/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include /* * Set up a logical group number that a logical device belongs to. */ hpi_status_t hpi_fzc_ldg_num_set(hpi_handle_t handle, uint8_t ld, uint8_t ldg) { ld_grp_ctrl_t gnum; if (!LD_VALID(ld)) { HPI_ERROR_MSG((handle.function, HPI_ERR_CTL, " hpi_fzc_ldg_num_set ld <0x%x>", ld)); return (HPI_FAILURE | HPI_VIR_LD_INVALID(ld)); } if (!LDG_VALID(ldg)) { HPI_ERROR_MSG((handle.function, HPI_ERR_CTL, " hpi_fzc_ldg_num_set ldg <0x%x>", ldg)); return (HPI_FAILURE | HPI_VIR_LDG_INVALID(ld)); } gnum.value = 0; gnum.bits.num = ldg; HXGE_REG_WR32(handle, LD_GRP_CTRL + LD_NUM_OFFSET(ld), gnum.value); return (HPI_SUCCESS); } /* * Get device state vectors. */ hpi_status_t hpi_ldsv_ldfs_get(hpi_handle_t handle, uint8_t ldg, uint32_t *vector0_p, uint32_t *vector1_p) { int status; if ((status = hpi_ldsv_get(handle, ldg, VECTOR0, vector0_p))) { return (status); } if ((status = hpi_ldsv_get(handle, ldg, VECTOR1, vector1_p))) { return (status); } return (HPI_SUCCESS); } /* * Get device state vectors. */ hpi_status_t hpi_ldsv_get(hpi_handle_t handle, uint8_t ldg, ldsv_type_t vector, uint32_t *ldf_p) { uint32_t offset; if (!LDG_VALID(ldg)) { HPI_ERROR_MSG((handle.function, HPI_ERR_CTL, " hpi_ldsv_get Invalid Input ldg <0x%x>", ldg)); return (HPI_FAILURE | HPI_VIR_LDG_INVALID(ldg)); } switch (vector) { case VECTOR0: offset = LDSV0 + LDSV_OFFSET(ldg); break; case VECTOR1: offset = LDSV1 + LDSV_OFFSET(ldg); break; default: HPI_ERROR_MSG((handle.function, HPI_ERR_CTL, " hpi_ldsv_get Invalid Input: ldsv type <0x%x>", vector)); return (HPI_FAILURE | HPI_VIR_LDSV_INVALID(vector)); } HXGE_REG_RD32(handle, offset, ldf_p); return (HPI_SUCCESS); } /* * Set the mask bits for both ldf0 and ldf1. */ hpi_status_t hpi_intr_mask_set(hpi_handle_t handle, uint8_t ld, uint8_t ldf_mask) { uint32_t offset; if (!LD_VALID(ld)) { HPI_ERROR_MSG((handle.function, HPI_ERR_CTL, " hpi_intr_mask_set ld", ld)); return (HPI_FAILURE | HPI_VIR_LD_INVALID(ld)); } ldf_mask &= LD_IM_MASK; offset = LDSV_OFFSET_MASK(ld); HPI_DEBUG_MSG((handle.function, HPI_VIR_CTL, "hpi_intr_mask_set: ld %d offset 0x%0x mask 0x%x", ld, offset, ldf_mask)); HXGE_REG_WR32(handle, offset, (uint32_t)ldf_mask); return (HPI_SUCCESS); } /* * Set interrupt timer and arm bit. */ hpi_status_t hpi_intr_ldg_mgmt_set(hpi_handle_t handle, uint8_t ldg, boolean_t arm, uint8_t timer) { ld_intr_mgmt_t mgm; if (!LDG_VALID(ldg)) { HPI_ERROR_MSG((handle.function, HPI_ERR_CTL, " hpi_intr_ldg_mgmt_set Invalid Input: ldg <0x%x>", ldg)); return (HPI_FAILURE | HPI_VIR_LDG_INVALID(ldg)); } if (!LD_INTTIMER_VALID(timer)) { HPI_ERROR_MSG((handle.function, HPI_ERR_CTL, " hpi_intr_ldg_mgmt_set Invalid Input" " timer <0x%x>", timer)); return (HPI_FAILURE | HPI_VIR_INTM_TM_INVALID(ldg)); } if (arm) { mgm.bits.arm = 1; } else { HXGE_REG_RD32(handle, LD_INTR_MGMT + LDSV_OFFSET(ldg), &mgm.value); } mgm.bits.timer = timer; HXGE_REG_WR32(handle, LD_INTR_MGMT + LDSV_OFFSET(ldg), mgm.value); HPI_DEBUG_MSG((handle.function, HPI_VIR_CTL, " hpi_intr_ldg_mgmt_set: ldg %d reg offset 0x%x", ldg, LD_INTR_MGMT + LDSV_OFFSET(ldg))); return (HPI_SUCCESS); } /* * Set the timer resolution. */ hpi_status_t hpi_fzc_ldg_timer_res_set(hpi_handle_t handle, uint32_t res) { ld_intr_tim_res_t tm; if (res > LDGTITMRES_RES_MASK) { HPI_ERROR_MSG((handle.function, HPI_ERR_CTL, " hpi_fzc_ldg_timer_res_set Invalid Input: res <0x%x>", res)); return (HPI_FAILURE | HPI_VIR_TM_RES_INVALID); } tm.value = 0; tm.bits.res = res; HXGE_REG_WR32(handle, LD_INTR_TIM_RES, tm.value); return (HPI_SUCCESS); } /* * Set the system interrupt data. */ hpi_status_t hpi_fzc_sid_set(hpi_handle_t handle, fzc_sid_t sid) { sid_t sd; if (!LDG_VALID(sid.ldg)) { HPI_ERROR_MSG((handle.function, HPI_ERR_CTL, " hpi_fzc_sid_set Invalid Input: ldg <0x%x>", sid.ldg)); return (HPI_FAILURE | HPI_VIR_LDG_INVALID(sid.ldg)); } if (!SID_VECTOR_VALID(sid.vector)) { HPI_ERROR_MSG((handle.function, HPI_ERR_CTL, " hpi_fzc_sid_set Invalid Input: vector <0x%x>", sid.vector)); return (HPI_FAILURE | HPI_VIR_SID_VEC_INVALID(sid.vector)); } sd.value = 0; sd.bits.data = sid.vector; HXGE_REG_WR32(handle, SID + LDG_SID_OFFSET(sid.ldg), sd.value); return (HPI_SUCCESS); } /* * Mask/Unmask the device error mask bits. */ hpi_status_t hpi_fzc_sys_err_mask_set(hpi_handle_t handle, boolean_t mask) { dev_err_mask_t dev_mask; dev_mask.value = 0; if (mask) { dev_mask.bits.tdc_mask0 = 1; dev_mask.bits.rdc_mask0 = 1; dev_mask.bits.vnm_pio_mask1 = 1; dev_mask.bits.tdc_mask1 = 1; dev_mask.bits.rdc_mask1 = 1; dev_mask.bits.peu_mask1 = 1; } HXGE_REG_WR32(handle, DEV_ERR_MASK, dev_mask.value); return (HPI_SUCCESS); } /* * Get the system error stats. */ hpi_status_t hpi_fzc_sys_err_stat_get(hpi_handle_t handle, dev_err_stat_t *statp) { HXGE_REG_RD32(handle, DEV_ERR_STAT, &statp->value); return (HPI_SUCCESS); }