// SPDX-License-Identifier: GPL-2.0-only /* * Copyright (C) 2013--2024 Intel Corporation */ #include #include #include #include #include #include #include #include #include "ipu6.h" #include "ipu6-bus.h" #include "ipu6-cpd.h" #include "ipu6-dma.h" /* 15 entries + header*/ #define MAX_PKG_DIR_ENT_CNT 16 /* 2 qword per entry/header */ #define PKG_DIR_ENT_LEN 2 /* PKG_DIR size in bytes */ #define PKG_DIR_SIZE ((MAX_PKG_DIR_ENT_CNT) * \ (PKG_DIR_ENT_LEN) * sizeof(u64)) /* _IUPKDR_ */ #define PKG_DIR_HDR_MARK 0x5f4955504b44525fULL /* $CPD */ #define CPD_HDR_MARK 0x44504324 #define MAX_MANIFEST_SIZE (SZ_2K * sizeof(u32)) #define MAX_METADATA_SIZE SZ_64K #define MAX_COMPONENT_ID 127 #define MAX_COMPONENT_VERSION 0xffff #define MANIFEST_IDX 0 #define METADATA_IDX 1 #define MODULEDATA_IDX 2 /* * PKG_DIR Entry (type == id) * 63:56 55 54:48 47:32 31:24 23:0 * Rsvd Rsvd Type Version Rsvd Size */ #define PKG_DIR_SIZE_MASK GENMASK_ULL(23, 0) #define PKG_DIR_VERSION_MASK GENMASK_ULL(47, 32) #define PKG_DIR_TYPE_MASK GENMASK_ULL(54, 48) static inline const struct ipu6_cpd_ent *ipu6_cpd_get_entry(const void *cpd, u8 idx) { const struct ipu6_cpd_hdr *cpd_hdr = cpd; const struct ipu6_cpd_ent *ent; ent = (const struct ipu6_cpd_ent *)((const u8 *)cpd + cpd_hdr->hdr_len); return ent + idx; } #define ipu6_cpd_get_manifest(cpd) ipu6_cpd_get_entry(cpd, MANIFEST_IDX) #define ipu6_cpd_get_metadata(cpd) ipu6_cpd_get_entry(cpd, METADATA_IDX) #define ipu6_cpd_get_moduledata(cpd) ipu6_cpd_get_entry(cpd, MODULEDATA_IDX) static const struct ipu6_cpd_metadata_cmpnt_hdr * ipu6_cpd_metadata_get_cmpnt(struct ipu6_device *isp, const void *metadata, unsigned int metadata_size, u8 idx) { size_t extn_size = sizeof(struct ipu6_cpd_metadata_extn); size_t cmpnt_count = metadata_size - extn_size; cmpnt_count = div_u64(cmpnt_count, isp->cpd_metadata_cmpnt_size); if (idx > MAX_COMPONENT_ID || idx >= cmpnt_count) { dev_err(&isp->pdev->dev, "Component index out of range (%d)\n", idx); return ERR_PTR(-EINVAL); } return metadata + extn_size + idx * isp->cpd_metadata_cmpnt_size; } static u32 ipu6_cpd_metadata_cmpnt_version(struct ipu6_device *isp, const void *metadata, unsigned int metadata_size, u8 idx) { const struct ipu6_cpd_metadata_cmpnt_hdr *cmpnt; cmpnt = ipu6_cpd_metadata_get_cmpnt(isp, metadata, metadata_size, idx); if (IS_ERR(cmpnt)) return PTR_ERR(cmpnt); return cmpnt->ver; } static int ipu6_cpd_metadata_get_cmpnt_id(struct ipu6_device *isp, const void *metadata, unsigned int metadata_size, u8 idx) { const struct ipu6_cpd_metadata_cmpnt_hdr *cmpnt; cmpnt = ipu6_cpd_metadata_get_cmpnt(isp, metadata, metadata_size, idx); if (IS_ERR(cmpnt)) return PTR_ERR(cmpnt); return cmpnt->id; } static int ipu6_cpd_parse_module_data(struct ipu6_device *isp, const void *module_data, unsigned int module_data_size, dma_addr_t dma_addr_module_data, u64 *pkg_dir, const void *metadata, unsigned int metadata_size) { const struct ipu6_cpd_module_data_hdr *module_data_hdr; const struct ipu6_cpd_hdr *dir_hdr; const struct ipu6_cpd_ent *dir_ent; unsigned int i; u8 len; if (!module_data) return -EINVAL; module_data_hdr = module_data; dir_hdr = module_data + module_data_hdr->hdr_len; len = dir_hdr->hdr_len; dir_ent = (const struct ipu6_cpd_ent *)(((u8 *)dir_hdr) + len); pkg_dir[0] = PKG_DIR_HDR_MARK; /* pkg_dir entry count = component count + pkg_dir header */ pkg_dir[1] = dir_hdr->ent_cnt + 1; for (i = 0; i < dir_hdr->ent_cnt; i++, dir_ent++) { u64 *p = &pkg_dir[PKG_DIR_ENT_LEN * (1 + i)]; int ver, id; *p++ = dma_addr_module_data + dir_ent->offset; id = ipu6_cpd_metadata_get_cmpnt_id(isp, metadata, metadata_size, i); if (id < 0 || id > MAX_COMPONENT_ID) { dev_err(&isp->pdev->dev, "Invalid CPD component id\n"); return -EINVAL; } ver = ipu6_cpd_metadata_cmpnt_version(isp, metadata, metadata_size, i); if (ver < 0 || ver > MAX_COMPONENT_VERSION) { dev_err(&isp->pdev->dev, "Invalid CPD component version\n"); return -EINVAL; } *p = FIELD_PREP(PKG_DIR_SIZE_MASK, dir_ent->len) | FIELD_PREP(PKG_DIR_TYPE_MASK, id) | FIELD_PREP(PKG_DIR_VERSION_MASK, ver); } return 0; } int ipu6_cpd_create_pkg_dir(struct ipu6_bus_device *adev, const void *src) { dma_addr_t dma_addr_src = sg_dma_address(adev->fw_sgt.sgl); const struct ipu6_cpd_ent *ent, *man_ent, *met_ent; struct ipu6_device *isp = adev->isp; unsigned int man_sz, met_sz; void *pkg_dir_pos; int ret; man_ent = ipu6_cpd_get_manifest(src); man_sz = man_ent->len; met_ent = ipu6_cpd_get_metadata(src); met_sz = met_ent->len; adev->pkg_dir_size = PKG_DIR_SIZE + man_sz + met_sz; adev->pkg_dir = ipu6_dma_alloc(adev, adev->pkg_dir_size, &adev->pkg_dir_dma_addr, GFP_KERNEL, 0); if (!adev->pkg_dir) return -ENOMEM; /* * pkg_dir entry/header: * qword | 63:56 | 55 | 54:48 | 47:32 | 31:24 | 23:0 * N Address/Offset/"_IUPKDR_" * N + 1 | rsvd | rsvd | type | ver | rsvd | size * * We can ignore other fields that size in N + 1 qword as they * are 0 anyway. Just setting size for now. */ ent = ipu6_cpd_get_moduledata(src); ret = ipu6_cpd_parse_module_data(isp, src + ent->offset, ent->len, dma_addr_src + ent->offset, adev->pkg_dir, src + met_ent->offset, met_ent->len); if (ret) { dev_err(&isp->pdev->dev, "Failed to parse module data\n"); ipu6_dma_free(adev, adev->pkg_dir_size, adev->pkg_dir, adev->pkg_dir_dma_addr, 0); return ret; } /* Copy manifest after pkg_dir */ pkg_dir_pos = adev->pkg_dir + PKG_DIR_ENT_LEN * MAX_PKG_DIR_ENT_CNT; memcpy(pkg_dir_pos, src + man_ent->offset, man_sz); /* Copy metadata after manifest */ pkg_dir_pos += man_sz; memcpy(pkg_dir_pos, src + met_ent->offset, met_sz); ipu6_dma_sync_single(adev, adev->pkg_dir_dma_addr, adev->pkg_dir_size); return 0; } EXPORT_SYMBOL_NS_GPL(ipu6_cpd_create_pkg_dir, "INTEL_IPU6"); void ipu6_cpd_free_pkg_dir(struct ipu6_bus_device *adev) { ipu6_dma_free(adev, adev->pkg_dir_size, adev->pkg_dir, adev->pkg_dir_dma_addr, 0); } EXPORT_SYMBOL_NS_GPL(ipu6_cpd_free_pkg_dir, "INTEL_IPU6"); static int ipu6_cpd_validate_cpd(struct ipu6_device *isp, const void *cpd, unsigned long cpd_size, unsigned long data_size) { const struct ipu6_cpd_hdr *cpd_hdr = cpd; const struct ipu6_cpd_ent *ent; unsigned int i; u8 len; len = cpd_hdr->hdr_len; /* Ensure cpd hdr is within moduledata */ if (cpd_size < len) { dev_err(&isp->pdev->dev, "Invalid CPD moduledata size\n"); return -EINVAL; } /* Sanity check for CPD header */ if ((cpd_size - len) / sizeof(*ent) < cpd_hdr->ent_cnt) { dev_err(&isp->pdev->dev, "Invalid CPD header\n"); return -EINVAL; } /* Ensure that all entries are within moduledata */ ent = (const struct ipu6_cpd_ent *)(((const u8 *)cpd_hdr) + len); for (i = 0; i < cpd_hdr->ent_cnt; i++, ent++) { if (data_size < ent->offset || data_size - ent->offset < ent->len) { dev_err(&isp->pdev->dev, "Invalid CPD entry (%d)\n", i); return -EINVAL; } } return 0; } static int ipu6_cpd_validate_moduledata(struct ipu6_device *isp, const void *moduledata, u32 moduledata_size) { const struct ipu6_cpd_module_data_hdr *mod_hdr = moduledata; int ret; /* Ensure moduledata hdr is within moduledata */ if (moduledata_size < sizeof(*mod_hdr) || moduledata_size < mod_hdr->hdr_len) { dev_err(&isp->pdev->dev, "Invalid CPD moduledata size\n"); return -EINVAL; } dev_info(&isp->pdev->dev, "FW version: %x\n", mod_hdr->fw_pkg_date); ret = ipu6_cpd_validate_cpd(isp, moduledata + mod_hdr->hdr_len, moduledata_size - mod_hdr->hdr_len, moduledata_size); if (ret) { dev_err(&isp->pdev->dev, "Invalid CPD in moduledata\n"); return ret; } return 0; } static int ipu6_cpd_validate_metadata(struct ipu6_device *isp, const void *metadata, u32 meta_size) { const struct ipu6_cpd_metadata_extn *extn = metadata; /* Sanity check for metadata size */ if (meta_size < sizeof(*extn) || meta_size > MAX_METADATA_SIZE) { dev_err(&isp->pdev->dev, "Invalid CPD metadata\n"); return -EINVAL; } /* Validate extension and image types */ if (extn->extn_type != IPU6_CPD_METADATA_EXTN_TYPE_IUNIT || extn->img_type != IPU6_CPD_METADATA_IMAGE_TYPE_MAIN_FIRMWARE) { dev_err(&isp->pdev->dev, "Invalid CPD metadata descriptor img_type (%d)\n", extn->img_type); return -EINVAL; } /* Validate metadata size multiple of metadata components */ if ((meta_size - sizeof(*extn)) % isp->cpd_metadata_cmpnt_size) { dev_err(&isp->pdev->dev, "Invalid CPD metadata size\n"); return -EINVAL; } return 0; } int ipu6_cpd_validate_cpd_file(struct ipu6_device *isp, const void *cpd_file, unsigned long cpd_file_size) { const struct ipu6_cpd_hdr *hdr = cpd_file; const struct ipu6_cpd_ent *ent; int ret; ret = ipu6_cpd_validate_cpd(isp, cpd_file, cpd_file_size, cpd_file_size); if (ret) { dev_err(&isp->pdev->dev, "Invalid CPD in file\n"); return ret; } /* Check for CPD file marker */ if (hdr->hdr_mark != CPD_HDR_MARK) { dev_err(&isp->pdev->dev, "Invalid CPD header\n"); return -EINVAL; } /* Sanity check for manifest size */ ent = ipu6_cpd_get_manifest(cpd_file); if (ent->len > MAX_MANIFEST_SIZE) { dev_err(&isp->pdev->dev, "Invalid CPD manifest size\n"); return -EINVAL; } /* Validate metadata */ ent = ipu6_cpd_get_metadata(cpd_file); ret = ipu6_cpd_validate_metadata(isp, cpd_file + ent->offset, ent->len); if (ret) { dev_err(&isp->pdev->dev, "Invalid CPD metadata\n"); return ret; } /* Validate moduledata */ ent = ipu6_cpd_get_moduledata(cpd_file); ret = ipu6_cpd_validate_moduledata(isp, cpd_file + ent->offset, ent->len); if (ret) dev_err(&isp->pdev->dev, "Invalid CPD moduledata\n"); return ret; }