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1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 1271 1272 1273 1274 1275 1276 1277 1278 1279 1280 1281 1282 1283 | /* * Intel SST Firmware Loader * * Copyright (C) 2013, Intel Corporation. All rights reserved. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License version * 2 as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * */ #include <linux/kernel.h> #include <linux/slab.h> #include <linux/sched.h> #include <linux/firmware.h> #include <linux/export.h> #include <linux/platform_device.h> #include <linux/dma-mapping.h> #include <linux/dmaengine.h> #include <linux/pci.h> #include <linux/acpi.h> /* supported DMA engine drivers */ #include <linux/dma/dw.h> #include <asm/page.h> #include <asm/pgtable.h> #include "sst-dsp.h" #include "sst-dsp-priv.h" #define SST_DMA_RESOURCES 2 #define SST_DSP_DMA_MAX_BURST 0x3 #define SST_HSW_BLOCK_ANY 0xffffffff #define SST_HSW_MASK_DMA_ADDR_DSP 0xfff00000 struct sst_dma { struct sst_dsp *sst; struct dw_dma_chip *chip; struct dma_async_tx_descriptor *desc; struct dma_chan *ch; }; static inline void sst_memcpy32(volatile void __iomem *dest, void *src, u32 bytes) { u32 tmp = 0; int i, m, n; const u8 *src_byte = src; m = bytes / 4; n = bytes % 4; /* __iowrite32_copy use 32bit size values so divide by 4 */ __iowrite32_copy((void *)dest, src, m); if (n) { for (i = 0; i < n; i++) tmp |= (u32)*(src_byte + m * 4 + i) << (i * 8); __iowrite32_copy((void *)(dest + m * 4), &tmp, 1); } } static void sst_dma_transfer_complete(void *arg) { struct sst_dsp *sst = (struct sst_dsp *)arg; dev_dbg(sst->dev, "DMA: callback\n"); } static int sst_dsp_dma_copy(struct sst_dsp *sst, dma_addr_t dest_addr, dma_addr_t src_addr, size_t size) { struct dma_async_tx_descriptor *desc; struct sst_dma *dma = sst->dma; if (dma->ch == NULL) { dev_err(sst->dev, "error: no DMA channel\n"); return -ENODEV; } dev_dbg(sst->dev, "DMA: src: 0x%lx dest 0x%lx size %zu\n", (unsigned long)src_addr, (unsigned long)dest_addr, size); desc = dma->ch->device->device_prep_dma_memcpy(dma->ch, dest_addr, src_addr, size, DMA_CTRL_ACK); if (!desc){ dev_err(sst->dev, "error: dma prep memcpy failed\n"); return -EINVAL; } desc->callback = sst_dma_transfer_complete; desc->callback_param = sst; desc->tx_submit(desc); dma_wait_for_async_tx(desc); return 0; } /* copy to DSP */ int sst_dsp_dma_copyto(struct sst_dsp *sst, dma_addr_t dest_addr, dma_addr_t src_addr, size_t size) { return sst_dsp_dma_copy(sst, dest_addr | SST_HSW_MASK_DMA_ADDR_DSP, src_addr, size); } EXPORT_SYMBOL_GPL(sst_dsp_dma_copyto); /* copy from DSP */ int sst_dsp_dma_copyfrom(struct sst_dsp *sst, dma_addr_t dest_addr, dma_addr_t src_addr, size_t size) { return sst_dsp_dma_copy(sst, dest_addr, src_addr | SST_HSW_MASK_DMA_ADDR_DSP, size); } EXPORT_SYMBOL_GPL(sst_dsp_dma_copyfrom); /* remove module from memory - callers hold locks */ static void block_list_remove(struct sst_dsp *dsp, struct list_head *block_list) { struct sst_mem_block *block, *tmp; int err; /* disable each block */ list_for_each_entry(block, block_list, module_list) { if (block->ops && block->ops->disable) { err = block->ops->disable(block); if (err < 0) dev_err(dsp->dev, "error: cant disable block %d:%d\n", block->type, block->index); } } /* mark each block as free */ list_for_each_entry_safe(block, tmp, block_list, module_list) { list_del(&block->module_list); list_move(&block->list, &dsp->free_block_list); dev_dbg(dsp->dev, "block freed %d:%d at offset 0x%x\n", block->type, block->index, block->offset); } } /* prepare the memory block to receive data from host - callers hold locks */ static int block_list_prepare(struct sst_dsp *dsp, struct list_head *block_list) { struct sst_mem_block *block; int ret = 0; /* enable each block so that's it'e ready for data */ list_for_each_entry(block, block_list, module_list) { if (block->ops && block->ops->enable && !block->users) { ret = block->ops->enable(block); if (ret < 0) { dev_err(dsp->dev, "error: cant disable block %d:%d\n", block->type, block->index); goto err; } } } return ret; err: list_for_each_entry(block, block_list, module_list) { if (block->ops && block->ops->disable) block->ops->disable(block); } return ret; } static struct dw_dma_chip *dw_probe(struct device *dev, struct resource *mem, int irq) { struct dw_dma_chip *chip; int err; chip = devm_kzalloc(dev, sizeof(*chip), GFP_KERNEL); if (!chip) return ERR_PTR(-ENOMEM); chip->irq = irq; chip->regs = devm_ioremap_resource(dev, mem); if (IS_ERR(chip->regs)) return ERR_CAST(chip->regs); err = dma_coerce_mask_and_coherent(dev, DMA_BIT_MASK(31)); if (err) return ERR_PTR(err); chip->dev = dev; err = dw_dma_probe(chip); if (err) return ERR_PTR(err); return chip; } static void dw_remove(struct dw_dma_chip *chip) { dw_dma_remove(chip); } static bool dma_chan_filter(struct dma_chan *chan, void *param) { struct sst_dsp *dsp = (struct sst_dsp *)param; return chan->device->dev == dsp->dma_dev; } int sst_dsp_dma_get_channel(struct sst_dsp *dsp, int chan_id) { struct sst_dma *dma = dsp->dma; struct dma_slave_config slave; dma_cap_mask_t mask; int ret; dma_cap_zero(mask); dma_cap_set(DMA_SLAVE, mask); dma_cap_set(DMA_MEMCPY, mask); dma->ch = dma_request_channel(mask, dma_chan_filter, dsp); if (dma->ch == NULL) { dev_err(dsp->dev, "error: DMA request channel failed\n"); return -EIO; } memset(&slave, 0, sizeof(slave)); slave.direction = DMA_MEM_TO_DEV; slave.src_addr_width = slave.dst_addr_width = DMA_SLAVE_BUSWIDTH_4_BYTES; slave.src_maxburst = slave.dst_maxburst = SST_DSP_DMA_MAX_BURST; ret = dmaengine_slave_config(dma->ch, &slave); if (ret) { dev_err(dsp->dev, "error: unable to set DMA slave config %d\n", ret); dma_release_channel(dma->ch); dma->ch = NULL; } return ret; } EXPORT_SYMBOL_GPL(sst_dsp_dma_get_channel); void sst_dsp_dma_put_channel(struct sst_dsp *dsp) { struct sst_dma *dma = dsp->dma; if (!dma->ch) return; dma_release_channel(dma->ch); dma->ch = NULL; } EXPORT_SYMBOL_GPL(sst_dsp_dma_put_channel); int sst_dma_new(struct sst_dsp *sst) { struct sst_pdata *sst_pdata = sst->pdata; struct sst_dma *dma; struct resource mem; int ret = 0; if (sst->pdata->resindex_dma_base == -1) /* DMA is not used, return and squelsh error messages */ return 0; /* configure the correct platform data for whatever DMA engine * is attached to the ADSP IP. */ switch (sst->pdata->dma_engine) { case SST_DMA_TYPE_DW: break; default: dev_err(sst->dev, "error: invalid DMA engine %d\n", sst->pdata->dma_engine); return -EINVAL; } dma = devm_kzalloc(sst->dev, sizeof(struct sst_dma), GFP_KERNEL); if (!dma) return -ENOMEM; dma->sst = sst; memset(&mem, 0, sizeof(mem)); mem.start = sst->addr.lpe_base + sst_pdata->dma_base; mem.end = sst->addr.lpe_base + sst_pdata->dma_base + sst_pdata->dma_size - 1; mem.flags = IORESOURCE_MEM; /* now register DMA engine device */ dma->chip = dw_probe(sst->dma_dev, &mem, sst_pdata->irq); if (IS_ERR(dma->chip)) { dev_err(sst->dev, "error: DMA device register failed\n"); ret = PTR_ERR(dma->chip); goto err_dma_dev; } sst->dma = dma; sst->fw_use_dma = true; return 0; err_dma_dev: devm_kfree(sst->dev, dma); return ret; } EXPORT_SYMBOL(sst_dma_new); void sst_dma_free(struct sst_dma *dma) { if (dma == NULL) return; if (dma->ch) dma_release_channel(dma->ch); if (dma->chip) dw_remove(dma->chip); } EXPORT_SYMBOL(sst_dma_free); /* create new generic firmware object */ struct sst_fw *sst_fw_new(struct sst_dsp *dsp, const struct firmware *fw, void *private) { struct sst_fw *sst_fw; int err; if (!dsp->ops->parse_fw) return NULL; sst_fw = kzalloc(sizeof(*sst_fw), GFP_KERNEL); if (sst_fw == NULL) return NULL; sst_fw->dsp = dsp; sst_fw->private = private; sst_fw->size = fw->size; /* allocate DMA buffer to store FW data */ sst_fw->dma_buf = dma_alloc_coherent(dsp->dma_dev, sst_fw->size, &sst_fw->dmable_fw_paddr, GFP_DMA | GFP_KERNEL); if (!sst_fw->dma_buf) { dev_err(dsp->dev, "error: DMA alloc failed\n"); kfree(sst_fw); return NULL; } /* copy FW data to DMA-able memory */ memcpy((void *)sst_fw->dma_buf, (void *)fw->data, fw->size); if (dsp->fw_use_dma) { err = sst_dsp_dma_get_channel(dsp, 0); if (err < 0) goto chan_err; } /* call core specific FW paser to load FW data into DSP */ err = dsp->ops->parse_fw(sst_fw); if (err < 0) { dev_err(dsp->dev, "error: parse fw failed %d\n", err); goto parse_err; } if (dsp->fw_use_dma) sst_dsp_dma_put_channel(dsp); mutex_lock(&dsp->mutex); list_add(&sst_fw->list, &dsp->fw_list); mutex_unlock(&dsp->mutex); return sst_fw; parse_err: if (dsp->fw_use_dma) sst_dsp_dma_put_channel(dsp); chan_err: dma_free_coherent(dsp->dma_dev, sst_fw->size, sst_fw->dma_buf, sst_fw->dmable_fw_paddr); sst_fw->dma_buf = NULL; kfree(sst_fw); return NULL; } EXPORT_SYMBOL_GPL(sst_fw_new); int sst_fw_reload(struct sst_fw *sst_fw) { struct sst_dsp *dsp = sst_fw->dsp; int ret; dev_dbg(dsp->dev, "reloading firmware\n"); /* call core specific FW paser to load FW data into DSP */ ret = dsp->ops->parse_fw(sst_fw); if (ret < 0) dev_err(dsp->dev, "error: parse fw failed %d\n", ret); return ret; } EXPORT_SYMBOL_GPL(sst_fw_reload); void sst_fw_unload(struct sst_fw *sst_fw) { struct sst_dsp *dsp = sst_fw->dsp; struct sst_module *module, *mtmp; struct sst_module_runtime *runtime, *rtmp; dev_dbg(dsp->dev, "unloading firmware\n"); mutex_lock(&dsp->mutex); /* check module by module */ list_for_each_entry_safe(module, mtmp, &dsp->module_list, list) { if (module->sst_fw == sst_fw) { /* remove runtime modules */ list_for_each_entry_safe(runtime, rtmp, &module->runtime_list, list) { block_list_remove(dsp, &runtime->block_list); list_del(&runtime->list); kfree(runtime); } /* now remove the module */ block_list_remove(dsp, &module->block_list); list_del(&module->list); kfree(module); } } /* remove all scratch blocks */ block_list_remove(dsp, &dsp->scratch_block_list); mutex_unlock(&dsp->mutex); } EXPORT_SYMBOL_GPL(sst_fw_unload); /* free single firmware object */ void sst_fw_free(struct sst_fw *sst_fw) { struct sst_dsp *dsp = sst_fw->dsp; mutex_lock(&dsp->mutex); list_del(&sst_fw->list); mutex_unlock(&dsp->mutex); if (sst_fw->dma_buf) dma_free_coherent(dsp->dma_dev, sst_fw->size, sst_fw->dma_buf, sst_fw->dmable_fw_paddr); kfree(sst_fw); } EXPORT_SYMBOL_GPL(sst_fw_free); /* free all firmware objects */ void sst_fw_free_all(struct sst_dsp *dsp) { struct sst_fw *sst_fw, *t; mutex_lock(&dsp->mutex); list_for_each_entry_safe(sst_fw, t, &dsp->fw_list, list) { list_del(&sst_fw->list); dma_free_coherent(dsp->dev, sst_fw->size, sst_fw->dma_buf, sst_fw->dmable_fw_paddr); kfree(sst_fw); } mutex_unlock(&dsp->mutex); } EXPORT_SYMBOL_GPL(sst_fw_free_all); /* create a new SST generic module from FW template */ struct sst_module *sst_module_new(struct sst_fw *sst_fw, struct sst_module_template *template, void *private) { struct sst_dsp *dsp = sst_fw->dsp; struct sst_module *sst_module; sst_module = kzalloc(sizeof(*sst_module), GFP_KERNEL); if (sst_module == NULL) return NULL; sst_module->id = template->id; sst_module->dsp = dsp; sst_module->sst_fw = sst_fw; sst_module->scratch_size = template->scratch_size; sst_module->persistent_size = template->persistent_size; sst_module->entry = template->entry; sst_module->state = SST_MODULE_STATE_UNLOADED; INIT_LIST_HEAD(&sst_module->block_list); INIT_LIST_HEAD(&sst_module->runtime_list); mutex_lock(&dsp->mutex); list_add(&sst_module->list, &dsp->module_list); mutex_unlock(&dsp->mutex); return sst_module; } EXPORT_SYMBOL_GPL(sst_module_new); /* free firmware module and remove from available list */ void sst_module_free(struct sst_module *sst_module) { struct sst_dsp *dsp = sst_module->dsp; mutex_lock(&dsp->mutex); list_del(&sst_module->list); mutex_unlock(&dsp->mutex); kfree(sst_module); } EXPORT_SYMBOL_GPL(sst_module_free); struct sst_module_runtime *sst_module_runtime_new(struct sst_module *module, int id, void *private) { struct sst_dsp *dsp = module->dsp; struct sst_module_runtime *runtime; runtime = kzalloc(sizeof(*runtime), GFP_KERNEL); if (runtime == NULL) return NULL; runtime->id = id; runtime->dsp = dsp; runtime->module = module; INIT_LIST_HEAD(&runtime->block_list); mutex_lock(&dsp->mutex); list_add(&runtime->list, &module->runtime_list); mutex_unlock(&dsp->mutex); return runtime; } EXPORT_SYMBOL_GPL(sst_module_runtime_new); void sst_module_runtime_free(struct sst_module_runtime *runtime) { struct sst_dsp *dsp = runtime->dsp; mutex_lock(&dsp->mutex); list_del(&runtime->list); mutex_unlock(&dsp->mutex); kfree(runtime); } EXPORT_SYMBOL_GPL(sst_module_runtime_free); static struct sst_mem_block *find_block(struct sst_dsp *dsp, struct sst_block_allocator *ba) { struct sst_mem_block *block; list_for_each_entry(block, &dsp->free_block_list, list) { if (block->type == ba->type && block->offset == ba->offset) return block; } return NULL; } /* Block allocator must be on block boundary */ static int block_alloc_contiguous(struct sst_dsp *dsp, struct sst_block_allocator *ba, struct list_head *block_list) { struct list_head tmp = LIST_HEAD_INIT(tmp); struct sst_mem_block *block; u32 block_start = SST_HSW_BLOCK_ANY; int size = ba->size, offset = ba->offset; while (ba->size > 0) { block = find_block(dsp, ba); if (!block) { list_splice(&tmp, &dsp->free_block_list); ba->size = size; ba->offset = offset; return -ENOMEM; } list_move_tail(&block->list, &tmp); ba->offset += block->size; ba->size -= block->size; } ba->size = size; ba->offset = offset; list_for_each_entry(block, &tmp, list) { if (block->offset < block_start) block_start = block->offset; list_add(&block->module_list, block_list); dev_dbg(dsp->dev, "block allocated %d:%d at offset 0x%x\n", block->type, block->index, block->offset); } list_splice(&tmp, &dsp->used_block_list); return 0; } /* allocate first free DSP blocks for data - callers hold locks */ static int block_alloc(struct sst_dsp *dsp, struct sst_block_allocator *ba, struct list_head *block_list) { struct sst_mem_block *block, *tmp; int ret = 0; if (ba->size == 0) return 0; /* find first free whole blocks that can hold module */ list_for_each_entry_safe(block, tmp, &dsp->free_block_list, list) { /* ignore blocks with wrong type */ if (block->type != ba->type) continue; if (ba->size > block->size) continue; ba->offset = block->offset; block->bytes_used = ba->size % block->size; list_add(&block->module_list, block_list); list_move(&block->list, &dsp->used_block_list); dev_dbg(dsp->dev, "block allocated %d:%d at offset 0x%x\n", block->type, block->index, block->offset); return 0; } /* then find free multiple blocks that can hold module */ list_for_each_entry_safe(block, tmp, &dsp->free_block_list, list) { /* ignore blocks with wrong type */ if (block->type != ba->type) continue; /* do we span > 1 blocks */ if (ba->size > block->size) { /* align ba to block boundary */ ba->offset = block->offset; ret = block_alloc_contiguous(dsp, ba, block_list); if (ret == 0) return ret; } } /* not enough free block space */ return -ENOMEM; } int sst_alloc_blocks(struct sst_dsp *dsp, struct sst_block_allocator *ba, struct list_head *block_list) { int ret; dev_dbg(dsp->dev, "block request 0x%x bytes at offset 0x%x type %d\n", ba->size, ba->offset, ba->type); mutex_lock(&dsp->mutex); ret = block_alloc(dsp, ba, block_list); if (ret < 0) { dev_err(dsp->dev, "error: can't alloc blocks %d\n", ret); goto out; } /* prepare DSP blocks for module usage */ ret = block_list_prepare(dsp, block_list); if (ret < 0) dev_err(dsp->dev, "error: prepare failed\n"); out: mutex_unlock(&dsp->mutex); return ret; } EXPORT_SYMBOL_GPL(sst_alloc_blocks); int sst_free_blocks(struct sst_dsp *dsp, struct list_head *block_list) { mutex_lock(&dsp->mutex); block_list_remove(dsp, block_list); mutex_unlock(&dsp->mutex); return 0; } EXPORT_SYMBOL_GPL(sst_free_blocks); /* allocate memory blocks for static module addresses - callers hold locks */ static int block_alloc_fixed(struct sst_dsp *dsp, struct sst_block_allocator *ba, struct list_head *block_list) { struct sst_mem_block *block, *tmp; struct sst_block_allocator ba_tmp = *ba; u32 end = ba->offset + ba->size, block_end; int err; /* only IRAM/DRAM blocks are managed */ if (ba->type != SST_MEM_IRAM && ba->type != SST_MEM_DRAM) return 0; /* are blocks already attached to this module */ list_for_each_entry_safe(block, tmp, block_list, module_list) { /* ignore blocks with wrong type */ if (block->type != ba->type) continue; block_end = block->offset + block->size; /* find block that holds section */ if (ba->offset >= block->offset && end <= block_end) return 0; /* does block span more than 1 section */ if (ba->offset >= block->offset && ba->offset < block_end) { /* align ba to block boundary */ ba_tmp.size -= block_end - ba->offset; ba_tmp.offset = block_end; err = block_alloc_contiguous(dsp, &ba_tmp, block_list); if (err < 0) return -ENOMEM; /* module already owns blocks */ return 0; } } /* find first free blocks that can hold section in free list */ list_for_each_entry_safe(block, tmp, &dsp->free_block_list, list) { block_end = block->offset + block->size; /* ignore blocks with wrong type */ if (block->type != ba->type) continue; /* find block that holds section */ if (ba->offset >= block->offset && end <= block_end) { /* add block */ list_move(&block->list, &dsp->used_block_list); list_add(&block->module_list, block_list); dev_dbg(dsp->dev, "block allocated %d:%d at offset 0x%x\n", block->type, block->index, block->offset); return 0; } /* does block span more than 1 section */ if (ba->offset >= block->offset && ba->offset < block_end) { /* add block */ list_move(&block->list, &dsp->used_block_list); list_add(&block->module_list, block_list); /* align ba to block boundary */ ba_tmp.size -= block_end - ba->offset; ba_tmp.offset = block_end; err = block_alloc_contiguous(dsp, &ba_tmp, block_list); if (err < 0) return -ENOMEM; return 0; } } return -ENOMEM; } /* Load fixed module data into DSP memory blocks */ int sst_module_alloc_blocks(struct sst_module *module) { struct sst_dsp *dsp = module->dsp; struct sst_fw *sst_fw = module->sst_fw; struct sst_block_allocator ba; int ret; memset(&ba, 0, sizeof(ba)); ba.size = module->size; ba.type = module->type; ba.offset = module->offset; dev_dbg(dsp->dev, "block request 0x%x bytes at offset 0x%x type %d\n", ba.size, ba.offset, ba.type); mutex_lock(&dsp->mutex); /* alloc blocks that includes this section */ ret = block_alloc_fixed(dsp, &ba, &module->block_list); if (ret < 0) { dev_err(dsp->dev, "error: no free blocks for section at offset 0x%x size 0x%x\n", module->offset, module->size); mutex_unlock(&dsp->mutex); return -ENOMEM; } /* prepare DSP blocks for module copy */ ret = block_list_prepare(dsp, &module->block_list); if (ret < 0) { dev_err(dsp->dev, "error: fw module prepare failed\n"); goto err; } /* copy partial module data to blocks */ if (dsp->fw_use_dma) { ret = sst_dsp_dma_copyto(dsp, dsp->addr.lpe_base + module->offset, sst_fw->dmable_fw_paddr + module->data_offset, module->size); if (ret < 0) { dev_err(dsp->dev, "error: module copy failed\n"); goto err; } } else sst_memcpy32(dsp->addr.lpe + module->offset, module->data, module->size); mutex_unlock(&dsp->mutex); return ret; err: block_list_remove(dsp, &module->block_list); mutex_unlock(&dsp->mutex); return ret; } EXPORT_SYMBOL_GPL(sst_module_alloc_blocks); /* Unload entire module from DSP memory */ int sst_module_free_blocks(struct sst_module *module) { struct sst_dsp *dsp = module->dsp; mutex_lock(&dsp->mutex); block_list_remove(dsp, &module->block_list); mutex_unlock(&dsp->mutex); return 0; } EXPORT_SYMBOL_GPL(sst_module_free_blocks); int sst_module_runtime_alloc_blocks(struct sst_module_runtime *runtime, int offset) { struct sst_dsp *dsp = runtime->dsp; struct sst_module *module = runtime->module; struct sst_block_allocator ba; int ret; if (module->persistent_size == 0) return 0; memset(&ba, 0, sizeof(ba)); ba.size = module->persistent_size; ba.type = SST_MEM_DRAM; mutex_lock(&dsp->mutex); /* do we need to allocate at a fixed address ? */ if (offset != 0) { ba.offset = offset; dev_dbg(dsp->dev, "persistent fixed block request 0x%x bytes type %d offset 0x%x\n", ba.size, ba.type, ba.offset); /* alloc blocks that includes this section */ ret = block_alloc_fixed(dsp, &ba, &runtime->block_list); } else { dev_dbg(dsp->dev, "persistent block request 0x%x bytes type %d\n", ba.size, ba.type); /* alloc blocks that includes this section */ ret = block_alloc(dsp, &ba, &runtime->block_list); } if (ret < 0) { dev_err(dsp->dev, "error: no free blocks for runtime module size 0x%x\n", module->persistent_size); mutex_unlock(&dsp->mutex); return -ENOMEM; } runtime->persistent_offset = ba.offset; /* prepare DSP blocks for module copy */ ret = block_list_prepare(dsp, &runtime->block_list); if (ret < 0) { dev_err(dsp->dev, "error: runtime block prepare failed\n"); goto err; } mutex_unlock(&dsp->mutex); return ret; err: block_list_remove(dsp, &module->block_list); mutex_unlock(&dsp->mutex); return ret; } EXPORT_SYMBOL_GPL(sst_module_runtime_alloc_blocks); int sst_module_runtime_free_blocks(struct sst_module_runtime *runtime) { struct sst_dsp *dsp = runtime->dsp; mutex_lock(&dsp->mutex); block_list_remove(dsp, &runtime->block_list); mutex_unlock(&dsp->mutex); return 0; } EXPORT_SYMBOL_GPL(sst_module_runtime_free_blocks); int sst_module_runtime_save(struct sst_module_runtime *runtime, struct sst_module_runtime_context *context) { struct sst_dsp *dsp = runtime->dsp; struct sst_module *module = runtime->module; int ret = 0; dev_dbg(dsp->dev, "saving runtime %d memory at 0x%x size 0x%x\n", runtime->id, runtime->persistent_offset, module->persistent_size); context->buffer = dma_alloc_coherent(dsp->dma_dev, module->persistent_size, &context->dma_buffer, GFP_DMA | GFP_KERNEL); if (!context->buffer) { dev_err(dsp->dev, "error: DMA context alloc failed\n"); return -ENOMEM; } mutex_lock(&dsp->mutex); if (dsp->fw_use_dma) { ret = sst_dsp_dma_get_channel(dsp, 0); if (ret < 0) goto err; ret = sst_dsp_dma_copyfrom(dsp, context->dma_buffer, dsp->addr.lpe_base + runtime->persistent_offset, module->persistent_size); sst_dsp_dma_put_channel(dsp); if (ret < 0) { dev_err(dsp->dev, "error: context copy failed\n"); goto err; } } else sst_memcpy32(context->buffer, dsp->addr.lpe + runtime->persistent_offset, module->persistent_size); err: mutex_unlock(&dsp->mutex); return ret; } EXPORT_SYMBOL_GPL(sst_module_runtime_save); int sst_module_runtime_restore(struct sst_module_runtime *runtime, struct sst_module_runtime_context *context) { struct sst_dsp *dsp = runtime->dsp; struct sst_module *module = runtime->module; int ret = 0; dev_dbg(dsp->dev, "restoring runtime %d memory at 0x%x size 0x%x\n", runtime->id, runtime->persistent_offset, module->persistent_size); mutex_lock(&dsp->mutex); if (!context->buffer) { dev_info(dsp->dev, "no context buffer need to restore!\n"); goto err; } if (dsp->fw_use_dma) { ret = sst_dsp_dma_get_channel(dsp, 0); if (ret < 0) goto err; ret = sst_dsp_dma_copyto(dsp, dsp->addr.lpe_base + runtime->persistent_offset, context->dma_buffer, module->persistent_size); sst_dsp_dma_put_channel(dsp); if (ret < 0) { dev_err(dsp->dev, "error: module copy failed\n"); goto err; } } else sst_memcpy32(dsp->addr.lpe + runtime->persistent_offset, context->buffer, module->persistent_size); dma_free_coherent(dsp->dma_dev, module->persistent_size, context->buffer, context->dma_buffer); context->buffer = NULL; err: mutex_unlock(&dsp->mutex); return ret; } EXPORT_SYMBOL_GPL(sst_module_runtime_restore); /* register a DSP memory block for use with FW based modules */ struct sst_mem_block *sst_mem_block_register(struct sst_dsp *dsp, u32 offset, u32 size, enum sst_mem_type type, const struct sst_block_ops *ops, u32 index, void *private) { struct sst_mem_block *block; block = kzalloc(sizeof(*block), GFP_KERNEL); if (block == NULL) return NULL; block->offset = offset; block->size = size; block->index = index; block->type = type; block->dsp = dsp; block->private = private; block->ops = ops; mutex_lock(&dsp->mutex); list_add(&block->list, &dsp->free_block_list); mutex_unlock(&dsp->mutex); return block; } EXPORT_SYMBOL_GPL(sst_mem_block_register); /* unregister all DSP memory blocks */ void sst_mem_block_unregister_all(struct sst_dsp *dsp) { struct sst_mem_block *block, *tmp; mutex_lock(&dsp->mutex); /* unregister used blocks */ list_for_each_entry_safe(block, tmp, &dsp->used_block_list, list) { list_del(&block->list); kfree(block); } /* unregister free blocks */ list_for_each_entry_safe(block, tmp, &dsp->free_block_list, list) { list_del(&block->list); kfree(block); } mutex_unlock(&dsp->mutex); } EXPORT_SYMBOL_GPL(sst_mem_block_unregister_all); /* allocate scratch buffer blocks */ int sst_block_alloc_scratch(struct sst_dsp *dsp) { struct sst_module *module; struct sst_block_allocator ba; int ret; mutex_lock(&dsp->mutex); /* calculate required scratch size */ dsp->scratch_size = 0; list_for_each_entry(module, &dsp->module_list, list) { dev_dbg(dsp->dev, "module %d scratch req 0x%x bytes\n", module->id, module->scratch_size); if (dsp->scratch_size < module->scratch_size) dsp->scratch_size = module->scratch_size; } dev_dbg(dsp->dev, "scratch buffer required is 0x%x bytes\n", dsp->scratch_size); if (dsp->scratch_size == 0) { dev_info(dsp->dev, "no modules need scratch buffer\n"); mutex_unlock(&dsp->mutex); return 0; } /* allocate blocks for module scratch buffers */ dev_dbg(dsp->dev, "allocating scratch blocks\n"); ba.size = dsp->scratch_size; ba.type = SST_MEM_DRAM; /* do we need to allocate at fixed offset */ if (dsp->scratch_offset != 0) { dev_dbg(dsp->dev, "block request 0x%x bytes type %d at 0x%x\n", ba.size, ba.type, ba.offset); ba.offset = dsp->scratch_offset; /* alloc blocks that includes this section */ ret = block_alloc_fixed(dsp, &ba, &dsp->scratch_block_list); } else { dev_dbg(dsp->dev, "block request 0x%x bytes type %d\n", ba.size, ba.type); ba.offset = 0; ret = block_alloc(dsp, &ba, &dsp->scratch_block_list); } if (ret < 0) { dev_err(dsp->dev, "error: can't alloc scratch blocks\n"); mutex_unlock(&dsp->mutex); return ret; } ret = block_list_prepare(dsp, &dsp->scratch_block_list); if (ret < 0) { dev_err(dsp->dev, "error: scratch block prepare failed\n"); mutex_unlock(&dsp->mutex); return ret; } /* assign the same offset of scratch to each module */ dsp->scratch_offset = ba.offset; mutex_unlock(&dsp->mutex); return dsp->scratch_size; } EXPORT_SYMBOL_GPL(sst_block_alloc_scratch); /* free all scratch blocks */ void sst_block_free_scratch(struct sst_dsp *dsp) { mutex_lock(&dsp->mutex); block_list_remove(dsp, &dsp->scratch_block_list); mutex_unlock(&dsp->mutex); } EXPORT_SYMBOL_GPL(sst_block_free_scratch); /* get a module from it's unique ID */ struct sst_module *sst_module_get_from_id(struct sst_dsp *dsp, u32 id) { struct sst_module *module; mutex_lock(&dsp->mutex); list_for_each_entry(module, &dsp->module_list, list) { if (module->id == id) { mutex_unlock(&dsp->mutex); return module; } } mutex_unlock(&dsp->mutex); return NULL; } EXPORT_SYMBOL_GPL(sst_module_get_from_id); struct sst_module_runtime *sst_module_runtime_get_from_id( struct sst_module *module, u32 id) { struct sst_module_runtime *runtime; struct sst_dsp *dsp = module->dsp; mutex_lock(&dsp->mutex); list_for_each_entry(runtime, &module->runtime_list, list) { if (runtime->id == id) { mutex_unlock(&dsp->mutex); return runtime; } } mutex_unlock(&dsp->mutex); return NULL; } EXPORT_SYMBOL_GPL(sst_module_runtime_get_from_id); /* returns block address in DSP address space */ u32 sst_dsp_get_offset(struct sst_dsp *dsp, u32 offset, enum sst_mem_type type) { switch (type) { case SST_MEM_IRAM: return offset - dsp->addr.iram_offset + dsp->addr.dsp_iram_offset; case SST_MEM_DRAM: return offset - dsp->addr.dram_offset + dsp->addr.dsp_dram_offset; default: return 0; } } EXPORT_SYMBOL_GPL(sst_dsp_get_offset); struct sst_dsp *sst_dsp_new(struct device *dev, struct sst_dsp_device *sst_dev, struct sst_pdata *pdata) { struct sst_dsp *sst; int err; dev_dbg(dev, "initialising audio DSP id 0x%x\n", pdata->id); sst = devm_kzalloc(dev, sizeof(*sst), GFP_KERNEL); if (sst == NULL) return NULL; spin_lock_init(&sst->spinlock); mutex_init(&sst->mutex); sst->dev = dev; sst->dma_dev = pdata->dma_dev; sst->thread_context = sst_dev->thread_context; sst->sst_dev = sst_dev; sst->id = pdata->id; sst->irq = pdata->irq; sst->ops = sst_dev->ops; sst->pdata = pdata; INIT_LIST_HEAD(&sst->used_block_list); INIT_LIST_HEAD(&sst->free_block_list); INIT_LIST_HEAD(&sst->module_list); INIT_LIST_HEAD(&sst->fw_list); INIT_LIST_HEAD(&sst->scratch_block_list); /* Initialise SST Audio DSP */ if (sst->ops->init) { err = sst->ops->init(sst, pdata); if (err < 0) return NULL; } /* Register the ISR */ err = request_threaded_irq(sst->irq, sst->ops->irq_handler, sst_dev->thread, IRQF_SHARED, "AudioDSP", sst); if (err) goto irq_err; err = sst_dma_new(sst); if (err) { dev_err(dev, "sst_dma_new failed %d\n", err); goto dma_err; } return sst; dma_err: free_irq(sst->irq, sst); irq_err: if (sst->ops->free) sst->ops->free(sst); return NULL; } EXPORT_SYMBOL_GPL(sst_dsp_new); void sst_dsp_free(struct sst_dsp *sst) { free_irq(sst->irq, sst); if (sst->ops->free) sst->ops->free(sst); sst_dma_free(sst->dma); } EXPORT_SYMBOL_GPL(sst_dsp_free); MODULE_DESCRIPTION("Intel SST Firmware Loader"); MODULE_LICENSE("GPL v2"); |