18c2ecf20Sopenharmony_ci// SPDX-License-Identifier: ISC 28c2ecf20Sopenharmony_ci/* 38c2ecf20Sopenharmony_ci * Copyright (c) 2015-2016 Qualcomm Atheros, Inc. 48c2ecf20Sopenharmony_ci */ 58c2ecf20Sopenharmony_ci 68c2ecf20Sopenharmony_ci/* This file has implementation for code swap logic. With code swap feature, 78c2ecf20Sopenharmony_ci * target can run the fw binary with even smaller IRAM size by using host 88c2ecf20Sopenharmony_ci * memory to store some of the code segments. 98c2ecf20Sopenharmony_ci */ 108c2ecf20Sopenharmony_ci 118c2ecf20Sopenharmony_ci#include "core.h" 128c2ecf20Sopenharmony_ci#include "bmi.h" 138c2ecf20Sopenharmony_ci#include "debug.h" 148c2ecf20Sopenharmony_ci 158c2ecf20Sopenharmony_cistatic int ath10k_swap_code_seg_fill(struct ath10k *ar, 168c2ecf20Sopenharmony_ci struct ath10k_swap_code_seg_info *seg_info, 178c2ecf20Sopenharmony_ci const void *data, size_t data_len) 188c2ecf20Sopenharmony_ci{ 198c2ecf20Sopenharmony_ci u8 *virt_addr = seg_info->virt_address[0]; 208c2ecf20Sopenharmony_ci u8 swap_magic[ATH10K_SWAP_CODE_SEG_MAGIC_BYTES_SZ] = {}; 218c2ecf20Sopenharmony_ci const u8 *fw_data = data; 228c2ecf20Sopenharmony_ci union ath10k_swap_code_seg_item *swap_item; 238c2ecf20Sopenharmony_ci u32 length = 0; 248c2ecf20Sopenharmony_ci u32 payload_len; 258c2ecf20Sopenharmony_ci u32 total_payload_len = 0; 268c2ecf20Sopenharmony_ci u32 size_left = data_len; 278c2ecf20Sopenharmony_ci 288c2ecf20Sopenharmony_ci /* Parse swap bin and copy the content to host allocated memory. 298c2ecf20Sopenharmony_ci * The format is Address, length and value. The last 4-bytes is 308c2ecf20Sopenharmony_ci * target write address. Currently address field is not used. 318c2ecf20Sopenharmony_ci */ 328c2ecf20Sopenharmony_ci seg_info->target_addr = -1; 338c2ecf20Sopenharmony_ci while (size_left >= sizeof(*swap_item)) { 348c2ecf20Sopenharmony_ci swap_item = (union ath10k_swap_code_seg_item *)fw_data; 358c2ecf20Sopenharmony_ci payload_len = __le32_to_cpu(swap_item->tlv.length); 368c2ecf20Sopenharmony_ci if ((payload_len > size_left) || 378c2ecf20Sopenharmony_ci (payload_len == 0 && 388c2ecf20Sopenharmony_ci size_left != sizeof(struct ath10k_swap_code_seg_tail))) { 398c2ecf20Sopenharmony_ci ath10k_err(ar, "refusing to parse invalid tlv length %d\n", 408c2ecf20Sopenharmony_ci payload_len); 418c2ecf20Sopenharmony_ci return -EINVAL; 428c2ecf20Sopenharmony_ci } 438c2ecf20Sopenharmony_ci 448c2ecf20Sopenharmony_ci if (payload_len == 0) { 458c2ecf20Sopenharmony_ci if (memcmp(swap_item->tail.magic_signature, swap_magic, 468c2ecf20Sopenharmony_ci ATH10K_SWAP_CODE_SEG_MAGIC_BYTES_SZ)) { 478c2ecf20Sopenharmony_ci ath10k_err(ar, "refusing an invalid swap file\n"); 488c2ecf20Sopenharmony_ci return -EINVAL; 498c2ecf20Sopenharmony_ci } 508c2ecf20Sopenharmony_ci seg_info->target_addr = 518c2ecf20Sopenharmony_ci __le32_to_cpu(swap_item->tail.bmi_write_addr); 528c2ecf20Sopenharmony_ci break; 538c2ecf20Sopenharmony_ci } 548c2ecf20Sopenharmony_ci 558c2ecf20Sopenharmony_ci memcpy(virt_addr, swap_item->tlv.data, payload_len); 568c2ecf20Sopenharmony_ci virt_addr += payload_len; 578c2ecf20Sopenharmony_ci length = payload_len + sizeof(struct ath10k_swap_code_seg_tlv); 588c2ecf20Sopenharmony_ci size_left -= length; 598c2ecf20Sopenharmony_ci fw_data += length; 608c2ecf20Sopenharmony_ci total_payload_len += payload_len; 618c2ecf20Sopenharmony_ci } 628c2ecf20Sopenharmony_ci 638c2ecf20Sopenharmony_ci if (seg_info->target_addr == -1) { 648c2ecf20Sopenharmony_ci ath10k_err(ar, "failed to parse invalid swap file\n"); 658c2ecf20Sopenharmony_ci return -EINVAL; 668c2ecf20Sopenharmony_ci } 678c2ecf20Sopenharmony_ci seg_info->seg_hw_info.swap_size = __cpu_to_le32(total_payload_len); 688c2ecf20Sopenharmony_ci 698c2ecf20Sopenharmony_ci return 0; 708c2ecf20Sopenharmony_ci} 718c2ecf20Sopenharmony_ci 728c2ecf20Sopenharmony_cistatic void 738c2ecf20Sopenharmony_ciath10k_swap_code_seg_free(struct ath10k *ar, 748c2ecf20Sopenharmony_ci struct ath10k_swap_code_seg_info *seg_info) 758c2ecf20Sopenharmony_ci{ 768c2ecf20Sopenharmony_ci u32 seg_size; 778c2ecf20Sopenharmony_ci 788c2ecf20Sopenharmony_ci if (!seg_info) 798c2ecf20Sopenharmony_ci return; 808c2ecf20Sopenharmony_ci 818c2ecf20Sopenharmony_ci if (!seg_info->virt_address[0]) 828c2ecf20Sopenharmony_ci return; 838c2ecf20Sopenharmony_ci 848c2ecf20Sopenharmony_ci seg_size = __le32_to_cpu(seg_info->seg_hw_info.size); 858c2ecf20Sopenharmony_ci dma_free_coherent(ar->dev, seg_size, seg_info->virt_address[0], 868c2ecf20Sopenharmony_ci seg_info->paddr[0]); 878c2ecf20Sopenharmony_ci} 888c2ecf20Sopenharmony_ci 898c2ecf20Sopenharmony_cistatic struct ath10k_swap_code_seg_info * 908c2ecf20Sopenharmony_ciath10k_swap_code_seg_alloc(struct ath10k *ar, size_t swap_bin_len) 918c2ecf20Sopenharmony_ci{ 928c2ecf20Sopenharmony_ci struct ath10k_swap_code_seg_info *seg_info; 938c2ecf20Sopenharmony_ci void *virt_addr; 948c2ecf20Sopenharmony_ci dma_addr_t paddr; 958c2ecf20Sopenharmony_ci 968c2ecf20Sopenharmony_ci swap_bin_len = roundup(swap_bin_len, 2); 978c2ecf20Sopenharmony_ci if (swap_bin_len > ATH10K_SWAP_CODE_SEG_BIN_LEN_MAX) { 988c2ecf20Sopenharmony_ci ath10k_err(ar, "refusing code swap bin because it is too big %zu > %d\n", 998c2ecf20Sopenharmony_ci swap_bin_len, ATH10K_SWAP_CODE_SEG_BIN_LEN_MAX); 1008c2ecf20Sopenharmony_ci return NULL; 1018c2ecf20Sopenharmony_ci } 1028c2ecf20Sopenharmony_ci 1038c2ecf20Sopenharmony_ci seg_info = devm_kzalloc(ar->dev, sizeof(*seg_info), GFP_KERNEL); 1048c2ecf20Sopenharmony_ci if (!seg_info) 1058c2ecf20Sopenharmony_ci return NULL; 1068c2ecf20Sopenharmony_ci 1078c2ecf20Sopenharmony_ci virt_addr = dma_alloc_coherent(ar->dev, swap_bin_len, &paddr, 1088c2ecf20Sopenharmony_ci GFP_KERNEL); 1098c2ecf20Sopenharmony_ci if (!virt_addr) 1108c2ecf20Sopenharmony_ci return NULL; 1118c2ecf20Sopenharmony_ci 1128c2ecf20Sopenharmony_ci seg_info->seg_hw_info.bus_addr[0] = __cpu_to_le32(paddr); 1138c2ecf20Sopenharmony_ci seg_info->seg_hw_info.size = __cpu_to_le32(swap_bin_len); 1148c2ecf20Sopenharmony_ci seg_info->seg_hw_info.swap_size = __cpu_to_le32(swap_bin_len); 1158c2ecf20Sopenharmony_ci seg_info->seg_hw_info.num_segs = 1168c2ecf20Sopenharmony_ci __cpu_to_le32(ATH10K_SWAP_CODE_SEG_NUM_SUPPORTED); 1178c2ecf20Sopenharmony_ci seg_info->seg_hw_info.size_log2 = __cpu_to_le32(ilog2(swap_bin_len)); 1188c2ecf20Sopenharmony_ci seg_info->virt_address[0] = virt_addr; 1198c2ecf20Sopenharmony_ci seg_info->paddr[0] = paddr; 1208c2ecf20Sopenharmony_ci 1218c2ecf20Sopenharmony_ci return seg_info; 1228c2ecf20Sopenharmony_ci} 1238c2ecf20Sopenharmony_ci 1248c2ecf20Sopenharmony_ciint ath10k_swap_code_seg_configure(struct ath10k *ar, 1258c2ecf20Sopenharmony_ci const struct ath10k_fw_file *fw_file) 1268c2ecf20Sopenharmony_ci{ 1278c2ecf20Sopenharmony_ci int ret; 1288c2ecf20Sopenharmony_ci struct ath10k_swap_code_seg_info *seg_info = NULL; 1298c2ecf20Sopenharmony_ci 1308c2ecf20Sopenharmony_ci if (!fw_file->firmware_swap_code_seg_info) 1318c2ecf20Sopenharmony_ci return 0; 1328c2ecf20Sopenharmony_ci 1338c2ecf20Sopenharmony_ci ath10k_dbg(ar, ATH10K_DBG_BOOT, "boot found firmware code swap binary\n"); 1348c2ecf20Sopenharmony_ci 1358c2ecf20Sopenharmony_ci seg_info = fw_file->firmware_swap_code_seg_info; 1368c2ecf20Sopenharmony_ci 1378c2ecf20Sopenharmony_ci ret = ath10k_bmi_write_memory(ar, seg_info->target_addr, 1388c2ecf20Sopenharmony_ci &seg_info->seg_hw_info, 1398c2ecf20Sopenharmony_ci sizeof(seg_info->seg_hw_info)); 1408c2ecf20Sopenharmony_ci if (ret) { 1418c2ecf20Sopenharmony_ci ath10k_err(ar, "failed to write Code swap segment information (%d)\n", 1428c2ecf20Sopenharmony_ci ret); 1438c2ecf20Sopenharmony_ci return ret; 1448c2ecf20Sopenharmony_ci } 1458c2ecf20Sopenharmony_ci 1468c2ecf20Sopenharmony_ci return 0; 1478c2ecf20Sopenharmony_ci} 1488c2ecf20Sopenharmony_ci 1498c2ecf20Sopenharmony_civoid ath10k_swap_code_seg_release(struct ath10k *ar, 1508c2ecf20Sopenharmony_ci struct ath10k_fw_file *fw_file) 1518c2ecf20Sopenharmony_ci{ 1528c2ecf20Sopenharmony_ci ath10k_swap_code_seg_free(ar, fw_file->firmware_swap_code_seg_info); 1538c2ecf20Sopenharmony_ci 1548c2ecf20Sopenharmony_ci /* FIXME: these two assignments look to bein wrong place! Shouldn't 1558c2ecf20Sopenharmony_ci * they be in ath10k_core_free_firmware_files() like the rest? 1568c2ecf20Sopenharmony_ci */ 1578c2ecf20Sopenharmony_ci fw_file->codeswap_data = NULL; 1588c2ecf20Sopenharmony_ci fw_file->codeswap_len = 0; 1598c2ecf20Sopenharmony_ci 1608c2ecf20Sopenharmony_ci fw_file->firmware_swap_code_seg_info = NULL; 1618c2ecf20Sopenharmony_ci} 1628c2ecf20Sopenharmony_ci 1638c2ecf20Sopenharmony_ciint ath10k_swap_code_seg_init(struct ath10k *ar, struct ath10k_fw_file *fw_file) 1648c2ecf20Sopenharmony_ci{ 1658c2ecf20Sopenharmony_ci int ret; 1668c2ecf20Sopenharmony_ci struct ath10k_swap_code_seg_info *seg_info; 1678c2ecf20Sopenharmony_ci const void *codeswap_data; 1688c2ecf20Sopenharmony_ci size_t codeswap_len; 1698c2ecf20Sopenharmony_ci 1708c2ecf20Sopenharmony_ci codeswap_data = fw_file->codeswap_data; 1718c2ecf20Sopenharmony_ci codeswap_len = fw_file->codeswap_len; 1728c2ecf20Sopenharmony_ci 1738c2ecf20Sopenharmony_ci if (!codeswap_len || !codeswap_data) 1748c2ecf20Sopenharmony_ci return 0; 1758c2ecf20Sopenharmony_ci 1768c2ecf20Sopenharmony_ci seg_info = ath10k_swap_code_seg_alloc(ar, codeswap_len); 1778c2ecf20Sopenharmony_ci if (!seg_info) { 1788c2ecf20Sopenharmony_ci ath10k_err(ar, "failed to allocate fw code swap segment\n"); 1798c2ecf20Sopenharmony_ci return -ENOMEM; 1808c2ecf20Sopenharmony_ci } 1818c2ecf20Sopenharmony_ci 1828c2ecf20Sopenharmony_ci ret = ath10k_swap_code_seg_fill(ar, seg_info, 1838c2ecf20Sopenharmony_ci codeswap_data, codeswap_len); 1848c2ecf20Sopenharmony_ci 1858c2ecf20Sopenharmony_ci if (ret) { 1868c2ecf20Sopenharmony_ci ath10k_warn(ar, "failed to initialize fw code swap segment: %d\n", 1878c2ecf20Sopenharmony_ci ret); 1888c2ecf20Sopenharmony_ci ath10k_swap_code_seg_free(ar, seg_info); 1898c2ecf20Sopenharmony_ci return ret; 1908c2ecf20Sopenharmony_ci } 1918c2ecf20Sopenharmony_ci 1928c2ecf20Sopenharmony_ci fw_file->firmware_swap_code_seg_info = seg_info; 1938c2ecf20Sopenharmony_ci 1948c2ecf20Sopenharmony_ci return 0; 1958c2ecf20Sopenharmony_ci} 196