Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Ofir Bitton | 1773 | 66.50% | 1 | 16.67% |
Koby Elbaz | 751 | 28.17% | 1 | 16.67% |
Oded Gabbay | 142 | 5.33% | 4 | 66.67% |
Total | 2666 | 6 |
// SPDX-License-Identifier: GPL-2.0 /* * Copyright 2020 HabanaLabs, Ltd. * All Rights Reserved. */ #include "habanalabs.h" static const char * const hl_glbl_error_cause[HL_MAX_NUM_OF_GLBL_ERR_CAUSE] = { "Error due to un-priv read", "Error due to un-secure read", "Error due to read from unmapped reg", "Error due to un-priv write", "Error due to un-secure write", "Error due to write to unmapped reg", "External I/F write sec violation", "External I/F write to un-mapped reg", "Read to write only", "Write to read only" }; /** * hl_get_pb_block - return the relevant block within the block array * * @hdev: pointer to hl_device structure * @mm_reg_addr: register address in the desired block * @pb_blocks: blocks array * @array_size: blocks array size * */ static int hl_get_pb_block(struct hl_device *hdev, u32 mm_reg_addr, const u32 pb_blocks[], int array_size) { int i; u32 start_addr, end_addr; for (i = 0 ; i < array_size ; i++) { start_addr = pb_blocks[i]; end_addr = start_addr + HL_BLOCK_SIZE; if ((mm_reg_addr >= start_addr) && (mm_reg_addr < end_addr)) return i; } dev_err(hdev->dev, "No protection domain was found for 0x%x\n", mm_reg_addr); return -EDOM; } /** * hl_unset_pb_in_block - clear a specific protection bit in a block * * @hdev: pointer to hl_device structure * @reg_offset: register offset will be converted to bit offset in pb block * @sgs_entry: pb array * */ static int hl_unset_pb_in_block(struct hl_device *hdev, u32 reg_offset, struct hl_block_glbl_sec *sgs_entry) { if ((reg_offset >= HL_BLOCK_SIZE) || (reg_offset & 0x3)) { dev_err(hdev->dev, "Register offset(%d) is out of range(%d) or invalid\n", reg_offset, HL_BLOCK_SIZE); return -EINVAL; } UNSET_GLBL_SEC_BIT(sgs_entry->sec_array, (reg_offset & (HL_BLOCK_SIZE - 1)) >> 2); return 0; } /** * hl_unsecure_register - locate the relevant block for this register and * remove corresponding protection bit * * @hdev: pointer to hl_device structure * @mm_reg_addr: register address to unsecure * @offset: additional offset to the register address * @pb_blocks: blocks array * @sgs_array: pb array * @array_size: blocks array size * */ int hl_unsecure_register(struct hl_device *hdev, u32 mm_reg_addr, int offset, const u32 pb_blocks[], struct hl_block_glbl_sec sgs_array[], int array_size) { u32 reg_offset; int block_num; block_num = hl_get_pb_block(hdev, mm_reg_addr + offset, pb_blocks, array_size); if (block_num < 0) return block_num; reg_offset = (mm_reg_addr + offset) - pb_blocks[block_num]; return hl_unset_pb_in_block(hdev, reg_offset, &sgs_array[block_num]); } /** * hl_unsecure_register_range - locate the relevant block for this register * range and remove corresponding protection bit * * @hdev: pointer to hl_device structure * @mm_reg_range: register address range to unsecure * @offset: additional offset to the register address * @pb_blocks: blocks array * @sgs_array: pb array * @array_size: blocks array size * */ static int hl_unsecure_register_range(struct hl_device *hdev, struct range mm_reg_range, int offset, const u32 pb_blocks[], struct hl_block_glbl_sec sgs_array[], int array_size) { u32 reg_offset; int i, block_num, rc = 0; block_num = hl_get_pb_block(hdev, mm_reg_range.start + offset, pb_blocks, array_size); if (block_num < 0) return block_num; for (i = mm_reg_range.start ; i <= mm_reg_range.end ; i += 4) { reg_offset = (i + offset) - pb_blocks[block_num]; rc |= hl_unset_pb_in_block(hdev, reg_offset, &sgs_array[block_num]); } return rc; } /** * hl_unsecure_registers - locate the relevant block for all registers and * remove corresponding protection bit * * @hdev: pointer to hl_device structure * @mm_reg_array: register address array to unsecure * @mm_array_size: register array size * @offset: additional offset to the register address * @pb_blocks: blocks array * @sgs_array: pb array * @blocks_array_size: blocks array size * */ int hl_unsecure_registers(struct hl_device *hdev, const u32 mm_reg_array[], int mm_array_size, int offset, const u32 pb_blocks[], struct hl_block_glbl_sec sgs_array[], int blocks_array_size) { int i, rc = 0; for (i = 0 ; i < mm_array_size ; i++) { rc = hl_unsecure_register(hdev, mm_reg_array[i], offset, pb_blocks, sgs_array, blocks_array_size); if (rc) return rc; } return rc; } /** * hl_unsecure_registers_range - locate the relevant block for all register * ranges and remove corresponding protection bit * * @hdev: pointer to hl_device structure * @mm_reg_range_array: register address range array to unsecure * @mm_array_size: register array size * @offset: additional offset to the register address * @pb_blocks: blocks array * @sgs_array: pb array * @blocks_array_size: blocks array size * */ static int hl_unsecure_registers_range(struct hl_device *hdev, const struct range mm_reg_range_array[], int mm_array_size, int offset, const u32 pb_blocks[], struct hl_block_glbl_sec sgs_array[], int blocks_array_size) { int i, rc = 0; for (i = 0 ; i < mm_array_size ; i++) { rc = hl_unsecure_register_range(hdev, mm_reg_range_array[i], offset, pb_blocks, sgs_array, blocks_array_size); if (rc) return rc; } return rc; } /** * hl_ack_pb_security_violations - Ack security violation * * @hdev: pointer to hl_device structure * @pb_blocks: blocks array * @block_offset: additional offset to the block * @array_size: blocks array size * */ static void hl_ack_pb_security_violations(struct hl_device *hdev, const u32 pb_blocks[], u32 block_offset, int array_size) { int i; u32 cause, addr, block_base; for (i = 0 ; i < array_size ; i++) { block_base = pb_blocks[i] + block_offset; cause = RREG32(block_base + HL_BLOCK_GLBL_ERR_CAUSE); if (cause) { addr = RREG32(block_base + HL_BLOCK_GLBL_ERR_ADDR); hdev->asic_funcs->pb_print_security_errors(hdev, block_base, cause, addr); WREG32(block_base + HL_BLOCK_GLBL_ERR_CAUSE, cause); } } } /** * hl_config_glbl_sec - set pb in HW according to given pb array * * @hdev: pointer to hl_device structure * @pb_blocks: blocks array * @sgs_array: pb array * @block_offset: additional offset to the block * @array_size: blocks array size * */ void hl_config_glbl_sec(struct hl_device *hdev, const u32 pb_blocks[], struct hl_block_glbl_sec sgs_array[], u32 block_offset, int array_size) { int i, j; u32 sgs_base; if (hdev->pldm) usleep_range(100, 1000); for (i = 0 ; i < array_size ; i++) { sgs_base = block_offset + pb_blocks[i] + HL_BLOCK_GLBL_SEC_OFFS; for (j = 0 ; j < HL_BLOCK_GLBL_SEC_LEN ; j++) WREG32(sgs_base + j * sizeof(u32), sgs_array[i].sec_array[j]); } } /** * hl_secure_block - locally memsets a block to 0 * * @hdev: pointer to hl_device structure * @sgs_array: pb array to clear * @array_size: blocks array size * */ void hl_secure_block(struct hl_device *hdev, struct hl_block_glbl_sec sgs_array[], int array_size) { int i; for (i = 0 ; i < array_size ; i++) memset((char *)(sgs_array[i].sec_array), 0, HL_BLOCK_GLBL_SEC_SIZE); } /** * hl_init_pb_with_mask - set selected pb instances with mask in HW according * to given configuration * * @hdev: pointer to hl_device structure * @num_dcores: number of decores to apply configuration to * set to HL_PB_SHARED if need to apply only once * @dcore_offset: offset between dcores * @num_instances: number of instances to apply configuration to * @instance_offset: offset between instances * @pb_blocks: blocks array * @blocks_array_size: blocks array size * @regs_array: register array * @regs_array_size: register array size * @mask: enabled instances mask: 1- enabled, 0- disabled */ int hl_init_pb_with_mask(struct hl_device *hdev, u32 num_dcores, u32 dcore_offset, u32 num_instances, u32 instance_offset, const u32 pb_blocks[], u32 blocks_array_size, const u32 *regs_array, u32 regs_array_size, u64 mask) { int i, j; struct hl_block_glbl_sec *glbl_sec; glbl_sec = kcalloc(blocks_array_size, sizeof(struct hl_block_glbl_sec), GFP_KERNEL); if (!glbl_sec) return -ENOMEM; hl_secure_block(hdev, glbl_sec, blocks_array_size); hl_unsecure_registers(hdev, regs_array, regs_array_size, 0, pb_blocks, glbl_sec, blocks_array_size); /* Fill all blocks with the same configuration */ for (i = 0 ; i < num_dcores ; i++) { for (j = 0 ; j < num_instances ; j++) { int seq = i * num_instances + j; if (!(mask & BIT_ULL(seq))) continue; hl_config_glbl_sec(hdev, pb_blocks, glbl_sec, i * dcore_offset + j * instance_offset, blocks_array_size); } } kfree(glbl_sec); return 0; } /** * hl_init_pb - set pb in HW according to given configuration * * @hdev: pointer to hl_device structure * @num_dcores: number of decores to apply configuration to * set to HL_PB_SHARED if need to apply only once * @dcore_offset: offset between dcores * @num_instances: number of instances to apply configuration to * @instance_offset: offset between instances * @pb_blocks: blocks array * @blocks_array_size: blocks array size * @regs_array: register array * @regs_array_size: register array size * */ int hl_init_pb(struct hl_device *hdev, u32 num_dcores, u32 dcore_offset, u32 num_instances, u32 instance_offset, const u32 pb_blocks[], u32 blocks_array_size, const u32 *regs_array, u32 regs_array_size) { return hl_init_pb_with_mask(hdev, num_dcores, dcore_offset, num_instances, instance_offset, pb_blocks, blocks_array_size, regs_array, regs_array_size, ULLONG_MAX); } /** * hl_init_pb_ranges_with_mask - set pb instances using mask in HW according to * given configuration unsecurring registers * ranges instead of specific registers * * @hdev: pointer to hl_device structure * @num_dcores: number of decores to apply configuration to * set to HL_PB_SHARED if need to apply only once * @dcore_offset: offset between dcores * @num_instances: number of instances to apply configuration to * @instance_offset: offset between instances * @pb_blocks: blocks array * @blocks_array_size: blocks array size * @regs_range_array: register range array * @regs_range_array_size: register range array size * @mask: enabled instances mask: 1- enabled, 0- disabled */ int hl_init_pb_ranges_with_mask(struct hl_device *hdev, u32 num_dcores, u32 dcore_offset, u32 num_instances, u32 instance_offset, const u32 pb_blocks[], u32 blocks_array_size, const struct range *regs_range_array, u32 regs_range_array_size, u64 mask) { int i, j, rc = 0; struct hl_block_glbl_sec *glbl_sec; glbl_sec = kcalloc(blocks_array_size, sizeof(struct hl_block_glbl_sec), GFP_KERNEL); if (!glbl_sec) return -ENOMEM; hl_secure_block(hdev, glbl_sec, blocks_array_size); rc = hl_unsecure_registers_range(hdev, regs_range_array, regs_range_array_size, 0, pb_blocks, glbl_sec, blocks_array_size); if (rc) goto free_glbl_sec; /* Fill all blocks with the same configuration */ for (i = 0 ; i < num_dcores ; i++) { for (j = 0 ; j < num_instances ; j++) { int seq = i * num_instances + j; if (!(mask & BIT_ULL(seq))) continue; hl_config_glbl_sec(hdev, pb_blocks, glbl_sec, i * dcore_offset + j * instance_offset, blocks_array_size); } } free_glbl_sec: kfree(glbl_sec); return rc; } /** * hl_init_pb_ranges - set pb in HW according to given configuration unsecurring * registers ranges instead of specific registers * * @hdev: pointer to hl_device structure * @num_dcores: number of decores to apply configuration to * set to HL_PB_SHARED if need to apply only once * @dcore_offset: offset between dcores * @num_instances: number of instances to apply configuration to * @instance_offset: offset between instances * @pb_blocks: blocks array * @blocks_array_size: blocks array size * @regs_range_array: register range array * @regs_range_array_size: register range array size * */ int hl_init_pb_ranges(struct hl_device *hdev, u32 num_dcores, u32 dcore_offset, u32 num_instances, u32 instance_offset, const u32 pb_blocks[], u32 blocks_array_size, const struct range *regs_range_array, u32 regs_range_array_size) { return hl_init_pb_ranges_with_mask(hdev, num_dcores, dcore_offset, num_instances, instance_offset, pb_blocks, blocks_array_size, regs_range_array, regs_range_array_size, ULLONG_MAX); } /** * hl_init_pb_single_dcore - set pb for a single docre in HW * according to given configuration * * @hdev: pointer to hl_device structure * @dcore_offset: offset from the dcore0 * @num_instances: number of instances to apply configuration to * @instance_offset: offset between instances * @pb_blocks: blocks array * @blocks_array_size: blocks array size * @regs_array: register array * @regs_array_size: register array size * */ int hl_init_pb_single_dcore(struct hl_device *hdev, u32 dcore_offset, u32 num_instances, u32 instance_offset, const u32 pb_blocks[], u32 blocks_array_size, const u32 *regs_array, u32 regs_array_size) { int i, rc = 0; struct hl_block_glbl_sec *glbl_sec; glbl_sec = kcalloc(blocks_array_size, sizeof(struct hl_block_glbl_sec), GFP_KERNEL); if (!glbl_sec) return -ENOMEM; hl_secure_block(hdev, glbl_sec, blocks_array_size); rc = hl_unsecure_registers(hdev, regs_array, regs_array_size, 0, pb_blocks, glbl_sec, blocks_array_size); if (rc) goto free_glbl_sec; /* Fill all blocks with the same configuration */ for (i = 0 ; i < num_instances ; i++) hl_config_glbl_sec(hdev, pb_blocks, glbl_sec, dcore_offset + i * instance_offset, blocks_array_size); free_glbl_sec: kfree(glbl_sec); return rc; } /** * hl_init_pb_ranges_single_dcore - set pb for a single docre in HW according * to given configuration unsecurring * registers ranges instead of specific * registers * * @hdev: pointer to hl_device structure * @dcore_offset: offset from the dcore0 * @num_instances: number of instances to apply configuration to * @instance_offset: offset between instances * @pb_blocks: blocks array * @blocks_array_size: blocks array size * @regs_range_array: register range array * @regs_range_array_size: register range array size * */ int hl_init_pb_ranges_single_dcore(struct hl_device *hdev, u32 dcore_offset, u32 num_instances, u32 instance_offset, const u32 pb_blocks[], u32 blocks_array_size, const struct range *regs_range_array, u32 regs_range_array_size) { int i; struct hl_block_glbl_sec *glbl_sec; glbl_sec = kcalloc(blocks_array_size, sizeof(struct hl_block_glbl_sec), GFP_KERNEL); if (!glbl_sec) return -ENOMEM; hl_secure_block(hdev, glbl_sec, blocks_array_size); hl_unsecure_registers_range(hdev, regs_range_array, regs_range_array_size, 0, pb_blocks, glbl_sec, blocks_array_size); /* Fill all blocks with the same configuration */ for (i = 0 ; i < num_instances ; i++) hl_config_glbl_sec(hdev, pb_blocks, glbl_sec, dcore_offset + i * instance_offset, blocks_array_size); kfree(glbl_sec); return 0; } /** * hl_ack_pb_with_mask - ack pb with mask in HW according to given configuration * * @hdev: pointer to hl_device structure * @num_dcores: number of decores to apply configuration to * set to HL_PB_SHARED if need to apply only once * @dcore_offset: offset between dcores * @num_instances: number of instances to apply configuration to * @instance_offset: offset between instances * @pb_blocks: blocks array * @blocks_array_size: blocks array size * @mask: enabled instances mask: 1- enabled, 0- disabled * */ void hl_ack_pb_with_mask(struct hl_device *hdev, u32 num_dcores, u32 dcore_offset, u32 num_instances, u32 instance_offset, const u32 pb_blocks[], u32 blocks_array_size, u64 mask) { int i, j; /* ack all blocks */ for (i = 0 ; i < num_dcores ; i++) { for (j = 0 ; j < num_instances ; j++) { int seq = i * num_instances + j; if (!(mask & BIT_ULL(seq))) continue; hl_ack_pb_security_violations(hdev, pb_blocks, i * dcore_offset + j * instance_offset, blocks_array_size); } } } /** * hl_ack_pb - ack pb in HW according to given configuration * * @hdev: pointer to hl_device structure * @num_dcores: number of decores to apply configuration to * set to HL_PB_SHARED if need to apply only once * @dcore_offset: offset between dcores * @num_instances: number of instances to apply configuration to * @instance_offset: offset between instances * @pb_blocks: blocks array * @blocks_array_size: blocks array size * */ void hl_ack_pb(struct hl_device *hdev, u32 num_dcores, u32 dcore_offset, u32 num_instances, u32 instance_offset, const u32 pb_blocks[], u32 blocks_array_size) { hl_ack_pb_with_mask(hdev, num_dcores, dcore_offset, num_instances, instance_offset, pb_blocks, blocks_array_size, ULLONG_MAX); } /** * hl_ack_pb_single_dcore - ack pb for single docre in HW * according to given configuration * * @hdev: pointer to hl_device structure * @dcore_offset: offset from dcore0 * @num_instances: number of instances to apply configuration to * @instance_offset: offset between instances * @pb_blocks: blocks array * @blocks_array_size: blocks array size * */ void hl_ack_pb_single_dcore(struct hl_device *hdev, u32 dcore_offset, u32 num_instances, u32 instance_offset, const u32 pb_blocks[], u32 blocks_array_size) { int i; /* ack all blocks */ for (i = 0 ; i < num_instances ; i++) hl_ack_pb_security_violations(hdev, pb_blocks, dcore_offset + i * instance_offset, blocks_array_size); } static u32 hl_automated_get_block_base_addr(struct hl_device *hdev, struct hl_special_block_info *block_info, u32 major, u32 minor, u32 sub_minor) { u32 fw_block_base_address = block_info->base_addr + major * block_info->major_offset + minor * block_info->minor_offset + sub_minor * block_info->sub_minor_offset; struct asic_fixed_properties *prop = &hdev->asic_prop; /* Calculation above returns an address for FW use, and therefore should * be casted for driver use. */ return (fw_block_base_address - lower_32_bits(prop->cfg_base_address)); } static bool hl_check_block_type_exclusion(struct hl_skip_blocks_cfg *skip_blocks_cfg, int block_type) { int i; /* Check if block type is listed in the exclusion list of block types */ for (i = 0 ; i < skip_blocks_cfg->block_types_len ; i++) if (block_type == skip_blocks_cfg->block_types[i]) return true; return false; } static bool hl_check_block_range_exclusion(struct hl_device *hdev, struct hl_skip_blocks_cfg *skip_blocks_cfg, struct hl_special_block_info *block_info, u32 major, u32 minor, u32 sub_minor) { u32 blocks_in_range, block_base_addr_in_range, block_base_addr; int i, j; block_base_addr = hl_automated_get_block_base_addr(hdev, block_info, major, minor, sub_minor); for (i = 0 ; i < skip_blocks_cfg->block_ranges_len ; i++) { blocks_in_range = (skip_blocks_cfg->block_ranges[i].end - skip_blocks_cfg->block_ranges[i].start) / HL_BLOCK_SIZE + 1; for (j = 0 ; j < blocks_in_range ; j++) { block_base_addr_in_range = skip_blocks_cfg->block_ranges[i].start + j * HL_BLOCK_SIZE; if (block_base_addr == block_base_addr_in_range) return true; } } return false; } static int hl_read_glbl_errors(struct hl_device *hdev, u32 blk_idx, u32 major, u32 minor, u32 sub_minor, void *data) { struct hl_special_block_info *special_blocks = hdev->asic_prop.special_blocks; struct hl_special_block_info *current_block = &special_blocks[blk_idx]; u32 glbl_err_addr, glbl_err_cause, addr_val, cause_val, block_base, base = current_block->base_addr - lower_32_bits(hdev->asic_prop.cfg_base_address); int i; block_base = base + major * current_block->major_offset + minor * current_block->minor_offset + sub_minor * current_block->sub_minor_offset; glbl_err_cause = block_base + HL_GLBL_ERR_CAUSE_OFFSET; cause_val = RREG32(glbl_err_cause); if (!cause_val) return 0; glbl_err_addr = block_base + HL_GLBL_ERR_ADDR_OFFSET; addr_val = RREG32(glbl_err_addr); for (i = 0 ; i < hdev->asic_prop.glbl_err_cause_num ; i++) { if (cause_val & BIT(i)) dev_err_ratelimited(hdev->dev, "%s, addr %#llx\n", hl_glbl_error_cause[i], hdev->asic_prop.cfg_base_address + block_base + FIELD_GET(HL_GLBL_ERR_ADDRESS_MASK, addr_val)); } WREG32(glbl_err_cause, cause_val); return 0; } void hl_check_for_glbl_errors(struct hl_device *hdev) { struct asic_fixed_properties *prop = &hdev->asic_prop; struct hl_special_blocks_cfg special_blocks_cfg; struct iterate_special_ctx glbl_err_iter; int rc; memset(&special_blocks_cfg, 0, sizeof(special_blocks_cfg)); special_blocks_cfg.skip_blocks_cfg = &prop->skip_special_blocks_cfg; glbl_err_iter.fn = &hl_read_glbl_errors; glbl_err_iter.data = &special_blocks_cfg; rc = hl_iterate_special_blocks(hdev, &glbl_err_iter); if (rc) dev_err_ratelimited(hdev->dev, "Could not iterate special blocks, glbl error check failed\n"); } int hl_iterate_special_blocks(struct hl_device *hdev, struct iterate_special_ctx *ctx) { struct hl_special_blocks_cfg *special_blocks_cfg = (struct hl_special_blocks_cfg *)ctx->data; struct hl_skip_blocks_cfg *skip_blocks_cfg = special_blocks_cfg->skip_blocks_cfg; u32 major, minor, sub_minor, blk_idx, num_blocks; struct hl_special_block_info *block_info_arr; int rc; block_info_arr = hdev->asic_prop.special_blocks; if (!block_info_arr) return -EINVAL; num_blocks = hdev->asic_prop.num_of_special_blocks; for (blk_idx = 0 ; blk_idx < num_blocks ; blk_idx++, block_info_arr++) { if (hl_check_block_type_exclusion(skip_blocks_cfg, block_info_arr->block_type)) continue; for (major = 0 ; major < block_info_arr->major ; major++) { minor = 0; do { sub_minor = 0; do { if ((hl_check_block_range_exclusion(hdev, skip_blocks_cfg, block_info_arr, major, minor, sub_minor)) || (skip_blocks_cfg->skip_block_hook && skip_blocks_cfg->skip_block_hook(hdev, special_blocks_cfg, blk_idx, major, minor, sub_minor))) { sub_minor++; continue; } rc = ctx->fn(hdev, blk_idx, major, minor, sub_minor, ctx->data); if (rc) return rc; sub_minor++; } while (sub_minor < block_info_arr->sub_minor); minor++; } while (minor < block_info_arr->minor); } } return 0; }
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