#define _PCILIB_DMA_NWL_C #include #include #include #include "pci.h" #include "pcilib.h" #include "error.h" #include "tools.h" #include "nwl.h" /* Common DMA registers */ #define REG_DMA_CTRL_STATUS 0x4000 /**< DMA Common Ctrl & Status */ /* These engine registers are applicable to both S2C and C2S channels. * Register field mask and shift definitions are later in this file. */ #define REG_DMA_ENG_CAP 0x00000000 /**< DMA Engine Capabilities */ #define REG_DMA_ENG_CTRL_STATUS 0x00000004 /**< DMA Engine Control */ #define REG_DMA_ENG_NEXT_BD 0x00000008 /**< HW Next desc pointer */ #define REG_SW_NEXT_BD 0x0000000C /**< SW Next desc pointer */ #define REG_DMA_ENG_LAST_BD 0x00000010 /**< HW Last completed pointer */ #define REG_DMA_ENG_ACTIVE_TIME 0x00000014 /**< DMA Engine Active Time */ #define REG_DMA_ENG_WAIT_TIME 0x00000018 /**< DMA Engine Wait Time */ #define REG_DMA_ENG_COMP_BYTES 0x0000001C /**< DMA Engine Completed Bytes */ /* Register masks. The following constants define bit locations of various * control bits in the registers. For further information on the meaning of * the various bit masks, refer to the hardware spec. * * Masks have been written assuming HW bits 0-31 correspond to SW bits 0-31 */ /** @name Bitmasks of REG_DMA_CTRL_STATUS register. * @{ */ #define DMA_INT_ENABLE 0x00000001 /**< Enable global interrupts */ #define DMA_INT_DISABLE 0x00000000 /**< Disable interrupts */ #define DMA_INT_ACTIVE_MASK 0x00000002 /**< Interrupt active? */ #define DMA_INT_PENDING_MASK 0x00000004 /**< Engine interrupt pending */ #define DMA_INT_MSI_MODE 0x00000008 /**< MSI or Legacy mode? */ #define DMA_USER_INT_ENABLE 0x00000010 /**< Enable user interrupts */ #define DMA_USER_INT_ACTIVE_MASK 0x00000020 /**< Int - user interrupt */ #define DMA_USER_INT_ACK 0x00000020 /**< Acknowledge */ #define DMA_MPS_USED 0x00000700 /**< MPS Used */ #define DMA_MRRS_USED 0x00007000 /**< MRRS Used */ #define DMA_S2C_ENG_INT_VAL 0x00FF0000 /**< IRQ value of 1st 8 S2Cs */ #define DMA_C2S_ENG_INT_VAL 0xFF000000 /**< IRQ value of 1st 8 C2Ss */ /** @name Bitmasks of REG_DMA_ENG_CAP register. * @{ */ /* DMA engine characteristics */ #define DMA_ENG_PRESENT_MASK 0x00000001 /**< DMA engine present? */ #define DMA_ENG_DIRECTION_MASK 0x00000002 /**< DMA engine direction */ #define DMA_ENG_C2S 0x00000002 /**< DMA engine - C2S */ #define DMA_ENG_S2C 0x00000000 /**< DMA engine - S2C */ #define DMA_ENG_TYPE_MASK 0x00000030 /**< DMA engine type */ #define DMA_ENG_BLOCK 0x00000000 /**< DMA engine - Block type */ #define DMA_ENG_PACKET 0x00000010 /**< DMA engine - Packet type */ #define DMA_ENG_NUMBER 0x0000FF00 /**< DMA engine number */ #define DMA_ENG_BD_MAX_BC 0x3F000000 /**< DMA engine max buffer size */ /* Shift constants for selected masks */ #define DMA_ENG_NUMBER_SHIFT 8 #define DMA_ENG_BD_MAX_BC_SHIFT 24 #define DMA_ENGINE_PER_SIZE 0x100 /**< Separation between engine regs */ #define DMA_OFFSET 0 /**< Starting register offset */ /**< Size of DMA engine reg space */ #define DMA_SIZE (MAX_DMA_ENGINES * DMA_ENGINE_PER_SIZE) /* pcilib_register_bank_description_t ipecamera_register_banks[] = { { PCILIB_REGISTER_DMABANK0, PCILIB_BAR0, 128, PCILIB_DEFAULT_PROTOCOL, DMA_NWL_OFFSET, DMA_NWL_OFFSET, PCILIB_LITTLE_ENDIAN, 32, PCILIB_LITTLE_ENDIAN, "%lx", "dma", "NorthWest Logick DMA Engine" }, { 0, 0, 0, 0, 0, 0, 0, 0, 0, NULL, NULL, NULL } }; pcilib_register_description_t dma_nwl_registers[] = { {0, 0, 32, 0, PCILIB_REGISTER_R , PCILIB_REGISTER_DMABANK, "dma_capabilities", ""}, {1, 0, 32, 0, PCILIB_REGISTER_RW, PCILIB_REGISTER_DMABANK, "dma_control", ""}, }; */ typedef struct { pcilib_dma_engine_description_t desc; char *base_addr; } pcilib_nwl_engine_description_t; struct nwl_dma_s { pcilib_t *pcilib; pcilib_register_bank_description_t *dma_bank; char *base_addr; pcilib_nwl_engine_description_t engines[PCILIB_MAX_DMA_ENGINES + 1]; }; #define nwl_read_register(var, ctx, base, reg) pcilib_datacpy(&var, base + reg, 4, 1, ctx->dma_bank->raw_endianess) #define nwl_write_register(var, ctx, base, reg) pcilib_datacpy(base + reg, &var, 4, 1, ctx->dma_bank->raw_endianess) static int nwl_read_engine_config(nwl_dma_t *ctx, pcilib_nwl_engine_description_t *info, char *base) { uint32_t val; 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; 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; return 0; } pcilib_dma_context_t *dma_nwl_init(pcilib_t *pcilib) { int i; int err; pcilib_dma_t n_engines; pcilib_model_description_t *model_info = pcilib_get_model_description(pcilib); nwl_dma_t *ctx = malloc(sizeof(nwl_dma_t)); if (ctx) { memset(ctx, 0, sizeof(nwl_dma_t)); ctx->pcilib = pcilib; pcilib_register_bank_t dma_bank = pcilib_find_bank_by_addr(pcilib, PCILIB_REGISTER_BANK_DMA); if (dma_bank == PCILIB_REGISTER_BANK_INVALID) { pcilib_error("DMA Register Bank could not be found"); return NULL; } ctx->dma_bank = model_info->banks + dma_bank; ctx->base_addr = pcilib_resolve_register_address(pcilib, ctx->dma_bank->bar, ctx->dma_bank->read_addr); for (i = 0, n_engines = 0; i < 2 * PCILIB_MAX_DMA_ENGINES; i++) { char *addr = ctx->base_addr + DMA_OFFSET + i * DMA_ENGINE_PER_SIZE; err = nwl_read_engine_config(ctx, ctx->engines + n_engines, addr); if (!err) { ctx->engines[n_engines].base_addr = addr; pcilib_set_dma_engine_description(pcilib, n_engines, (pcilib_dma_engine_description_t*)(ctx->engines + n_engines)); ++n_engines; } } pcilib_set_dma_engine_description(pcilib, n_engines, NULL); } return (pcilib_dma_context_t*)ctx; } void dma_nwl_free(pcilib_dma_context_t *vctx) { nwl_dma_t *ctx = (nwl_dma_t*)vctx; if (ctx) { free(ctx); } }