// SPDX-License-Identifier: MIT #include #include #include #include #include #include #ifdef __linux__ #include #include #endif #define DEBUG int32_t blisp_device_init(struct blisp_device* device, struct blisp_chip* chip) { device->chip = chip; device->is_usb = false; return 0; } int32_t blisp_device_open(struct blisp_device* device, const char* port_name) { int ret; struct sp_port* serial_port = NULL; if (port_name != NULL) { ret = sp_get_port_by_name(port_name, &serial_port); if (ret != SP_OK) { blisp_dlog("Couldn't open device, err: %d", ret); return BLISP_ERR_CANT_OPEN_DEVICE; } } else { if (!device->chip->usb_isp_available) { return BLISP_ERR_NO_AUTO_FIND_AVAILABLE; } struct sp_port** port_list; ret = sp_list_ports(&port_list); if (ret != SP_OK) { blisp_dlog("Couldn't list ports, err: %d", ret); return BLISP_ERR_UNKNOWN; } for (int i = 0; port_list[i] != NULL; i++) { struct sp_port* port = port_list[i]; int vid, pid; sp_get_port_usb_vid_pid(port, &vid, &pid); if (vid == 0xFFFF && pid == 0xFFFF) { ret = sp_get_port_by_name(sp_get_port_name(port), &serial_port); if (ret != SP_OK) { blisp_dlog("Couldn't open device, err: %d", ret); return BLISP_ERR_CANT_OPEN_DEVICE; } break; } } sp_free_port_list(port_list); if (serial_port == NULL) { return BLISP_ERR_DEVICE_NOT_FOUND; } } ret = sp_open(serial_port, SP_MODE_READ_WRITE); if (ret != SP_OK) { blisp_dlog("SP open failed: %d", ret); return BLISP_ERR_UNKNOWN; // TODO: Maybe this should be that it can't open // device? } // TODO: Handle errors in following functions, although, none of them *should* // fail sp_set_bits(serial_port, 8); sp_set_parity(serial_port, SP_PARITY_NONE); sp_set_stopbits(serial_port, 1); sp_set_flowcontrol(serial_port, SP_FLOWCONTROL_NONE); uint32_t vid, pid; sp_get_port_usb_vid_pid(serial_port, &vid, &pid); device->is_usb = pid == 0xFFFF; // if (device->is_usb) { // device->current_baud_rate = 2000000; // } else { device->current_baud_rate = 500000; // } #if 0 int fd; sp_get_port_handle(serial_port, &fd); struct serial_struct serial; ioctl(fd, TIOCGSERIAL, &serial); // serial.flags &= ~(ASYNC_LOW_LATENCY); serial.flags |= ASYNC_LOW_LATENCY; ioctl(fd, TIOCSSERIAL, &serial); #endif ret = sp_set_baudrate(serial_port, device->current_baud_rate); if (ret != SP_OK) { blisp_dlog("Set baud rate failed: %d... Also hello macOS user :)", ret); return BLISP_ERR_UNKNOWN; } device->serial_port = serial_port; return BLISP_OK; } int32_t blisp_send_command(struct blisp_device* device, uint8_t command, void* payload, uint16_t payload_size, bool add_checksum) { int ret; struct sp_port* serial_port = device->serial_port; device->tx_buffer[0] = command; device->tx_buffer[1] = 0; device->tx_buffer[2] = payload_size & 0xFF; device->tx_buffer[3] = (payload_size >> 8) & 0xFF; if (add_checksum) { uint32_t checksum = 0; checksum += device->tx_buffer[2] + device->tx_buffer[3]; for (uint16_t i = 0; i < payload_size; i++) { checksum += *(uint8_t*)((uint8_t*)payload + i); } device->tx_buffer[1] = checksum & 0xFF; } if (payload_size != 0) { memcpy(&device->tx_buffer[4], payload, payload_size); } ret = sp_blocking_write(serial_port, device->tx_buffer, 4 + payload_size, 1000); if (ret != (4 + payload_size)) { blisp_dlog("Received error or not written all data: %d", ret); return BLISP_ERR_UNKNOWN; } return BLISP_OK; } int32_t blisp_receive_response(struct blisp_device* device, bool expect_payload) { // TODO: Check checksum int ret; struct sp_port* serial_port = device->serial_port; ret = sp_blocking_read(serial_port, &device->rx_buffer[0], 2, 1000); if (ret < 2) { blisp_dlog("Failed to receive response, ret: %d", ret); return BLISP_ERR_UNKNOWN; // TODO: Terrible } else if (device->rx_buffer[0] == 'O' && device->rx_buffer[1] == 'K') { if (expect_payload) { sp_blocking_read(serial_port, &device->rx_buffer[2], 2, 100); // TODO: Check if really we received the data. uint16_t data_length = (device->rx_buffer[3] << 8) | (device->rx_buffer[2]); sp_blocking_read(serial_port, &device->rx_buffer[0], data_length, 100); return data_length; } return 0; } else if (device->rx_buffer[0] == 'P' && device->rx_buffer[1] == 'D') { return BLISP_ERR_PENDING; // TODO: This might be rather positive return // number? } else if (device->rx_buffer[0] == 'F' && device->rx_buffer[1] == 'L') { sp_blocking_read(serial_port, &device->rx_buffer[2], 2, 100); device->error_code = (device->rx_buffer[3] << 8) | (device->rx_buffer[2]); blisp_dlog("Chip returned error: %d", device->error_code); return BLISP_ERR_CHIP_ERR; } blisp_dlog("Failed to receive any response (err: %d, %d - %d)", ret, device->rx_buffer[0], device->rx_buffer[1]); return BLISP_ERR_UNKNOWN; } int32_t blisp_device_handshake(struct blisp_device* device, bool in_ef_loader) { int ret; uint8_t handshake_buffer[600]; struct sp_port* serial_port = device->serial_port; if (!in_ef_loader && !device->is_usb) { sp_set_rts(serial_port, SP_RTS_ON); sp_set_dtr(serial_port, SP_DTR_ON); sleep_ms(50); sp_set_dtr(serial_port, SP_DTR_OFF); sleep_ms(100); sp_set_rts(serial_port, SP_RTS_OFF); sleep_ms(50); // Wait a bit so BootROM can init } uint32_t bytes_count = device->chip->handshake_byte_multiplier * (float)device->current_baud_rate / 10.0f; if (bytes_count > 600) bytes_count = 600; memset(handshake_buffer, 'U', bytes_count); for (uint8_t i = 0; i < 5; i++) { if (!in_ef_loader) { if (device->is_usb) { sp_blocking_write(serial_port, "BOUFFALOLAB5555RESET\0\0", 22, 100); } } ret = sp_blocking_write(serial_port, handshake_buffer, bytes_count, 500); if (ret < 0) { blisp_dlog("Handshake write failed, ret %d", ret); return BLISP_ERR_UNKNOWN; } if (!in_ef_loader && !device->is_usb) { sp_drain(serial_port); // Wait for write to send all data sp_flush(serial_port, SP_BUF_INPUT); // Flush garbage out of RX } ret = sp_blocking_read(serial_port, device->rx_buffer, 2, 50); if (ret >= 2) { if (device->rx_buffer[0] == 'O' && device->rx_buffer[1] == 'K') { return BLISP_OK; } } } blisp_dlog("Received no response from chip."); return BLISP_ERR_NO_RESPONSE; } int32_t blisp_device_get_boot_info(struct blisp_device* device, struct blisp_boot_info* boot_info) { int ret; ret = blisp_send_command(device, 0x10, NULL, 0, false); if (ret < 0) return ret; ret = blisp_receive_response(device, true); if (ret < 0) return ret; memcpy(boot_info->boot_rom_version, &device->rx_buffer[0], 4); // TODO: Endianess if (device->chip->type == BLISP_CHIP_BL70X) { memcpy(boot_info->chip_id, &device->rx_buffer[16], 8); } // TODO: BL60X return BLISP_OK; } // TODO: Use struct instead of uint8_t* int32_t blisp_device_load_boot_header(struct blisp_device* device, uint8_t* boot_header) { int ret; ret = blisp_send_command(device, 0x11, boot_header, 176, false); if (ret < 0) return ret; ret = blisp_receive_response(device, false); if (ret < 0) return ret; return BLISP_OK; } int32_t blisp_device_load_segment_header( struct blisp_device* device, struct blisp_segment_header* segment_header) { int ret; ret = blisp_send_command(device, 0x17, segment_header, 16, false); if (ret < 0) return ret; ret = blisp_receive_response(device, true); // TODO: Handle response if (ret < 0) return ret; return BLISP_OK; } int32_t blisp_device_load_segment_data(struct blisp_device* device, uint8_t* segment_data, uint32_t segment_data_length) { int ret; ret = blisp_send_command(device, 0x18, segment_data, segment_data_length, false); if (ret < 0) return ret; ret = blisp_receive_response(device, false); if (ret < 0) return ret; return BLISP_OK; } int32_t blisp_device_check_image(struct blisp_device* device) { int ret; ret = blisp_send_command(device, 0x19, NULL, 0, false); if (ret < 0) return ret; ret = blisp_receive_response(device, false); if (ret < 0) return ret; return BLISP_OK; } int32_t blisp_device_write_memory(struct blisp_device* device, uint32_t address, uint32_t value, bool wait_for_res) { int ret; uint8_t payload[8]; *(uint32_t*)(payload) = address; *(uint32_t*)(payload + 4) = value; // TODO: Endianness ret = blisp_send_command(device, 0x50, payload, 8, true); if (ret < 0) return ret; if (wait_for_res) { ret = blisp_receive_response(device, false); if (ret < 0) return ret; } return BLISP_OK; } int32_t blisp_device_run_image(struct blisp_device* device) { int ret; if (device->chip->type == BLISP_CHIP_BL70X) { // ERRATA ret = blisp_device_write_memory(device, 0x4000F100, 0x4E424845, true); if (ret < 0) return ret; ret = blisp_device_write_memory(device, 0x4000F104, 0x22010000, true); if (ret < 0) return ret; // ret = blisp_device_write_memory(device, 0x40000018, 0x00000000); // if (ret < 0) return ret; ret = blisp_device_write_memory(device, 0x40000018, 0x00000002, false); if (ret < 0) return ret; return BLISP_OK; } ret = blisp_send_command(device, 0x1A, NULL, 0, false); if (ret < 0) return ret; ret = blisp_receive_response(device, false); if (ret < 0) return ret; return BLISP_OK; } int32_t blisp_device_flash_erase(struct blisp_device* device, uint32_t start_address, uint32_t end_address) { uint8_t payload[8]; *(uint32_t*)(payload + 0) = start_address; *(uint32_t*)(payload + 4) = end_address; int ret = blisp_send_command(device, 0x30, payload, 8, true); if (ret < 0) return ret; do { ret = blisp_receive_response(device, false); } while (ret == BLISP_ERR_PENDING); return 0; } int32_t blisp_device_flash_write(struct blisp_device* device, uint32_t start_address, uint8_t* payload, uint32_t payload_size) { // TODO: Add max payload size (8184?) // TODO: Don't use malloc + add check uint8_t* buffer = malloc(4 + payload_size); *((uint32_t*)(buffer)) = start_address; memcpy(buffer + 4, payload, payload_size); int ret = blisp_send_command(device, 0x31, buffer, payload_size + 4, true); if (ret < 0) goto exit1; ret = blisp_receive_response(device, false); exit1: free(buffer); return ret; } int32_t blisp_device_program_check(struct blisp_device* device) { int ret = blisp_send_command(device, 0x3A, NULL, 0, true); if (ret < 0) return ret; ret = blisp_receive_response(device, false); if (ret < 0) return ret; return 0; } int32_t blisp_device_reset(struct blisp_device* device) { int ret = blisp_send_command(device, 0x21, NULL, 0, true); if (ret < 0) return ret; ret = blisp_receive_response(device, false); if (ret < 0) return ret; return BLISP_OK; } void blisp_device_close(struct blisp_device* device) { struct sp_port* serial_port = device->serial_port; sp_close(serial_port); }