/* SPDX-License-Identifier: GPL-2.0-only */ #include #include #include #include #include #include "hwilib.h" #define MAX_BLOCK_NUM 4 #define LEN_HIB 0x1fd #define LEN_SIB 0x121 #define LEN_EIB 0x0b5 #define MIN_LEN_XIB 0x201 #define NEXT_OFFSET_HIB 0x1dc #define NEXT_OFFSET_SIB 0x104 #define NEXT_OFFSET_EIB 0x0b0 #define NEXT_OFFSET_XIB 0x014 #define LEN_UNIQUEL_NUM 0x010 #define LEN_HW_REV 0x002 #define LEN_MAC_ADDRESS 0x006 #define LEN_SPD 0x080 #define LEN_EDID 0x080 #define LEN_OFFSET 0x00c #define EIB_FEATRUE_OFFSET 0x00e #define LEN_MAGIC_NUM 0x007 #define BLOCK_MAGIC "H1W2M3I" #define HWI_MAX_NAME_LEN 32 /* Define all supported block types. */ enum { BLK_HIB, BLK_SIB, BLK_EIB, BLK_XIB }; /* This structure holds a valid position for a given field * Every field can have multiple positions of which the first available * will be taken by the library. */ struct param_pos { uint8_t blk_type; /* Valid for a specific block type */ uint32_t offset; /* Offset in given block */ uint32_t len; /* Length for the field in this block */ }; /* This structure holds all the needed information for a given field type * and a pointer to a function which is able to extract the desired data. */ struct param_info { struct param_pos pos[MAX_BLOCK_NUM]; uint64_t mask; uint8_t mask_offset; uint32_t (*get_field)(const struct param_info *param, uint8_t *dst, uint32_t maxlen); }; /* Storage for pointers to the different blocks. The contents will be filled * in hwilib_find_blocks(). */ static uint8_t *all_blocks[MAX_BLOCK_NUM]; /* As the length of extended block is variable, save all length to a global * variable so that they can be used later to check boundaries. */ static uint16_t all_blk_size[MAX_BLOCK_NUM]; /* Storage for the cbfs file name of the currently open hwi file. */ static char current_hwi[HWI_MAX_NAME_LEN]; static uint32_t hwilib_read_bytes (const struct param_info *param, uint8_t *dst, uint32_t maxlen); /* Add all supported fields to this variable. It is important to use the * field type of a given field as the array index so that all the information * is on the appropriate place inside the array. In this way one do not need * to search for fields but can simply use an index into the array. */ static const struct param_info params[] = { [HIB_VerID] = { .pos[0] = {.blk_type = BLK_HIB, .offset = 0x8, .len = 4}, .get_field = hwilib_read_bytes }, [SIB_VerID] = { .pos[0] = {.blk_type = BLK_SIB, .offset = 0x8, .len = 4}, .get_field = hwilib_read_bytes }, [EIB_VerID] = { .pos[0] = {.blk_type = BLK_EIB, .offset = 0x8, .len = 4}, .get_field = hwilib_read_bytes }, [XIB_VerID] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x8, .len = 4}, .get_field = hwilib_read_bytes }, [HIB_HwRev] = { .pos[0] = {.blk_type = BLK_HIB, .offset = 0xbe, .len = 2}, .get_field = hwilib_read_bytes }, [SIB_HwRev] = { .pos[0] = {.blk_type = BLK_SIB, .offset = 0xc8, .len = 2}, .get_field = hwilib_read_bytes }, [HWID] = { .pos[0] = {.blk_type = BLK_HIB, .offset = 0x1a8, .len = 4}, .pos[1] = {.blk_type = BLK_SIB, .offset = 0xd0, .len = 4}, .get_field = hwilib_read_bytes }, [UniqueNum] = { .pos[0] = {.blk_type = BLK_HIB, .offset = 0xa2, .len = 10}, .pos[1] = {.blk_type = BLK_SIB, .offset = 0xa2, .len = 10}, .get_field = hwilib_read_bytes }, [Mac1] = { .pos[0] = {.blk_type = BLK_HIB, .offset = 0xc0, .len = 6}, .get_field = hwilib_read_bytes }, [Mac1Aux] = { .pos[0] = {.blk_type = BLK_HIB, .offset = 0xc6, .len = 1}, .get_field = hwilib_read_bytes }, [Mac2] = { .pos[0] = {.blk_type = BLK_HIB, .offset = 0xc8, .len = 6}, .get_field = hwilib_read_bytes }, [Mac2Aux] = { .pos[0] = {.blk_type = BLK_HIB, .offset = 0xce, .len = 1}, .get_field = hwilib_read_bytes }, [Mac3] = { .pos[0] = {.blk_type = BLK_HIB, .offset = 0xd0, .len = 6}, .get_field = hwilib_read_bytes }, [Mac3Aux] = { .pos[0] = {.blk_type = BLK_HIB, .offset = 0xd6, .len = 1}, .get_field = hwilib_read_bytes }, [Mac4] = { .pos[0] = {.blk_type = BLK_HIB, .offset = 0xd8, .len = 6}, .get_field = hwilib_read_bytes }, [Mac4Aux] = { .pos[0] = {.blk_type = BLK_HIB, .offset = 0xde, .len = 1}, .get_field = hwilib_read_bytes }, [SPD] = { .pos[0] = {.blk_type = BLK_HIB, .offset = 0xe0, .len = 0x80}, .get_field = hwilib_read_bytes }, [FF_FreezeDis] = { .pos[0] = {.blk_type = BLK_HIB, .offset = 0x1b8, .len = 1}, .mask = 0x10, .mask_offset = 4, .get_field = hwilib_read_bytes }, [FF_FanReq] = { .pos[0] = {.blk_type = BLK_HIB, .offset = 0x1b9, .len = 1}, .mask = 0x04, .mask_offset = 2, .get_field = hwilib_read_bytes }, [NvramVirtTimeDsaveReset] = { .pos[0] = {.blk_type = BLK_HIB, .offset = 0x1be, .len = 2}, .get_field = hwilib_read_bytes }, [BiosFlags] = { .pos[0] = {.blk_type = BLK_HIB, .offset = 0x1c0, .len = 4}, .get_field = hwilib_read_bytes }, [MacMapping1] = { .pos[0] = {.blk_type = BLK_HIB, .offset = 0x1cc, .len = 4}, .get_field = hwilib_read_bytes }, [MacMapping2] = { .pos[0] = {.blk_type = BLK_HIB, .offset = 0x1d0, .len = 4}, .get_field = hwilib_read_bytes }, [MacMapping3] = { .pos[0] = {.blk_type = BLK_HIB, .offset = 0x1d4, .len = 4}, .get_field = hwilib_read_bytes }, [MacMapping4] = { .pos[0] = {.blk_type = BLK_HIB, .offset = 0x1d8, .len = 4}, .get_field = hwilib_read_bytes }, [RTCType] = { .pos[0] = {.blk_type = BLK_HIB, .offset = 0x1e8, .len = 1}, .get_field = hwilib_read_bytes }, [BL_Brightness] = { .pos[0] = {.blk_type = BLK_SIB, .offset = 0xd8, .len = 1}, .get_field = hwilib_read_bytes }, [PF_PwmFreq] = { .pos[0] = {.blk_type = BLK_SIB, .offset = 0xe7, .len = 1}, .get_field = hwilib_read_bytes }, [PF_Color_Depth] = { .pos[0] = {.blk_type = BLK_SIB, .offset = 0xea, .len = 1}, .mask = 0x03, .mask_offset = 0, .get_field = hwilib_read_bytes }, [PF_DisplType] = { .pos[0] = {.blk_type = BLK_SIB, .offset = 0xe3, .len = 1}, .get_field = hwilib_read_bytes }, [PF_DisplCon] = { .pos[0] = {.blk_type = BLK_SIB, .offset = 0xf2, .len = 1}, .get_field = hwilib_read_bytes }, [Edid] = { .pos[0] = {.blk_type = BLK_EIB, .offset = 0x10, .len = 0x80}, .get_field = hwilib_read_bytes }, [VddRef] = { .pos[0] = {.blk_type = BLK_EIB, .offset = 0x90, .len = 2}, .get_field = hwilib_read_bytes }, [XMac1] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0xfc, .len = 6}, .get_field = hwilib_read_bytes }, [XMac1Aux] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x102, .len = 1}, .get_field = hwilib_read_bytes }, [XMac2] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x114, .len = 6}, .get_field = hwilib_read_bytes }, [XMac2Aux] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x11a, .len = 1}, .get_field = hwilib_read_bytes }, [XMac3] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x12c, .len = 6}, .get_field = hwilib_read_bytes }, [XMac3Aux] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x132, .len = 1}, .get_field = hwilib_read_bytes }, [XMac4] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x144, .len = 6}, .get_field = hwilib_read_bytes }, [XMac4Aux] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x14a, .len = 1}, .get_field = hwilib_read_bytes }, [XMac5] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x15c, .len = 6}, .get_field = hwilib_read_bytes }, [XMac5Aux] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x162, .len = 1}, .get_field = hwilib_read_bytes }, [XMac6] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x174, .len = 6}, .get_field = hwilib_read_bytes }, [XMac6Aux] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x17a, .len = 1}, .get_field = hwilib_read_bytes }, [XMac7] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x18c, .len = 6}, .get_field = hwilib_read_bytes }, [XMac7Aux] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x192, .len = 1}, .get_field = hwilib_read_bytes }, [XMac8] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x1a4, .len = 6}, .get_field = hwilib_read_bytes }, [XMac8Aux] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x1aa, .len = 1}, .get_field = hwilib_read_bytes }, [XMac9] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x1bc, .len = 6}, .get_field = hwilib_read_bytes }, [XMac9Aux] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x1c2, .len = 1}, .get_field = hwilib_read_bytes }, [XMac10] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x1d4, .len = 6}, .get_field = hwilib_read_bytes }, [XMac10Aux] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x1da, .len = 1}, .get_field = hwilib_read_bytes }, [XMac1Mapping] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0xec, .len = 16}, .get_field = hwilib_read_bytes }, [XMac2Mapping] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x104, .len = 16}, .get_field = hwilib_read_bytes }, [XMac3Mapping] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x11c, .len = 16}, .get_field = hwilib_read_bytes }, [XMac4Mapping] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x134, .len = 16}, .get_field = hwilib_read_bytes }, [XMac5Mapping] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x14c, .len = 16}, .get_field = hwilib_read_bytes }, [XMac6Mapping] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x164, .len = 16}, .get_field = hwilib_read_bytes }, [XMac7Mapping] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x17c, .len = 16}, .get_field = hwilib_read_bytes }, [XMac8Mapping] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x194, .len = 16}, .get_field = hwilib_read_bytes }, [XMac9Mapping] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x1ac, .len = 16}, .get_field = hwilib_read_bytes }, [XMac10Mapping] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x1c4, .len = 16}, .get_field = hwilib_read_bytes }, [netKind1] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x103, .len = 1}, .get_field = hwilib_read_bytes }, [netKind2] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x11b, .len = 1}, .get_field = hwilib_read_bytes }, [netKind3] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x133, .len = 1}, .get_field = hwilib_read_bytes }, [netKind4] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x14b, .len = 1}, .get_field = hwilib_read_bytes }, [netKind5] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x163, .len = 1}, .get_field = hwilib_read_bytes }, [netKind6] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x17b, .len = 1}, .get_field = hwilib_read_bytes }, [netKind7] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x193, .len = 1}, .get_field = hwilib_read_bytes }, [netKind8] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x1ab, .len = 1}, .get_field = hwilib_read_bytes }, [netKind9] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x1c3, .len = 1}, .get_field = hwilib_read_bytes }, [netKind10] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x1db, .len = 1}, .get_field = hwilib_read_bytes }, [T_Warn] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x18, .len = 4}, .get_field = hwilib_read_bytes }, [T_Crit] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x1c, .len = 4}, .get_field = hwilib_read_bytes }, [FANSamplingTime] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x20, .len = 4}, .get_field = hwilib_read_bytes }, [FANSetPoint] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x24, .len = 4}, .get_field = hwilib_read_bytes }, [FANKp] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x28, .len = 4}, .get_field = hwilib_read_bytes }, [FANKi] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x2c, .len = 4}, .get_field = hwilib_read_bytes }, [FANKd] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x30, .len = 4}, .get_field = hwilib_read_bytes }, [FANHystVal] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x34, .len = 4}, .get_field = hwilib_read_bytes }, [FANHystThreshold] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x38, .len = 4}, .get_field = hwilib_read_bytes }, [FANHystCtrl] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x3c, .len = 4}, .get_field = hwilib_read_bytes }, [FANMaxSpeed] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x40, .len = 2}, .get_field = hwilib_read_bytes }, [FANStartSpeed] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x42, .len = 2}, .get_field = hwilib_read_bytes }, [FANSensorDelay] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x44, .len = 4}, .get_field = hwilib_read_bytes }, [FANSensorNum] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x48, .len = 1}, .get_field = hwilib_read_bytes }, [FANSensorSelect] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x49, .len = 1}, .get_field = hwilib_read_bytes }, [FANSensorCfg0] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x4c, .len = 20}, .get_field = hwilib_read_bytes }, [FANSensorCfg1] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x60, .len = 20}, .get_field = hwilib_read_bytes }, [FANSensorCfg2] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x74, .len = 20}, .get_field = hwilib_read_bytes }, [FANSensorCfg3] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x88, .len = 20}, .get_field = hwilib_read_bytes }, [FANSensorCfg4] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x9c, .len = 20}, .get_field = hwilib_read_bytes }, [FANSensorCfg5] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0xb0, .len = 20}, .get_field = hwilib_read_bytes }, [FANSensorCfg6] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0xc4, .len = 20}, .get_field = hwilib_read_bytes }, [FANSensorCfg7] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0xd8, .len = 20}, .get_field = hwilib_read_bytes }, [LegacyDelay] = { .pos[0] = {.blk_type = BLK_XIB, .offset = 0x20c, .len = 4}, .get_field = hwilib_read_bytes }, }; /** \brief This functions reads the given field from the first valid hwinfo * block * @param *param Parameter to read from hwinfo * @param *dst Pointer to memory where the data will be stored in * @return number of copied bytes on success, 0 on error */ static uint32_t hwilib_read_bytes (const struct param_info *param, uint8_t *dst, uint32_t maxlen) { uint8_t i = 0, *blk = NULL; if (!param || !dst) return 0; /* Take the first valid block to get the parameter from */ do { if ((param->pos[i].len) && (param->pos[i].offset) && (all_blocks[param->pos[i].blk_type])) { blk = all_blocks[param->pos[i].blk_type]; break; } i++; } while (i < MAX_BLOCK_NUM); /* Ensure there is a valid block available for this parameter and * the length of the parameter do not exceed maxlen or block len. */ if ((!blk) || (param->pos[i].len > maxlen) || (param->pos[i].len + param->pos[i].offset > all_blk_size[param->pos[i].blk_type])) return 0; /* We can now copy the wanted data. */ memcpy(dst, (blk + param->pos[i].offset), param->pos[i].len); /* If there is a mask given, apply it only for parameters with a * length of 1, 2, 4 or 8 bytes. */ if (param->mask) { switch (param->pos[i].len) { case 1: /* Apply a mask on a 8 bit value */ *dst &= (param->mask & 0xff); *dst >>= (param->mask_offset); break; case 2: /* Apply mask on a 16 bit value */ *((uint16_t *)(dst)) &= (param->mask & 0xffff); *((uint16_t *)(dst)) >>= (param->mask_offset); break; case 4: /* Apply mask on a 32 bit value */ *((uint32_t *)(dst)) &= (param->mask & 0xffffffff); *((uint32_t *)(dst)) >>= (param->mask_offset); break; case 8: /* Apply mask on a 64 bit value */ *((uint64_t *)(dst)) &= (param->mask); *((uint64_t *)(dst)) >>= (param->mask_offset); break; default: /* Warn if there is a mask for an invalid length. */ printk(BIOS_WARNING, "HWILIB: Invalid field length for given mask.\n"); break; } } return param->pos[i].len; } /** \brief This function finds all available block types in a given cbfs file. * @param *hwi_filename Name of the cbfs-file to use. * @return CB_SUCCESS when no error, otherwise error code */ enum cb_err hwilib_find_blocks (const char *hwi_filename) { uint8_t *ptr = NULL, *base = NULL; uint32_t next_offset = 1; size_t filesize = 0; /* Check for a valid parameter */ if (!hwi_filename) return CB_ERR_ARG; /* Check if this file is already open. If yes, just leave as there is nothing left to do here. */ if (!strncmp(current_hwi, hwi_filename, HWI_MAX_NAME_LEN)) { printk(BIOS_SPEW, "HWILIB: File \"%s\" already open.\n", hwi_filename); return CB_SUCCESS; } ptr = cbfs_map(hwi_filename, &filesize); if (!ptr) { printk(BIOS_ERR,"HWILIB: Missing file \"%s\" in cbfs.\n", hwi_filename); return CB_ERR; } /* Ensure the block has the right magic */ if (strncmp((char*)ptr, BLOCK_MAGIC, LEN_MAGIC_NUM)) { printk(BIOS_ERR, "HWILIB: Bad magic at start of block!\n"); return CB_ERR; } /* Reset all static pointers to blocks as they might have been set * in prior calls to this function. * This way the caller do not need to "close" already opened blocks. */ memset(all_blocks, 0, (MAX_BLOCK_NUM * sizeof (uint8_t *))); /* Check which blocks are available by examining the length field. */ base = ptr; /* Fill in sizes of all fixed length blocks. */ all_blk_size[BLK_HIB] = LEN_HIB; all_blk_size[BLK_SIB] = LEN_SIB; all_blk_size[BLK_EIB] = LEN_EIB; /* Length of BLK_XIB is variable and will be filled if block is found */ all_blk_size[BLK_XIB] = 0; while(!(strncmp((char *)ptr, BLOCK_MAGIC, LEN_MAGIC_NUM)) && next_offset) { uint16_t len = read16(ptr + LEN_OFFSET); /* Ensure file size boundaries for a given block. */ if ((ptr - base + len) > filesize) break; if (len == LEN_HIB) { all_blocks[BLK_HIB] = ptr; next_offset = read32(ptr + NEXT_OFFSET_HIB); if (next_offset) ptr = base + next_offset; } else if (len == LEN_SIB) { all_blocks[BLK_SIB] = ptr; next_offset = read32(ptr + NEXT_OFFSET_SIB); if (next_offset) ptr = base + next_offset; } else if (len == LEN_EIB) { /* Skip preliminary blocks */ if (!(read16(ptr + EIB_FEATRUE_OFFSET) & 0x01)) all_blocks[BLK_EIB] = ptr; next_offset = read32(ptr + NEXT_OFFSET_EIB); if (next_offset) ptr = base + next_offset; } else if (len >= MIN_LEN_XIB) { all_blocks[BLK_XIB] = ptr; next_offset = read32(ptr + NEXT_OFFSET_XIB); all_blk_size[BLK_XIB] = len; if (next_offset) ptr = base + next_offset; } else { next_offset = 0; } } /* We should have found at least one valid block */ if (all_blocks[BLK_HIB] || all_blocks[BLK_SIB] || all_blocks[BLK_EIB] || all_blocks[BLK_XIB]) { /* Save currently opened hwi filename. */ strncpy(current_hwi, hwi_filename, HWI_MAX_NAME_LEN); return CB_SUCCESS; } else return CB_ERR; } /** \brief This functions is used from caller to get a specific field from * hwinfo block. * @param field Field type to read from hwinfo * @param *dst Pointer to memory where the data will be stored in * @return number of copied bytes on success, 0 on error */ uint32_t hwilib_get_field (hwinfo_field_t field, uint8_t *dst, uint32_t maxlen) { /* Check the boundaries of params-variable */ if ((uint32_t)field < ARRAY_SIZE(params)) return params[field].get_field(¶ms[field], dst, maxlen); else return 0; }