/* * Copyright (C) 2015-2017 Netronome Systems, Inc. * * This software is dual licensed under the GNU General License Version 2, * June 1991 as shown in the file COPYING in the top-level directory of this * source tree or the BSD 2-Clause License provided below. You have the * option to license this software under the complete terms of either license. * * The BSD 2-Clause License: * * Redistribution and use in source and binary forms, with or * without modification, are permitted provided that the following * conditions are met: * * 1. Redistributions of source code must retain the above * copyright notice, this list of conditions and the following * disclaimer. * * 2. Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following * disclaimer in the documentation and/or other materials * provided with the distribution. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ /* * nfp_nffw.c * Authors: Jakub Kicinski * Jason McMullan * Francois H. Theron */ #include #include #include "nfp.h" #include "nfp_cpp.h" #include "nfp_nffw.h" #include "nfp6000/nfp6000.h" /* Init-CSR owner IDs for firmware map to firmware IDs which start at 4. * Lower IDs are reserved for target and loader IDs. */ #define NFFW_FWID_EXT 3 /* For active MEs that we didn't load. */ #define NFFW_FWID_BASE 4 #define NFFW_FWID_ALL 255 /** * NFFW_INFO_VERSION history: * 0: This was never actually used (before versioning), but it refers to * the previous struct which had FWINFO_CNT = MEINFO_CNT = 120 that later * changed to 200. * 1: First versioned struct, with * FWINFO_CNT = 120 * MEINFO_CNT = 120 * 2: FWINFO_CNT = 200 * MEINFO_CNT = 200 */ #define NFFW_INFO_VERSION_CURRENT 2 /* Enough for all current chip families */ #define NFFW_MEINFO_CNT_V1 120 #define NFFW_FWINFO_CNT_V1 120 #define NFFW_MEINFO_CNT_V2 200 #define NFFW_FWINFO_CNT_V2 200 /* Work in 32-bit words to make cross-platform endianness easier to handle */ /** nfp.nffw meinfo **/ struct nffw_meinfo { __le32 ctxmask__fwid__meid; }; struct nffw_fwinfo { __le32 loaded__mu_da__mip_off_hi; __le32 mip_cppid; /* 0 means no MIP */ __le32 mip_offset_lo; }; struct nfp_nffw_info_v1 { struct nffw_meinfo meinfo[NFFW_MEINFO_CNT_V1]; struct nffw_fwinfo fwinfo[NFFW_FWINFO_CNT_V1]; }; struct nfp_nffw_info_v2 { struct nffw_meinfo meinfo[NFFW_MEINFO_CNT_V2]; struct nffw_fwinfo fwinfo[NFFW_FWINFO_CNT_V2]; }; /** Resource: nfp.nffw main **/ struct nfp_nffw_info_data { __le32 flags[2]; union { struct nfp_nffw_info_v1 v1; struct nfp_nffw_info_v2 v2; } info; }; struct nfp_nffw_info { struct nfp_cpp *cpp; struct nfp_resource *res; struct nfp_nffw_info_data fwinf; }; /* flg_info_version = flags[0]<27:16> * This is a small version counter intended only to detect if the current * implementation can read the current struct. Struct changes should be very * rare and as such a 12-bit counter should cover large spans of time. By the * time it wraps around, we don't expect to have 4096 versions of this struct * to be in use at the same time. */ static u32 nffw_res_info_version_get(const struct nfp_nffw_info_data *res) { return (le32_to_cpu(res->flags[0]) >> 16) & 0xfff; } /* flg_init = flags[0]<0> */ static u32 nffw_res_flg_init_get(const struct nfp_nffw_info_data *res) { return (le32_to_cpu(res->flags[0]) >> 0) & 1; } /* loaded = loaded__mu_da__mip_off_hi<31:31> */ static u32 nffw_fwinfo_loaded_get(const struct nffw_fwinfo *fi) { return (le32_to_cpu(fi->loaded__mu_da__mip_off_hi) >> 31) & 1; } /* mip_cppid = mip_cppid */ static u32 nffw_fwinfo_mip_cppid_get(const struct nffw_fwinfo *fi) { return le32_to_cpu(fi->mip_cppid); } /* loaded = loaded__mu_da__mip_off_hi<8:8> */ static u32 nffw_fwinfo_mip_mu_da_get(const struct nffw_fwinfo *fi) { return (le32_to_cpu(fi->loaded__mu_da__mip_off_hi) >> 8) & 1; } /* mip_offset = (loaded__mu_da__mip_off_hi<7:0> << 8) | mip_offset_lo */ static u64 nffw_fwinfo_mip_offset_get(const struct nffw_fwinfo *fi) { u64 mip_off_hi = le32_to_cpu(fi->loaded__mu_da__mip_off_hi); return (mip_off_hi & 0xFF) << 32 | le32_to_cpu(fi->mip_offset_lo); } #define NFP_IMB_TGTADDRESSMODECFG_MODE_of(_x) (((_x) >> 13) & 0x7) #define NFP_IMB_TGTADDRESSMODECFG_ADDRMODE BIT(12) #define NFP_IMB_TGTADDRESSMODECFG_ADDRMODE_32_BIT 0 #define NFP_IMB_TGTADDRESSMODECFG_ADDRMODE_40_BIT BIT(12) static int nfp_mip_mu_locality_lsb(struct nfp_cpp *cpp) { unsigned int mode, addr40; u32 xpbaddr, imbcppat; int err; /* Hardcoded XPB IMB Base, island 0 */ xpbaddr = 0x000a0000 + NFP_CPP_TARGET_MU * 4; err = nfp_xpb_readl(cpp, xpbaddr, &imbcppat); if (err < 0) return err; mode = NFP_IMB_TGTADDRESSMODECFG_MODE_of(imbcppat); addr40 = !!(imbcppat & NFP_IMB_TGTADDRESSMODECFG_ADDRMODE); return nfp_cppat_mu_locality_lsb(mode, addr40); } static unsigned int nffw_res_fwinfos(struct nfp_nffw_info_data *fwinf, struct nffw_fwinfo **arr) { /* For the this code, version 0 is most likely to be * version 1 in this case. Since the kernel driver * does not take responsibility for initialising the * nfp.nffw resource, any previous code (CA firmware or * userspace) that left the version 0 and did set * the init flag is going to be version 1. */ switch (nffw_res_info_version_get(fwinf)) { case 0: case 1: *arr = &fwinf->info.v1.fwinfo[0]; return NFFW_FWINFO_CNT_V1; case 2: *arr = &fwinf->info.v2.fwinfo[0]; return NFFW_FWINFO_CNT_V2; default: *arr = NULL; return 0; } } /** * nfp_nffw_info_open() - Acquire the lock on the NFFW table * @cpp: NFP CPP handle * * Return: 0, or -ERRNO */ struct nfp_nffw_info *nfp_nffw_info_open(struct nfp_cpp *cpp) { struct nfp_nffw_info_data *fwinf; struct nfp_nffw_info *state; u32 info_ver; int err; state = kzalloc(sizeof(*state), GFP_KERNEL); if (!state) return ERR_PTR(-ENOMEM); state->res = nfp_resource_acquire(cpp, NFP_RESOURCE_NFP_NFFW); if (IS_ERR(state->res)) goto err_free; fwinf = &state->fwinf; if (sizeof(*fwinf) > nfp_resource_size(state->res)) goto err_release; err = nfp_cpp_read(cpp, nfp_resource_cpp_id(state->res), nfp_resource_address(state->res), fwinf, sizeof(*fwinf)); if (err < sizeof(*fwinf)) goto err_release; if (!nffw_res_flg_init_get(fwinf)) goto err_release; info_ver = nffw_res_info_version_get(fwinf); if (info_ver > NFFW_INFO_VERSION_CURRENT) goto err_release; state->cpp = cpp; return state; err_release: nfp_resource_release(state->res); err_free: kfree(state); return ERR_PTR(-EIO); } /** * nfp_nffw_info_release() - Release the lock on the NFFW table * @state: NFP FW info state * * Return: 0, or -ERRNO */ void nfp_nffw_info_close(struct nfp_nffw_info *state) { nfp_resource_release(state->res); kfree(state); } /** * nfp_nffw_info_fwid_first() - Return the first firmware ID in the NFFW * @state: NFP FW info state * * Return: First NFFW firmware info, NULL on failure */ static struct nffw_fwinfo *nfp_nffw_info_fwid_first(struct nfp_nffw_info *state) { struct nffw_fwinfo *fwinfo; unsigned int cnt, i; cnt = nffw_res_fwinfos(&state->fwinf, &fwinfo); if (!cnt) return NULL; for (i = 0; i < cnt; i++) if (nffw_fwinfo_loaded_get(&fwinfo[i])) return &fwinfo[i]; return NULL; } /** * nfp_nffw_info_mip_first() - Retrieve the location of the first FW's MIP * @state: NFP FW info state * @cpp_id: Pointer to the CPP ID of the MIP * @off: Pointer to the CPP Address of the MIP * * Return: 0, or -ERRNO */ int nfp_nffw_info_mip_first(struct nfp_nffw_info *state, u32 *cpp_id, u64 *off) { struct nffw_fwinfo *fwinfo; fwinfo = nfp_nffw_info_fwid_first(state); if (!fwinfo) return -EINVAL; *cpp_id = nffw_fwinfo_mip_cppid_get(fwinfo); *off = nffw_fwinfo_mip_offset_get(fwinfo); if (nffw_fwinfo_mip_mu_da_get(fwinfo)) { int locality_off; if (NFP_CPP_ID_TARGET_of(*cpp_id) != NFP_CPP_TARGET_MU) return 0; locality_off = nfp_mip_mu_locality_lsb(state->cpp); if (locality_off < 0) return locality_off; *off &= ~(NFP_MU_ADDR_ACCESS_TYPE_MASK << locality_off); *off |= NFP_MU_ADDR_ACCESS_TYPE_DIRECT << locality_off; } return 0; }