Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Cezary Rojewski | 3221 | 99.97% | 3 | 75.00% |
Andy Shevchenko | 1 | 0.03% | 1 | 25.00% |
Total | 3222 | 4 |
// SPDX-License-Identifier: GPL-2.0-only // // Copyright(c) 2020 Intel Corporation. All rights reserved. // // Author: Cezary Rojewski <cezary.rojewski@intel.com> // #include <linux/dma-mapping.h> #include <linux/firmware.h> #include <linux/slab.h> #include "core.h" #include "registers.h" /* FW load (200ms) plus operational delays */ #define FW_READY_TIMEOUT_MS 250 #define FW_SIGNATURE "$SST" #define FW_SIGNATURE_SIZE 4 struct catpt_fw_hdr { char signature[FW_SIGNATURE_SIZE]; u32 file_size; u32 modules; u32 file_format; u32 reserved[4]; } __packed; struct catpt_fw_mod_hdr { char signature[FW_SIGNATURE_SIZE]; u32 mod_size; u32 blocks; u16 slot; u16 module_id; u32 entry_point; u32 persistent_size; u32 scratch_size; } __packed; enum catpt_ram_type { CATPT_RAM_TYPE_IRAM = 1, CATPT_RAM_TYPE_DRAM = 2, /* DRAM with module's initial state */ CATPT_RAM_TYPE_INSTANCE = 3, }; struct catpt_fw_block_hdr { u32 ram_type; u32 size; u32 ram_offset; u32 rsvd; } __packed; void catpt_sram_init(struct resource *sram, u32 start, u32 size) { sram->start = start; sram->end = start + size - 1; } void catpt_sram_free(struct resource *sram) { struct resource *res, *save; for (res = sram->child; res;) { save = res->sibling; release_resource(res); kfree(res); res = save; } } struct resource * catpt_request_region(struct resource *root, resource_size_t size) { struct resource *res = root->child; resource_size_t addr = root->start; for (;;) { if (res->start - addr >= size) break; addr = res->end + 1; res = res->sibling; if (!res) return NULL; } return __request_region(root, addr, size, NULL, 0); } int catpt_store_streams_context(struct catpt_dev *cdev, struct dma_chan *chan) { struct catpt_stream_runtime *stream; list_for_each_entry(stream, &cdev->stream_list, node) { u32 off, size; int ret; off = stream->persistent->start; size = resource_size(stream->persistent); dev_dbg(cdev->dev, "storing stream %d ctx: off 0x%08x size %d\n", stream->info.stream_hw_id, off, size); ret = catpt_dma_memcpy_fromdsp(cdev, chan, cdev->dxbuf_paddr + off, cdev->lpe_base + off, ALIGN(size, 4)); if (ret) { dev_err(cdev->dev, "memcpy fromdsp failed: %d\n", ret); return ret; } } return 0; } int catpt_store_module_states(struct catpt_dev *cdev, struct dma_chan *chan) { int i; for (i = 0; i < ARRAY_SIZE(cdev->modules); i++) { struct catpt_module_type *type; u32 off; int ret; type = &cdev->modules[i]; if (!type->loaded || !type->state_size) continue; off = type->state_offset; dev_dbg(cdev->dev, "storing mod %d state: off 0x%08x size %d\n", i, off, type->state_size); ret = catpt_dma_memcpy_fromdsp(cdev, chan, cdev->dxbuf_paddr + off, cdev->lpe_base + off, ALIGN(type->state_size, 4)); if (ret) { dev_err(cdev->dev, "memcpy fromdsp failed: %d\n", ret); return ret; } } return 0; } int catpt_store_memdumps(struct catpt_dev *cdev, struct dma_chan *chan) { int i; for (i = 0; i < cdev->dx_ctx.num_meminfo; i++) { struct catpt_save_meminfo *info; u32 off; int ret; info = &cdev->dx_ctx.meminfo[i]; if (info->source != CATPT_DX_TYPE_MEMORY_DUMP) continue; off = catpt_to_host_offset(info->offset); if (off < cdev->dram.start || off > cdev->dram.end) continue; dev_dbg(cdev->dev, "storing memdump: off 0x%08x size %d\n", off, info->size); ret = catpt_dma_memcpy_fromdsp(cdev, chan, cdev->dxbuf_paddr + off, cdev->lpe_base + off, ALIGN(info->size, 4)); if (ret) { dev_err(cdev->dev, "memcpy fromdsp failed: %d\n", ret); return ret; } } return 0; } static int catpt_restore_streams_context(struct catpt_dev *cdev, struct dma_chan *chan) { struct catpt_stream_runtime *stream; list_for_each_entry(stream, &cdev->stream_list, node) { u32 off, size; int ret; off = stream->persistent->start; size = resource_size(stream->persistent); dev_dbg(cdev->dev, "restoring stream %d ctx: off 0x%08x size %d\n", stream->info.stream_hw_id, off, size); ret = catpt_dma_memcpy_todsp(cdev, chan, cdev->lpe_base + off, cdev->dxbuf_paddr + off, ALIGN(size, 4)); if (ret) { dev_err(cdev->dev, "memcpy fromdsp failed: %d\n", ret); return ret; } } return 0; } static int catpt_restore_memdumps(struct catpt_dev *cdev, struct dma_chan *chan) { int i; for (i = 0; i < cdev->dx_ctx.num_meminfo; i++) { struct catpt_save_meminfo *info; u32 off; int ret; info = &cdev->dx_ctx.meminfo[i]; if (info->source != CATPT_DX_TYPE_MEMORY_DUMP) continue; off = catpt_to_host_offset(info->offset); if (off < cdev->dram.start || off > cdev->dram.end) continue; dev_dbg(cdev->dev, "restoring memdump: off 0x%08x size %d\n", off, info->size); ret = catpt_dma_memcpy_todsp(cdev, chan, cdev->lpe_base + off, cdev->dxbuf_paddr + off, ALIGN(info->size, 4)); if (ret) { dev_err(cdev->dev, "restore block failed: %d\n", ret); return ret; } } return 0; } static int catpt_restore_fwimage(struct catpt_dev *cdev, struct dma_chan *chan, dma_addr_t paddr, struct catpt_fw_block_hdr *blk) { struct resource r1, r2, common; int i; print_hex_dump_debug(__func__, DUMP_PREFIX_OFFSET, 8, 4, blk, sizeof(*blk), false); r1.start = cdev->dram.start + blk->ram_offset; r1.end = r1.start + blk->size - 1; /* advance to data area */ paddr += sizeof(*blk); for (i = 0; i < cdev->dx_ctx.num_meminfo; i++) { struct catpt_save_meminfo *info; u32 off; int ret; info = &cdev->dx_ctx.meminfo[i]; if (info->source != CATPT_DX_TYPE_FW_IMAGE) continue; off = catpt_to_host_offset(info->offset); if (off < cdev->dram.start || off > cdev->dram.end) continue; r2.start = off; r2.end = r2.start + info->size - 1; if (!resource_intersection(&r2, &r1, &common)) continue; /* calculate start offset of common data area */ off = common.start - r1.start; dev_dbg(cdev->dev, "restoring fwimage: %pr\n", &common); ret = catpt_dma_memcpy_todsp(cdev, chan, common.start, paddr + off, resource_size(&common)); if (ret) { dev_err(cdev->dev, "memcpy todsp failed: %d\n", ret); return ret; } } return 0; } static int catpt_load_block(struct catpt_dev *cdev, struct dma_chan *chan, dma_addr_t paddr, struct catpt_fw_block_hdr *blk, bool alloc) { struct resource *sram, *res; dma_addr_t dst_addr; int ret; print_hex_dump_debug(__func__, DUMP_PREFIX_OFFSET, 8, 4, blk, sizeof(*blk), false); switch (blk->ram_type) { case CATPT_RAM_TYPE_IRAM: sram = &cdev->iram; break; default: sram = &cdev->dram; break; } dst_addr = sram->start + blk->ram_offset; if (alloc) { res = __request_region(sram, dst_addr, blk->size, NULL, 0); if (!res) return -EBUSY; } /* advance to data area */ paddr += sizeof(*blk); ret = catpt_dma_memcpy_todsp(cdev, chan, dst_addr, paddr, blk->size); if (ret) { dev_err(cdev->dev, "memcpy error: %d\n", ret); __release_region(sram, dst_addr, blk->size); } return ret; } static int catpt_restore_basefw(struct catpt_dev *cdev, struct dma_chan *chan, dma_addr_t paddr, struct catpt_fw_mod_hdr *basefw) { u32 offset = sizeof(*basefw); int ret, i; print_hex_dump_debug(__func__, DUMP_PREFIX_OFFSET, 8, 4, basefw, sizeof(*basefw), false); /* restore basefw image */ for (i = 0; i < basefw->blocks; i++) { struct catpt_fw_block_hdr *blk; blk = (struct catpt_fw_block_hdr *)((u8 *)basefw + offset); switch (blk->ram_type) { case CATPT_RAM_TYPE_IRAM: ret = catpt_load_block(cdev, chan, paddr + offset, blk, false); break; default: ret = catpt_restore_fwimage(cdev, chan, paddr + offset, blk); break; } if (ret) { dev_err(cdev->dev, "restore block failed: %d\n", ret); return ret; } offset += sizeof(*blk) + blk->size; } /* then proceed with memory dumps */ ret = catpt_restore_memdumps(cdev, chan); if (ret) dev_err(cdev->dev, "restore memdumps failed: %d\n", ret); return ret; } static int catpt_restore_module(struct catpt_dev *cdev, struct dma_chan *chan, dma_addr_t paddr, struct catpt_fw_mod_hdr *mod) { u32 offset = sizeof(*mod); int i; print_hex_dump_debug(__func__, DUMP_PREFIX_OFFSET, 8, 4, mod, sizeof(*mod), false); for (i = 0; i < mod->blocks; i++) { struct catpt_fw_block_hdr *blk; int ret; blk = (struct catpt_fw_block_hdr *)((u8 *)mod + offset); switch (blk->ram_type) { case CATPT_RAM_TYPE_INSTANCE: /* restore module state */ ret = catpt_dma_memcpy_todsp(cdev, chan, cdev->lpe_base + blk->ram_offset, cdev->dxbuf_paddr + blk->ram_offset, ALIGN(blk->size, 4)); break; default: ret = catpt_load_block(cdev, chan, paddr + offset, blk, false); break; } if (ret) { dev_err(cdev->dev, "restore block failed: %d\n", ret); return ret; } offset += sizeof(*blk) + blk->size; } return 0; } static int catpt_load_module(struct catpt_dev *cdev, struct dma_chan *chan, dma_addr_t paddr, struct catpt_fw_mod_hdr *mod) { struct catpt_module_type *type; u32 offset = sizeof(*mod); int i; print_hex_dump_debug(__func__, DUMP_PREFIX_OFFSET, 8, 4, mod, sizeof(*mod), false); type = &cdev->modules[mod->module_id]; for (i = 0; i < mod->blocks; i++) { struct catpt_fw_block_hdr *blk; int ret; blk = (struct catpt_fw_block_hdr *)((u8 *)mod + offset); ret = catpt_load_block(cdev, chan, paddr + offset, blk, true); if (ret) { dev_err(cdev->dev, "load block failed: %d\n", ret); return ret; } /* * Save state window coordinates - these will be * used to capture module state on D0 exit. */ if (blk->ram_type == CATPT_RAM_TYPE_INSTANCE) { type->state_offset = blk->ram_offset; type->state_size = blk->size; } offset += sizeof(*blk) + blk->size; } /* init module type static info */ type->loaded = true; /* DSP expects address from module header substracted by 4 */ type->entry_point = mod->entry_point - 4; type->persistent_size = mod->persistent_size; type->scratch_size = mod->scratch_size; return 0; } static int catpt_restore_firmware(struct catpt_dev *cdev, struct dma_chan *chan, dma_addr_t paddr, struct catpt_fw_hdr *fw) { u32 offset = sizeof(*fw); int i; print_hex_dump_debug(__func__, DUMP_PREFIX_OFFSET, 8, 4, fw, sizeof(*fw), false); for (i = 0; i < fw->modules; i++) { struct catpt_fw_mod_hdr *mod; int ret; mod = (struct catpt_fw_mod_hdr *)((u8 *)fw + offset); if (strncmp(fw->signature, mod->signature, FW_SIGNATURE_SIZE)) { dev_err(cdev->dev, "module signature mismatch\n"); return -EINVAL; } if (mod->module_id > CATPT_MODID_LAST) return -EINVAL; switch (mod->module_id) { case CATPT_MODID_BASE_FW: ret = catpt_restore_basefw(cdev, chan, paddr + offset, mod); break; default: ret = catpt_restore_module(cdev, chan, paddr + offset, mod); break; } if (ret) { dev_err(cdev->dev, "restore module failed: %d\n", ret); return ret; } offset += sizeof(*mod) + mod->mod_size; } return 0; } static int catpt_load_firmware(struct catpt_dev *cdev, struct dma_chan *chan, dma_addr_t paddr, struct catpt_fw_hdr *fw) { u32 offset = sizeof(*fw); int i; print_hex_dump_debug(__func__, DUMP_PREFIX_OFFSET, 8, 4, fw, sizeof(*fw), false); for (i = 0; i < fw->modules; i++) { struct catpt_fw_mod_hdr *mod; int ret; mod = (struct catpt_fw_mod_hdr *)((u8 *)fw + offset); if (strncmp(fw->signature, mod->signature, FW_SIGNATURE_SIZE)) { dev_err(cdev->dev, "module signature mismatch\n"); return -EINVAL; } if (mod->module_id > CATPT_MODID_LAST) return -EINVAL; ret = catpt_load_module(cdev, chan, paddr + offset, mod); if (ret) { dev_err(cdev->dev, "load module failed: %d\n", ret); return ret; } offset += sizeof(*mod) + mod->mod_size; } return 0; } static int catpt_load_image(struct catpt_dev *cdev, struct dma_chan *chan, const char *name, const char *signature, bool restore) { struct catpt_fw_hdr *fw; struct firmware *img; dma_addr_t paddr; void *vaddr; int ret; ret = request_firmware((const struct firmware **)&img, name, cdev->dev); if (ret) return ret; fw = (struct catpt_fw_hdr *)img->data; if (strncmp(fw->signature, signature, FW_SIGNATURE_SIZE)) { dev_err(cdev->dev, "firmware signature mismatch\n"); ret = -EINVAL; goto release_fw; } vaddr = dma_alloc_coherent(cdev->dev, img->size, &paddr, GFP_KERNEL); if (!vaddr) { ret = -ENOMEM; goto release_fw; } memcpy(vaddr, img->data, img->size); fw = (struct catpt_fw_hdr *)vaddr; if (restore) ret = catpt_restore_firmware(cdev, chan, paddr, fw); else ret = catpt_load_firmware(cdev, chan, paddr, fw); dma_free_coherent(cdev->dev, img->size, vaddr, paddr); release_fw: release_firmware(img); return ret; } static int catpt_load_images(struct catpt_dev *cdev, bool restore) { static const char *const names[] = { "intel/IntcSST1.bin", "intel/IntcSST2.bin", }; struct dma_chan *chan; int ret; chan = catpt_dma_request_config_chan(cdev); if (IS_ERR(chan)) return PTR_ERR(chan); ret = catpt_load_image(cdev, chan, names[cdev->spec->core_id - 1], FW_SIGNATURE, restore); if (ret) goto release_dma_chan; if (!restore) goto release_dma_chan; ret = catpt_restore_streams_context(cdev, chan); if (ret) dev_err(cdev->dev, "restore streams ctx failed: %d\n", ret); release_dma_chan: dma_release_channel(chan); return ret; } int catpt_boot_firmware(struct catpt_dev *cdev, bool restore) { int ret; catpt_dsp_stall(cdev, true); ret = catpt_load_images(cdev, restore); if (ret) { dev_err(cdev->dev, "load binaries failed: %d\n", ret); return ret; } reinit_completion(&cdev->fw_ready); catpt_dsp_stall(cdev, false); ret = wait_for_completion_timeout(&cdev->fw_ready, msecs_to_jiffies(FW_READY_TIMEOUT_MS)); if (!ret) { dev_err(cdev->dev, "firmware ready timeout\n"); return -ETIMEDOUT; } /* update sram pg & clock once done booting */ catpt_dsp_update_srampge(cdev, &cdev->dram, cdev->spec->dram_mask); catpt_dsp_update_srampge(cdev, &cdev->iram, cdev->spec->iram_mask); return catpt_dsp_update_lpclock(cdev); } int catpt_first_boot_firmware(struct catpt_dev *cdev) { struct resource *res; int ret; ret = catpt_boot_firmware(cdev, false); if (ret) { dev_err(cdev->dev, "basefw boot failed: %d\n", ret); return ret; } /* restrict FW Core dump area */ __request_region(&cdev->dram, 0, 0x200, NULL, 0); /* restrict entire area following BASE_FW - highest offset in DRAM */ for (res = cdev->dram.child; res->sibling; res = res->sibling) ; __request_region(&cdev->dram, res->end + 1, cdev->dram.end - res->end, NULL, 0); ret = catpt_ipc_get_mixer_stream_info(cdev, &cdev->mixer); if (ret) return CATPT_IPC_ERROR(ret); ret = catpt_arm_stream_templates(cdev); if (ret) { dev_err(cdev->dev, "arm templates failed: %d\n", ret); return ret; } /* update dram pg for scratch and restricted regions */ catpt_dsp_update_srampge(cdev, &cdev->dram, cdev->spec->dram_mask); return 0; }
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