Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Ben Skeggs | 2380 | 100.00% | 2 | 100.00% |
Total | 2380 | 2 |
/* * Copyright 2019 Red Hat Inc. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * 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 COPYRIGHT HOLDER(S) OR AUTHOR(S) 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. */ #include "priv.h" #include <core/falcon.h> #include <core/firmware.h> #include <core/memory.h> #include <subdev/mc.h> #include <subdev/mmu.h> #include <subdev/pmu.h> #include <subdev/timer.h> #include <nvfw/acr.h> #include <nvfw/flcn.h> int gm200_acr_init(struct nvkm_acr *acr) { return nvkm_acr_hsf_boot(acr, "load"); } void gm200_acr_wpr_check(struct nvkm_acr *acr, u64 *start, u64 *limit) { struct nvkm_device *device = acr->subdev.device; nvkm_wr32(device, 0x100cd4, 2); *start = (u64)(nvkm_rd32(device, 0x100cd4) & 0xffffff00) << 8; nvkm_wr32(device, 0x100cd4, 3); *limit = (u64)(nvkm_rd32(device, 0x100cd4) & 0xffffff00) << 8; *limit = *limit + 0x20000; } void gm200_acr_wpr_patch(struct nvkm_acr *acr, s64 adjust) { struct nvkm_subdev *subdev = &acr->subdev; struct wpr_header hdr; struct lsb_header lsb; struct nvkm_acr_lsf *lsfw; u32 offset = 0; do { nvkm_robj(acr->wpr, offset, &hdr, sizeof(hdr)); wpr_header_dump(subdev, &hdr); list_for_each_entry(lsfw, &acr->lsfw, head) { if (lsfw->id != hdr.falcon_id) continue; nvkm_robj(acr->wpr, hdr.lsb_offset, &lsb, sizeof(lsb)); lsb_header_dump(subdev, &lsb); lsfw->func->bld_patch(acr, lsb.tail.bl_data_off, adjust); break; } offset += sizeof(hdr); } while (hdr.falcon_id != WPR_HEADER_V0_FALCON_ID_INVALID); } void gm200_acr_wpr_build_lsb_tail(struct nvkm_acr_lsfw *lsfw, struct lsb_header_tail *hdr) { hdr->ucode_off = lsfw->offset.img; hdr->ucode_size = lsfw->ucode_size; hdr->data_size = lsfw->data_size; hdr->bl_code_size = lsfw->bootloader_size; hdr->bl_imem_off = lsfw->bootloader_imem_offset; hdr->bl_data_off = lsfw->offset.bld; hdr->bl_data_size = lsfw->bl_data_size; hdr->app_code_off = lsfw->app_start_offset + lsfw->app_resident_code_offset; hdr->app_code_size = lsfw->app_resident_code_size; hdr->app_data_off = lsfw->app_start_offset + lsfw->app_resident_data_offset; hdr->app_data_size = lsfw->app_resident_data_size; hdr->flags = lsfw->func->flags; } static int gm200_acr_wpr_build_lsb(struct nvkm_acr *acr, struct nvkm_acr_lsfw *lsfw) { struct lsb_header hdr; if (WARN_ON(lsfw->sig->size != sizeof(hdr.signature))) return -EINVAL; memcpy(&hdr.signature, lsfw->sig->data, lsfw->sig->size); gm200_acr_wpr_build_lsb_tail(lsfw, &hdr.tail); nvkm_wobj(acr->wpr, lsfw->offset.lsb, &hdr, sizeof(hdr)); return 0; } int gm200_acr_wpr_build(struct nvkm_acr *acr, struct nvkm_acr_lsf *rtos) { struct nvkm_acr_lsfw *lsfw; u32 offset = 0; int ret; /* Fill per-LSF structures. */ list_for_each_entry(lsfw, &acr->lsfw, head) { struct wpr_header hdr = { .falcon_id = lsfw->id, .lsb_offset = lsfw->offset.lsb, .bootstrap_owner = NVKM_ACR_LSF_PMU, .lazy_bootstrap = rtos && lsfw->id != rtos->id, .status = WPR_HEADER_V0_STATUS_COPY, }; /* Write WPR header. */ nvkm_wobj(acr->wpr, offset, &hdr, sizeof(hdr)); offset += sizeof(hdr); /* Write LSB header. */ ret = gm200_acr_wpr_build_lsb(acr, lsfw); if (ret) return ret; /* Write ucode image. */ nvkm_wobj(acr->wpr, lsfw->offset.img, lsfw->img.data, lsfw->img.size); /* Write bootloader data. */ lsfw->func->bld_write(acr, lsfw->offset.bld, lsfw); } /* Finalise WPR. */ nvkm_wo32(acr->wpr, offset, WPR_HEADER_V0_FALCON_ID_INVALID); return 0; } static int gm200_acr_wpr_alloc(struct nvkm_acr *acr, u32 wpr_size) { int ret = nvkm_memory_new(acr->subdev.device, NVKM_MEM_TARGET_INST, ALIGN(wpr_size, 0x40000), 0x40000, true, &acr->wpr); if (ret) return ret; acr->wpr_start = nvkm_memory_addr(acr->wpr); acr->wpr_end = acr->wpr_start + nvkm_memory_size(acr->wpr); return 0; } u32 gm200_acr_wpr_layout(struct nvkm_acr *acr) { struct nvkm_acr_lsfw *lsfw; u32 wpr = 0; wpr += 11 /* MAX_LSF */ * sizeof(struct wpr_header); list_for_each_entry(lsfw, &acr->lsfw, head) { wpr = ALIGN(wpr, 256); lsfw->offset.lsb = wpr; wpr += sizeof(struct lsb_header); wpr = ALIGN(wpr, 4096); lsfw->offset.img = wpr; wpr += lsfw->img.size; wpr = ALIGN(wpr, 256); lsfw->offset.bld = wpr; lsfw->bl_data_size = ALIGN(lsfw->func->bld_size, 256); wpr += lsfw->bl_data_size; } return wpr; } int gm200_acr_wpr_parse(struct nvkm_acr *acr) { const struct wpr_header *hdr = (void *)acr->wpr_fw->data; while (hdr->falcon_id != WPR_HEADER_V0_FALCON_ID_INVALID) { wpr_header_dump(&acr->subdev, hdr); if (!nvkm_acr_lsfw_add(NULL, acr, NULL, (hdr++)->falcon_id)) return -ENOMEM; } return 0; } void gm200_acr_hsfw_bld(struct nvkm_acr *acr, struct nvkm_acr_hsf *hsf) { struct flcn_bl_dmem_desc_v1 hsdesc = { .ctx_dma = FALCON_DMAIDX_VIRT, .code_dma_base = hsf->vma->addr, .non_sec_code_off = hsf->non_sec_addr, .non_sec_code_size = hsf->non_sec_size, .sec_code_off = hsf->sec_addr, .sec_code_size = hsf->sec_size, .code_entry_point = 0, .data_dma_base = hsf->vma->addr + hsf->data_addr, .data_size = hsf->data_size, }; flcn_bl_dmem_desc_v1_dump(&acr->subdev, &hsdesc); nvkm_falcon_load_dmem(hsf->falcon, &hsdesc, 0, sizeof(hsdesc), 0); } int gm200_acr_hsfw_boot(struct nvkm_acr *acr, struct nvkm_acr_hsf *hsf, u32 intr_clear, u32 mbox0_ok) { struct nvkm_subdev *subdev = &acr->subdev; struct nvkm_device *device = subdev->device; struct nvkm_falcon *falcon = hsf->falcon; u32 mbox0, mbox1; int ret; /* Reset falcon. */ nvkm_falcon_reset(falcon); nvkm_falcon_bind_context(falcon, acr->inst); /* Load bootloader into IMEM. */ nvkm_falcon_load_imem(falcon, hsf->imem, falcon->code.limit - hsf->imem_size, hsf->imem_size, hsf->imem_tag, 0, false); /* Load bootloader data into DMEM. */ hsf->func->bld(acr, hsf); /* Boot the falcon. */ nvkm_mc_intr_mask(device, falcon->owner->index, false); nvkm_falcon_wr32(falcon, 0x040, 0xdeada5a5); nvkm_falcon_set_start_addr(falcon, hsf->imem_tag << 8); nvkm_falcon_start(falcon); ret = nvkm_falcon_wait_for_halt(falcon, 100); if (ret) return ret; /* Check for successful completion. */ mbox0 = nvkm_falcon_rd32(falcon, 0x040); mbox1 = nvkm_falcon_rd32(falcon, 0x044); nvkm_debug(subdev, "mailbox %08x %08x\n", mbox0, mbox1); if (mbox0 && mbox0 != mbox0_ok) return -EIO; nvkm_falcon_clear_interrupt(falcon, intr_clear); nvkm_mc_intr_mask(device, falcon->owner->index, true); return ret; } int gm200_acr_hsfw_load(struct nvkm_acr *acr, struct nvkm_acr_hsfw *hsfw, struct nvkm_falcon *falcon) { struct nvkm_subdev *subdev = &acr->subdev; struct nvkm_acr_hsf *hsf; int ret; /* Patch the appropriate signature (production/debug) into the FW * image, as determined by the mode the falcon is in. */ ret = nvkm_falcon_get(falcon, subdev); if (ret) return ret; if (hsfw->sig.patch_loc) { if (!falcon->debug) { nvkm_debug(subdev, "patching production signature\n"); memcpy(hsfw->image + hsfw->sig.patch_loc, hsfw->sig.prod.data, hsfw->sig.prod.size); } else { nvkm_debug(subdev, "patching debug signature\n"); memcpy(hsfw->image + hsfw->sig.patch_loc, hsfw->sig.dbg.data, hsfw->sig.dbg.size); } } nvkm_falcon_put(falcon, subdev); if (!(hsf = kzalloc(sizeof(*hsf), GFP_KERNEL))) return -ENOMEM; hsf->func = hsfw->func; hsf->name = hsfw->name; list_add_tail(&hsf->head, &acr->hsf); hsf->imem_size = hsfw->imem_size; hsf->imem_tag = hsfw->imem_tag; hsf->imem = kmemdup(hsfw->imem, hsfw->imem_size, GFP_KERNEL); if (!hsf->imem) return -ENOMEM; hsf->non_sec_addr = hsfw->non_sec_addr; hsf->non_sec_size = hsfw->non_sec_size; hsf->sec_addr = hsfw->sec_addr; hsf->sec_size = hsfw->sec_size; hsf->data_addr = hsfw->data_addr; hsf->data_size = hsfw->data_size; /* Make the FW image accessible to the HS bootloader. */ ret = nvkm_memory_new(subdev->device, NVKM_MEM_TARGET_INST, hsfw->image_size, 0x1000, false, &hsf->ucode); if (ret) return ret; nvkm_kmap(hsf->ucode); nvkm_wobj(hsf->ucode, 0, hsfw->image, hsfw->image_size); nvkm_done(hsf->ucode); ret = nvkm_vmm_get(acr->vmm, 12, nvkm_memory_size(hsf->ucode), &hsf->vma); if (ret) return ret; ret = nvkm_memory_map(hsf->ucode, 0, acr->vmm, hsf->vma, NULL, 0); if (ret) return ret; hsf->falcon = falcon; return 0; } int gm200_acr_unload_boot(struct nvkm_acr *acr, struct nvkm_acr_hsf *hsf) { return gm200_acr_hsfw_boot(acr, hsf, 0, 0x1d); } int gm200_acr_unload_load(struct nvkm_acr *acr, struct nvkm_acr_hsfw *hsfw) { return gm200_acr_hsfw_load(acr, hsfw, &acr->subdev.device->pmu->falcon); } const struct nvkm_acr_hsf_func gm200_acr_unload_0 = { .load = gm200_acr_unload_load, .boot = gm200_acr_unload_boot, .bld = gm200_acr_hsfw_bld, }; MODULE_FIRMWARE("nvidia/gm200/acr/ucode_unload.bin"); MODULE_FIRMWARE("nvidia/gm204/acr/ucode_unload.bin"); MODULE_FIRMWARE("nvidia/gm206/acr/ucode_unload.bin"); MODULE_FIRMWARE("nvidia/gp100/acr/ucode_unload.bin"); static const struct nvkm_acr_hsf_fwif gm200_acr_unload_fwif[] = { { 0, nvkm_acr_hsfw_load, &gm200_acr_unload_0 }, {} }; int gm200_acr_load_boot(struct nvkm_acr *acr, struct nvkm_acr_hsf *hsf) { return gm200_acr_hsfw_boot(acr, hsf, 0x10, 0); } static int gm200_acr_load_load(struct nvkm_acr *acr, struct nvkm_acr_hsfw *hsfw) { struct flcn_acr_desc *desc = (void *)&hsfw->image[hsfw->data_addr]; desc->wpr_region_id = 1; desc->regions.no_regions = 2; desc->regions.region_props[0].start_addr = acr->wpr_start >> 8; desc->regions.region_props[0].end_addr = acr->wpr_end >> 8; desc->regions.region_props[0].region_id = 1; desc->regions.region_props[0].read_mask = 0xf; desc->regions.region_props[0].write_mask = 0xc; desc->regions.region_props[0].client_mask = 0x2; flcn_acr_desc_dump(&acr->subdev, desc); return gm200_acr_hsfw_load(acr, hsfw, &acr->subdev.device->pmu->falcon); } static const struct nvkm_acr_hsf_func gm200_acr_load_0 = { .load = gm200_acr_load_load, .boot = gm200_acr_load_boot, .bld = gm200_acr_hsfw_bld, }; MODULE_FIRMWARE("nvidia/gm200/acr/bl.bin"); MODULE_FIRMWARE("nvidia/gm200/acr/ucode_load.bin"); MODULE_FIRMWARE("nvidia/gm204/acr/bl.bin"); MODULE_FIRMWARE("nvidia/gm204/acr/ucode_load.bin"); MODULE_FIRMWARE("nvidia/gm206/acr/bl.bin"); MODULE_FIRMWARE("nvidia/gm206/acr/ucode_load.bin"); MODULE_FIRMWARE("nvidia/gp100/acr/bl.bin"); MODULE_FIRMWARE("nvidia/gp100/acr/ucode_load.bin"); static const struct nvkm_acr_hsf_fwif gm200_acr_load_fwif[] = { { 0, nvkm_acr_hsfw_load, &gm200_acr_load_0 }, {} }; static const struct nvkm_acr_func gm200_acr = { .load = gm200_acr_load_fwif, .unload = gm200_acr_unload_fwif, .wpr_parse = gm200_acr_wpr_parse, .wpr_layout = gm200_acr_wpr_layout, .wpr_alloc = gm200_acr_wpr_alloc, .wpr_build = gm200_acr_wpr_build, .wpr_patch = gm200_acr_wpr_patch, .wpr_check = gm200_acr_wpr_check, .init = gm200_acr_init, }; static int gm200_acr_load(struct nvkm_acr *acr, int ver, const struct nvkm_acr_fwif *fwif) { struct nvkm_subdev *subdev = &acr->subdev; const struct nvkm_acr_hsf_fwif *hsfwif; hsfwif = nvkm_firmware_load(subdev, fwif->func->load, "AcrLoad", acr, "acr/bl", "acr/ucode_load", "load"); if (IS_ERR(hsfwif)) return PTR_ERR(hsfwif); hsfwif = nvkm_firmware_load(subdev, fwif->func->unload, "AcrUnload", acr, "acr/bl", "acr/ucode_unload", "unload"); if (IS_ERR(hsfwif)) return PTR_ERR(hsfwif); return 0; } static const struct nvkm_acr_fwif gm200_acr_fwif[] = { { 0, gm200_acr_load, &gm200_acr }, {} }; int gm200_acr_new(struct nvkm_device *device, int index, struct nvkm_acr **pacr) { return nvkm_acr_new_(gm200_acr_fwif, device, index, pacr); }
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