#define _BSD_SOURCE #include #include #include #include #include #include "pci.h" #include "pcilib.h" #include "error.h" #include "tools.h" #include "nwl.h" #include "nwl_defines.h" #include "nwl_buffers.h" int dma_nwl_read_engine_config(nwl_dma_t *ctx, pcilib_nwl_engine_description_t *info, char *base) { uint32_t val; info->base_addr = base; nwl_read_register(val, ctx, base, REG_DMA_ENG_CAP); if ((val & DMA_ENG_PRESENT_MASK) == 0) return PCILIB_ERROR_NOTAVAILABLE; info->desc.addr = (val & DMA_ENG_NUMBER) >> DMA_ENG_NUMBER_SHIFT; if ((info->desc.addr > PCILIB_MAX_DMA_ENGINES)||(info->desc.addr < 0)) return PCILIB_ERROR_INVALID_DATA; switch (val & DMA_ENG_DIRECTION_MASK) { case DMA_ENG_C2S: info->desc.direction = PCILIB_DMA_FROM_DEVICE; break; default: info->desc.direction = PCILIB_DMA_TO_DEVICE; } switch (val & DMA_ENG_TYPE_MASK) { case DMA_ENG_BLOCK: info->desc.type = PCILIB_DMA_TYPE_BLOCK; break; case DMA_ENG_PACKET: info->desc.type = PCILIB_DMA_TYPE_PACKET; break; default: info->desc.type = PCILIB_DMA_TYPE_UNKNOWN; } info->desc.addr_bits = (val & DMA_ENG_BD_MAX_BC) >> DMA_ENG_BD_MAX_BC_SHIFT; info->base_addr = base; return 0; } int dma_nwl_start_engine(nwl_dma_t *ctx, pcilib_dma_engine_t dma) { int err; uint32_t val; uint32_t ring_pa; struct timeval start, cur; pcilib_nwl_engine_description_t *info = ctx->engines + dma; char *base = ctx->engines[dma].base_addr; if (info->started) return 0; // This will only successed if there are no parallel access to DMA engine err = dma_nwl_allocate_engine_buffers(ctx, info); if (err) return err; // Check if DMA engine is enabled nwl_read_register(val, ctx, info->base_addr, REG_DMA_ENG_CTRL_STATUS); if (val&DMA_ENG_RUNNING) { // info->preserve = 1; // We need to positionate buffers correctly (both read and write) //DSS info->tail, info->head // pcilib_error("Not implemented"); // info->started = 1; // return 0; } // Disable IRQs err = dma_nwl_disable_engine_irq(ctx, dma); if (err) return err; // Disable Engine & Reseting val = DMA_ENG_DISABLE|DMA_ENG_USER_RESET; nwl_write_register(val, ctx, base, REG_DMA_ENG_CTRL_STATUS); gettimeofday(&start, NULL); do { nwl_read_register(val, ctx, base, REG_DMA_ENG_CTRL_STATUS); gettimeofday(&cur, NULL); } while ((val & (DMA_ENG_STATE_MASK|DMA_ENG_USER_RESET))&&(((cur.tv_sec - start.tv_sec)*1000000 + (cur.tv_usec - start.tv_usec)) < PCILIB_REGISTER_TIMEOUT)); if (val & (DMA_ENG_STATE_MASK|DMA_ENG_USER_RESET)) { pcilib_error("Timeout during reset of DMA engine %i", info->desc.addr); return PCILIB_ERROR_TIMEOUT; } val = DMA_ENG_RESET; nwl_write_register(val, ctx, base, REG_DMA_ENG_CTRL_STATUS); gettimeofday(&start, NULL); do { nwl_read_register(val, ctx, base, REG_DMA_ENG_CTRL_STATUS); gettimeofday(&cur, NULL); } while ((val & DMA_ENG_RESET)&&(((cur.tv_sec - start.tv_sec)*1000000 + (cur.tv_usec - start.tv_usec)) < PCILIB_REGISTER_TIMEOUT)); if (val & DMA_ENG_RESET) { pcilib_error("Timeout during reset of DMA engine %i", info->desc.addr); return PCILIB_ERROR_TIMEOUT; } // Acknowledge asserted engine interrupts if (val & DMA_ENG_INT_ACTIVE_MASK) { val |= DMA_ENG_ALLINT_MASK; nwl_write_register(val, ctx, base, REG_DMA_ENG_CTRL_STATUS); } ring_pa = pcilib_kmem_get_pa(ctx->pcilib, info->ring); nwl_write_register(ring_pa, ctx, info->base_addr, REG_DMA_ENG_NEXT_BD); nwl_write_register(ring_pa, ctx, info->base_addr, REG_SW_NEXT_BD); __sync_synchronize(); nwl_read_register(val, ctx, info->base_addr, REG_DMA_ENG_CTRL_STATUS); val |= (DMA_ENG_ENABLE); nwl_write_register(val, ctx, info->base_addr, REG_DMA_ENG_CTRL_STATUS); __sync_synchronize(); #ifdef NWL_GENERATE_DMA_IRQ dma_nwl_enable_engine_irq(ctx, dma); #endif /* NWL_GENERATE_DMA_IRQ */ if (info->desc.direction == PCILIB_DMA_FROM_DEVICE) { ring_pa += (info->ring_size - 1) * PCILIB_NWL_DMA_DESCRIPTOR_SIZE; nwl_write_register(ring_pa, ctx, info->base_addr, REG_SW_NEXT_BD); info->tail = 0; info->head = (info->ring_size - 1); } else { info->tail = 0; info->head = 0; } info->started = 1; return 0; } int dma_nwl_stop_engine(nwl_dma_t *ctx, pcilib_dma_engine_t dma) { int err; uint32_t val; uint32_t ring_pa; struct timeval start, cur; pcilib_nwl_engine_description_t *info = ctx->engines + dma; char *base = ctx->engines[dma].base_addr; info->started = 0; err = dma_nwl_disable_engine_irq(ctx, dma); if (err) return err; if (!info->preserve) { // Stopping DMA is not enough reset is required val = DMA_ENG_DISABLE|DMA_ENG_USER_RESET|DMA_ENG_RESET; nwl_write_register(val, ctx, base, REG_DMA_ENG_CTRL_STATUS); if (info->ring) { ring_pa = pcilib_kmem_get_pa(ctx->pcilib, info->ring); nwl_write_register(ring_pa, ctx, info->base_addr, REG_DMA_ENG_NEXT_BD); nwl_write_register(ring_pa, ctx, info->base_addr, REG_SW_NEXT_BD); } } // Acknowledge asserted engine interrupts if (val & DMA_ENG_INT_ACTIVE_MASK) { val |= DMA_ENG_ALLINT_MASK; nwl_write_register(val, ctx, base, REG_DMA_ENG_CTRL_STATUS); } // Clean buffers if (info->ring) { pcilib_free_kernel_memory(ctx->pcilib, info->ring, info->preserve?PCILIB_KMEM_FLAG_REUSE:0); info->ring = NULL; } if (info->pages) { pcilib_free_kernel_memory(ctx->pcilib, info->pages, info->preserve?PCILIB_KMEM_FLAG_REUSE:0); info->pages = NULL; } nwl_read_register(val, ctx, info->base_addr, REG_DMA_ENG_CTRL_STATUS); return 0; } int dma_nwl_write_fragment(pcilib_dma_context_t *vctx, pcilib_dma_engine_t dma, uintptr_t addr, size_t size, pcilib_dma_flags_t flags, pcilib_timeout_t timeout, void *data, size_t *written) { int err; size_t pos; size_t bufnum; nwl_dma_t *ctx = (nwl_dma_t*)vctx; pcilib_nwl_engine_description_t *info = ctx->engines + dma; err = dma_nwl_start(ctx, dma, PCILIB_DMA_FLAGS_DEFAULT); if (err) return err; if (data) { for (pos = 0; pos < size; pos += info->page_size) { int block_size = min2(size - pos, info->page_size); bufnum = dma_nwl_get_next_buffer(ctx, info, 1, timeout); if (bufnum == PCILIB_DMA_BUFFER_INVALID) { if (written) *written = pos; return PCILIB_ERROR_TIMEOUT; } void *buf = pcilib_kmem_get_block_ua(ctx->pcilib, info->pages, bufnum); memcpy(buf, data, block_size); err = dma_nwl_push_buffer(ctx, info, block_size, (flags&PCILIB_DMA_FLAG_EOP)&&((pos + block_size) == size), timeout); if (err) { if (written) *written = pos; return err; } } } if (written) *written = size; if (flags&PCILIB_DMA_FLAG_WAIT) { bufnum = dma_nwl_get_next_buffer(ctx, info, PCILIB_NWL_DMA_PAGES - 1, timeout); if (bufnum == PCILIB_DMA_BUFFER_INVALID) return PCILIB_ERROR_TIMEOUT; } return 0; } int dma_nwl_stream_read(pcilib_dma_context_t *vctx, pcilib_dma_engine_t dma, uintptr_t addr, size_t size, pcilib_dma_flags_t flags, pcilib_timeout_t timeout, pcilib_dma_callback_t cb, void *cbattr) { int err, ret; size_t res = 0; size_t bufnum; size_t bufsize; nwl_dma_t *ctx = (nwl_dma_t*)vctx; size_t buf_size; int eop; pcilib_nwl_engine_description_t *info = ctx->engines + dma; err = dma_nwl_start(ctx, dma, PCILIB_DMA_FLAGS_DEFAULT); if (err) return err; do { bufnum = dma_nwl_wait_buffer(ctx, info, &bufsize, &eop, timeout); if (bufnum == PCILIB_DMA_BUFFER_INVALID) return PCILIB_ERROR_TIMEOUT; #ifdef NWL_FIX_EOP_FOR_BIG_PACKETS if (size > 65536) { // printf("%i %i\n", res + bufsize, size); if ((res+bufsize) < size) eop = 0; else if ((res+bufsize) == size) eop = 1; } #endif /* NWL_FIX_EOP_FOR_BIG_PACKETS */ //sync void *buf = pcilib_kmem_get_block_ua(ctx->pcilib, info->pages, bufnum); ret = cb(cbattr, eop?PCILIB_DMA_FLAG_EOP:0, bufsize, buf); dma_nwl_return_buffer(ctx, info); res += bufsize; } while (ret); return 0; }