t)(mrl->len & 0xFFU); if ((target->bcr & I3C_BCR_IBI_PAYLOAD_HAS_DATA_BYTE) == I3C_BCR_IBI_PAYLOAD_HAS_DATA_BYTE) { ccc_tgt_payload.data_len = 3; data[2] = mrl->ibi_len; } else { ccc_tgt_payload.data_len = 2; } return i3c_do_ccc(target->bus, &ccc_payload); } int i3c_ccc_do_getmrl(const struct i3c_device_desc *target, struct i3c_ccc_mrl *mrl) { struct i3c_ccc_payload ccc_payload; struct i3c_ccc_target_payload ccc_tgt_payload; uint8_t data[3]; bool has_ibi_sz; int ret; __ASSERT_NO_MSG(target != NULL); __ASSERT_NO_MSG(target->bus != NULL); __ASSERT_NO_MSG(mrl != NULL); has_ibi_sz = (target->bcr & I3C_BCR_IBI_PAYLOAD_HAS_DATA_BYTE) == I3C_BCR_IBI_PAYLOAD_HAS_DATA_BYTE; ccc_tgt_payload.addr = target->dynamic_addr; ccc_tgt_payload.rnw = 1; ccc_tgt_payload.data = &data[0]; ccc_tgt_payload.data_len = has_ibi_sz ? 3 : 2; memset(&ccc_payload, 0, sizeof(ccc_payload)); ccc_payload.ccc.id = I3C_CCC_GETMRL; ccc_payload.targets.payloads = &ccc_tgt_payload; ccc_payload.targets.num_targets = 1; ret = i3c_do_ccc(target->bus, &ccc_payload); if (ret == 0) { /* The actual length is MSB first. So order the data. */ mrl->len = (data[0] << 8) | data[1]; if (has_ibi_sz) { mrl->ibi_len = data[2]; } } return ret; } int i3c_ccc_do_getstatus(const struct i3c_device_desc *target, union i3c_ccc_getstatus *status, enum i3c_ccc_getstatus_fmt fmt, enum i3c_ccc_getstatus_defbyte defbyte) { struct i3c_ccc_payload ccc_payload; struct i3c_ccc_target_payload ccc_tgt_payload; uint8_t defining_byte; uint8_t data[2]; int ret; __ASSERT_NO_MSG(target != NULL); __ASSERT_NO_MSG(target->bus != NULL); __ASSERT_NO_MSG(status != NULL); ccc_tgt_payload.addr = target->dynamic_addr; ccc_tgt_payload.rnw = 1; ccc_tgt_payload.data = &data[0]; if (fmt == GETSTATUS_FORMAT_1) { ccc_tgt_payload.data_len = 2; } else if (fmt == GETSTATUS_FORMAT_2) { switch (defbyte) { case GETSTATUS_FORMAT_2_TGTSTAT: __fallthrough; case GETSTATUS_FORMAT_2_PRECR: ccc_tgt_payload.data_len = 2; break; default: ret = -EINVAL; goto out; } } else { ret = -EINVAL; goto out; } memset(&ccc_payload, 0, sizeof(ccc_payload)); ccc_payload.ccc.id = I3C_CCC_GETSTATUS; ccc_payload.targets.payloads = &ccc_tgt_payload; ccc_payload.targets.num_targets = 1; if (fmt == GETSTATUS_FORMAT_2) { defining_byte = (uint8_t)defbyte; ccc_payload.ccc.data = &defining_byte; ccc_payload.ccc.data_len = 1; } ret = i3c_do_ccc(target->bus, &ccc_payload); if (ret == 0) { /* Received data is MSB first. So order the data. */ if (fmt == GETSTATUS_FORMAT_1) { status->fmt1.status = (data[0] << 8) | data[1]; } else if (fmt == GETSTATUS_FORMAT_2) { switch (defbyte) { case GETSTATUS_FORMAT_2_TGTSTAT: __fallthrough; case GETSTATUS_FORMAT_2_PRECR: status->fmt2.raw_u16 = (data[0] << 8) | data[1]; break; default: break; } } } out: return ret; }