//#define PCILIB_FILE_IO #define _BSD_SOURCE #define _POSIX_C_SOURCE 200809L #include #include #include #include #include #include #include #include #include #include #include #include #include "pcilib.h" #include "pci.h" #include "tools.h" #include "error.h" #include "model.h" #include "plugin.h" static int pcilib_detect_model(pcilib_t *ctx, const char *model) { int i, j; const pcilib_model_description_t *model_info = NULL; const pcilib_board_info_t *board_info = pcilib_get_board_info(ctx); model_info = pcilib_find_plugin_model(ctx, board_info->vendor_id, board_info->device_id, model); if (model_info) { memcpy(&ctx->model_info, model_info, sizeof(pcilib_model_description_t)); memcpy(&ctx->dma, model_info->dma, sizeof(pcilib_dma_description_t)); ctx->model = strdup(model_info->name); } else if (model) { // If not found, check for DMA models for (i = 0; pcilib_dma[i].name; i++) { if (!strcasecmp(model, pcilib_dma[i].name)) break; } if (pcilib_dma[i].api) { model_info = &ctx->model_info; memcpy(&ctx->dma, &pcilib_dma[i], sizeof(pcilib_dma_description_t)); ctx->model_info.dma = &ctx->dma; } } // Precedens of register configuration: DMA/Event Initialization (top), XML, Event Description, DMA Description (least) if (model_info) { const pcilib_dma_description_t *dma = model_info->dma; if (dma) { if (dma->banks) pcilib_add_register_banks(ctx, 0, dma->banks); if (dma->registers) pcilib_add_registers(ctx, 0, dma->registers); if (dma->engines) { for (j = 0; dma->engines[j].addr_bits; j++); memcpy(ctx->engines, dma->engines, j * sizeof(pcilib_dma_engine_description_t)); ctx->num_engines = j; } else ctx->dma.engines = ctx->engines; } if (model_info->protocols) pcilib_add_register_protocols(ctx, 0, model_info->protocols); if (model_info->banks) pcilib_add_register_banks(ctx, 0, model_info->banks); if (model_info->registers) pcilib_add_registers(ctx, 0, model_info->registers); if (model_info->ranges) pcilib_add_register_ranges(ctx, 0, model_info->ranges); } // Load XML registers // Check for all installed models // memcpy(&ctx->model_info, model, sizeof(pcilib_model_description_t)); // how we reconcile the banks from event model and dma description? The banks specified in the DMA description should override corresponding banks of events... if ((model)&&(!model_info)/*&&(no xml)*/) return PCILIB_ERROR_NOTFOUND; return 0; } pcilib_t *pcilib_open(const char *device, const char *model) { int err; size_t i; pcilib_t *ctx = malloc(sizeof(pcilib_t)); if (ctx) { memset(ctx, 0, sizeof(pcilib_t)); ctx->handle = open(device, O_RDWR); if (ctx->handle < 0) { pcilib_error("Error opening device (%s)", device); free(ctx); return NULL; } ctx->page_mask = (uintptr_t)-1; ctx->alloc_reg = PCILIB_DEFAULT_REGISTER_SPACE; ctx->registers = (pcilib_register_description_t *)malloc(PCILIB_DEFAULT_REGISTER_SPACE * sizeof(pcilib_register_description_t)); /* ctx->banks = (pcilib_register_bank_context_t *)malloc(PCILIB_MAX_BANKS * sizeof(pcilib_register_bank_context_t)); ctx->ranges = (pcilib_register_range_t *)malloc(PCILIB_MAX_RANGES * sizeof(pcilib_register_range_t)); ctx->protocols ctx->engines*/ if ((!ctx->registers)/*||(!ctx->banks)||(!ctx->ranges)*/) { pcilib_error("Error allocating memory for register model"); pcilib_close(ctx); free(ctx); return NULL; } memset(ctx->registers, 0, sizeof(pcilib_register_description_t)); memset(ctx->banks, 0, sizeof(pcilib_register_bank_description_t)); memset(ctx->ranges, 0, sizeof(pcilib_register_range_t)); for (i = 0; pcilib_protocols[i].api; i++); memcpy(ctx->protocols, pcilib_protocols, i * sizeof(pcilib_register_protocol_description_t)); ctx->num_protocols = i; err = pcilib_detect_model(ctx, model); if (err) { const pcilib_board_info_t *board_info = pcilib_get_board_info(ctx); if (board_info) pcilib_error("Error (%i) configuring model %s (%x:%x)", err, (model?model:""), board_info->vendor_id, board_info->device_id); else pcilib_error("Error (%i) configuring model %s", err, (model?model:"")); pcilib_close(ctx); free(ctx); return NULL; } if (!ctx->model) ctx->model = strdup(model?model:"pci"); ctx->model_info.registers = ctx->registers; ctx->model_info.banks = ctx->banks; ctx->model_info.protocols = ctx->protocols; ctx->model_info.ranges = ctx->ranges; err = pcilib_init_register_banks(ctx); if (err) { pcilib_error("Error (%i) initializing regiser banks\n", err); pcilib_close(ctx); free(ctx); return NULL; } err = pcilib_init_event_engine(ctx); if (err) { pcilib_error("Error (%i) initializing event engine\n", err); pcilib_close(ctx); free(ctx); return NULL; } } return ctx; } const pcilib_board_info_t *pcilib_get_board_info(pcilib_t *ctx) { int ret; if (ctx->page_mask == (uintptr_t)-1) { ret = ioctl( ctx->handle, PCIDRIVER_IOC_PCI_INFO, &ctx->board_info ); if (ret) { pcilib_error("PCIDRIVER_IOC_PCI_INFO ioctl have failed"); return NULL; } ctx->page_mask = pcilib_get_page_mask(); } return &ctx->board_info; } pcilib_context_t *pcilib_get_implementation_context(pcilib_t *ctx) { return ctx->event_ctx; } static pcilib_bar_t pcilib_detect_bar(pcilib_t *ctx, uintptr_t addr, size_t size) { int n = 0; pcilib_bar_t i; const pcilib_board_info_t *board_info = pcilib_get_board_info(ctx); if (!board_info) return PCILIB_BAR_INVALID; for (i = 0; i < PCILIB_MAX_BARS; i++) { if (board_info->bar_length[i] > 0) { if ((addr >= board_info->bar_start[i])&&((board_info->bar_start[i] + board_info->bar_length[i]) >= (addr + size))) return i; if (n) n = -1; else n = i + 1; } } if (n > 0) return n - 1; return PCILIB_BAR_INVALID; } int pcilib_detect_address(pcilib_t *ctx, pcilib_bar_t *bar, uintptr_t *addr, size_t size) { const pcilib_board_info_t *board_info = pcilib_get_board_info(ctx); if (!board_info) return PCILIB_ERROR_NOTFOUND; if (*bar == PCILIB_BAR_DETECT) { *bar = pcilib_detect_bar(ctx, *addr, size); if (*bar == PCILIB_BAR_INVALID) { pcilib_error("The requested data block at address 0x%x with size %zu does not belongs to any available memory bank", *addr, size); return PCILIB_ERROR_NOTFOUND; } if (*addr < board_info->bar_start[*bar]) *addr += board_info->bar_start[*bar]; } else { if ((*addr < board_info->bar_start[*bar])||((board_info->bar_start[*bar] + board_info->bar_length[*bar]) < (((uintptr_t)*addr) + size))) { if ((board_info->bar_length[*bar]) >= (((uintptr_t)*addr) + size)) { *addr += board_info->bar_start[*bar]; } else { pcilib_error("The requested data block at address 0x%x with size %zu does not belong the specified memory bank (Bar %i: starting at 0x%x with size 0x%x)", *addr, size, *bar, board_info->bar_start[*bar], board_info->bar_length[*bar]); return PCILIB_ERROR_NOTFOUND; } } } *addr -= board_info->bar_start[*bar]; *addr += board_info->bar_start[*bar] & ctx->page_mask; return 0; } void *pcilib_map_bar(pcilib_t *ctx, pcilib_bar_t bar) { void *res; int ret; const pcilib_board_info_t *board_info = pcilib_get_board_info(ctx); if (!board_info) return NULL; if (ctx->bar_space[bar]) return ctx->bar_space[bar]; ret = ioctl( ctx->handle, PCIDRIVER_IOC_MMAP_MODE, PCIDRIVER_MMAP_PCI ); if (ret) { pcilib_error("PCIDRIVER_IOC_MMAP_MODE ioctl have failed", bar); return NULL; } ret = ioctl( ctx->handle, PCIDRIVER_IOC_MMAP_AREA, PCIDRIVER_BAR0 + bar ); if (ret) { pcilib_error("PCIDRIVER_IOC_MMAP_AREA ioctl have failed for bank %i", bar); return NULL; } #ifdef PCILIB_FILE_IO file_io_handle = open("/root/data", O_RDWR); res = mmap( 0, board_info->bar_length[bar], PROT_WRITE | PROT_READ, MAP_SHARED, ctx->file_io_handle, 0 ); #else res = mmap( 0, board_info->bar_length[bar], PROT_WRITE | PROT_READ, MAP_SHARED, ctx->handle, 0 ); #endif if ((!res)||(res == MAP_FAILED)) { pcilib_error("Failed to mmap data bank %i", bar); return NULL; } return res; } void pcilib_unmap_bar(pcilib_t *ctx, pcilib_bar_t bar, void *data) { const pcilib_board_info_t *board_info = pcilib_get_board_info(ctx); if (!board_info) return; if (ctx->bar_space[bar]) return; munmap(data, board_info->bar_length[bar]); #ifdef PCILIB_FILE_IO close(ctx->file_io_handle); #endif } int pcilib_map_register_space(pcilib_t *ctx) { int err; pcilib_register_bank_t i; if (!ctx->reg_bar_mapped) { const pcilib_model_description_t *model_info = pcilib_get_model_description(ctx); const pcilib_register_bank_description_t *banks = model_info->banks; for (i = 0; ((banks)&&(banks[i].access)); i++) { // uint32_t buf[2]; void *reg_space; pcilib_bar_t bar = banks[i].bar; if (bar == PCILIB_BAR_DETECT) { uintptr_t addr = banks[0].read_addr; err = pcilib_detect_address(ctx, &bar, &addr, 1); if (err) return err; if (!ctx->bar_space[bar]) { reg_space = pcilib_map_bar(ctx, bar); // pcilib_memcpy(&buf, reg_space, 8); if (reg_space) { ctx->bar_space[bar] = reg_space; } else { return PCILIB_ERROR_FAILED; } } } else if (!ctx->bar_space[bar]) { reg_space = pcilib_map_bar(ctx, bar); if (reg_space) { ctx->bar_space[bar] = reg_space; } else { return PCILIB_ERROR_FAILED; } // pcilib_memcpy(&buf, reg_space, 8); } if (!i) ctx->reg_bar = bar; } ctx->reg_bar_mapped = 1; } return 0; } int pcilib_map_data_space(pcilib_t *ctx, uintptr_t addr) { int err; pcilib_bar_t i; if (!ctx->data_bar_mapped) { const pcilib_board_info_t *board_info = pcilib_get_board_info(ctx); if (!board_info) return PCILIB_ERROR_FAILED; err = pcilib_map_register_space(ctx); if (err) { pcilib_error("Error mapping register space"); return err; } int data_bar = -1; for (i = 0; i < PCILIB_MAX_BARS; i++) { if ((ctx->bar_space[i])||(!board_info->bar_length[i])) continue; if (addr) { if (board_info->bar_start[i] == addr) { data_bar = i; break; } } else { if (data_bar >= 0) { data_bar = -1; break; } data_bar = i; } } if (data_bar < 0) { if (addr) pcilib_error("Unable to find the specified data space (%lx)", addr); else pcilib_error("Unable to find the data space"); return PCILIB_ERROR_NOTFOUND; } ctx->data_bar = data_bar; if (!ctx->bar_space[data_bar]) { char *data_space = pcilib_map_bar(ctx, data_bar); if (data_space) ctx->bar_space[data_bar] = data_space; else { pcilib_error("Unable to map the data space"); return PCILIB_ERROR_FAILED; } } ctx->data_bar_mapped = 0; } return 0; } char *pcilib_resolve_register_address(pcilib_t *ctx, pcilib_bar_t bar, uintptr_t addr) { if (bar == PCILIB_BAR_DETECT) { // First checking the default register bar size_t offset = addr - ctx->board_info.bar_start[ctx->reg_bar]; if ((addr > ctx->board_info.bar_start[ctx->reg_bar])&&(offset < ctx->board_info.bar_length[ctx->reg_bar])) { if (!ctx->bar_space[ctx->reg_bar]) { pcilib_error("The register bar is not mapped"); return NULL; } return ctx->bar_space[ctx->reg_bar] + offset + (ctx->board_info.bar_start[ctx->reg_bar] & ctx->page_mask); } // Otherwise trying to detect bar = pcilib_detect_bar(ctx, addr, 1); if (bar != PCILIB_BAR_INVALID) { size_t offset = addr - ctx->board_info.bar_start[bar]; if ((offset < ctx->board_info.bar_length[bar])&&(ctx->bar_space[bar])) { if (!ctx->bar_space[bar]) { pcilib_error("The requested bar (%i) is not mapped", bar); return NULL; } return ctx->bar_space[bar] + offset + (ctx->board_info.bar_start[bar] & ctx->page_mask); } } } else { if (!ctx->bar_space[bar]) { pcilib_error("The requested bar (%i) is not mapped", bar); return NULL; } if (addr < ctx->board_info.bar_length[bar]) { return ctx->bar_space[bar] + addr + (ctx->board_info.bar_start[bar] & ctx->page_mask); } if ((addr >= ctx->board_info.bar_start[bar])&&(addr < (ctx->board_info.bar_start[bar] + ctx->board_info.bar_length[ctx->reg_bar]))) { return ctx->bar_space[bar] + (addr - ctx->board_info.bar_start[bar]) + (ctx->board_info.bar_start[bar] & ctx->page_mask); } } return NULL; } char *pcilib_resolve_data_space(pcilib_t *ctx, uintptr_t addr, size_t *size) { int err; err = pcilib_map_data_space(ctx, addr); if (err) { pcilib_error("Failed to map the specified address space (%lx)", addr); return NULL; } if (size) *size = ctx->board_info.bar_length[ctx->data_bar]; return ctx->bar_space[ctx->data_bar] + (ctx->board_info.bar_start[ctx->data_bar] & ctx->page_mask); } void pcilib_close(pcilib_t *ctx) { pcilib_bar_t i; if (ctx) { const pcilib_model_description_t *model_info = pcilib_get_model_description(ctx); const pcilib_event_api_description_t *eapi = model_info->api; const pcilib_dma_api_description_t *dapi = ctx->dma.api; if ((eapi)&&(eapi->free)) eapi->free(ctx->event_ctx); if ((dapi)&&(dapi->free)) dapi->free(ctx->dma_ctx); pcilib_free_register_banks(ctx); if (ctx->event_plugin) pcilib_plugin_close(ctx->event_plugin); if (ctx->kmem_list) { pcilib_warning("Not all kernel buffers are properly cleaned"); while (ctx->kmem_list) { pcilib_free_kernel_memory(ctx, ctx->kmem_list, 0); } } for (i = 0; i < PCILIB_MAX_BARS; i++) { if (ctx->bar_space[i]) { char *ptr = ctx->bar_space[i]; ctx->bar_space[i] = NULL; pcilib_unmap_bar(ctx, i, ptr); } } if (ctx->registers) free(ctx->registers); if (ctx->model) free(ctx->model); if (ctx->handle >= 0) close(ctx->handle); free(ctx); } } int pcilib_read(pcilib_t *ctx, pcilib_bar_t bar, uintptr_t addr, size_t size, void *buf) { void *data; pcilib_detect_address(ctx, &bar, &addr, size); data = pcilib_map_bar(ctx, bar); pcilib_memcpy(buf, data + addr, size); pcilib_unmap_bar(ctx, bar, data); return 0; } int pcilib_write(pcilib_t *ctx, pcilib_bar_t bar, uintptr_t addr, size_t size, void *buf) { void *data; pcilib_detect_address(ctx, &bar, &addr, size); data = pcilib_map_bar(ctx, bar); pcilib_memcpy(data + addr, buf, size); pcilib_unmap_bar(ctx, bar, data); return 0; } int pcilib_read_fifo(pcilib_t *ctx, pcilib_bar_t bar, uintptr_t addr, uint8_t fifo_size, size_t n, void *buf) { int i; void *data; pcilib_detect_address(ctx, &bar, &addr, fifo_size); data = pcilib_map_bar(ctx, bar); for (i = 0; i < n; i++) { pcilib_memcpy(buf + i * fifo_size, data + addr, fifo_size); } pcilib_unmap_bar(ctx, bar, data); return 0; } int pcilib_write_fifo(pcilib_t *ctx, pcilib_bar_t bar, uintptr_t addr, uint8_t fifo_size, size_t n, void *buf) { int i; void *data; pcilib_detect_address(ctx, &bar, &addr, fifo_size); data = pcilib_map_bar(ctx, bar); for (i = 0; i < n; i++) { pcilib_memcpy(data + addr, buf + i * fifo_size, fifo_size); } pcilib_unmap_bar(ctx, bar, data); return 0; }