/* * QTest testcase for PowerNV 10 Seeprom Communications * * Copyright (c) 2024, IBM Corporation. * * SPDX-License-Identifier: GPL-2.0-or-later */ #include #include "qemu/osdep.h" #include "libqtest.h" #include "qemu/bswap.h" #include "hw/ssi/pnv_spi_regs.h" #include "pnv-xscom.h" #define FLASH_SIZE (512 * 1024) #define SPIC2_XSCOM_BASE 0xc0040 /* To transmit READ opcode and address */ #define READ_OP_TDR_DATA 0x0300010000000000 /* * N1 shift - tx 4 bytes (transmit opcode and address) * N2 shift - tx and rx 8 bytes. */ #define READ_OP_COUNTER_CONFIG 0x2040000000002b00 /* SEQ_OP_SELECT_RESPONDER - N1 Shift - N2 Shift * 5 - SEQ_OP_STOP */ #define READ_OP_SEQUENCER 0x1130404040404010 /* To transmit WREN(Set Write Enable Latch in status0 register) opcode */ #define WRITE_OP_WREN 0x0600000000000000 /* To transmit WRITE opcode, address and data */ #define WRITE_OP_TDR_DATA 0x0300010012345678 /* N1 shift - tx 8 bytes (transmit opcode, address and data) */ #define WRITE_OP_COUNTER_CONFIG 0x4000000000002000 /* SEQ_OP_SELECT_RESPONDER - N1 Shift - SEQ_OP_STOP */ #define WRITE_OP_SEQUENCER 0x1130100000000000 static void pnv_spi_xscom_write(QTestState *qts, const PnvChip *chip, uint32_t reg, uint64_t val) { uint32_t pcba = SPIC2_XSCOM_BASE + reg; qtest_writeq(qts, pnv_xscom_addr(chip, pcba), val); } static uint64_t pnv_spi_xscom_read(QTestState *qts, const PnvChip *chip, uint32_t reg) { uint32_t pcba = SPIC2_XSCOM_BASE + reg; return qtest_readq(qts, pnv_xscom_addr(chip, pcba)); } static void spi_seeprom_transaction(QTestState *qts, const PnvChip *chip) { /* SPI transactions to SEEPROM to read from SEEPROM image */ pnv_spi_xscom_write(qts, chip, SPI_CTR_CFG_REG, READ_OP_COUNTER_CONFIG); pnv_spi_xscom_write(qts, chip, SPI_SEQ_OP_REG, READ_OP_SEQUENCER); pnv_spi_xscom_write(qts, chip, SPI_XMIT_DATA_REG, READ_OP_TDR_DATA); pnv_spi_xscom_write(qts, chip, SPI_XMIT_DATA_REG, 0); /* Read 5*8 bytes from SEEPROM at 0x100 */ uint64_t rdr_val = pnv_spi_xscom_read(qts, chip, SPI_RCV_DATA_REG); g_test_message("RDR READ = 0x%" PRIx64, rdr_val); rdr_val = pnv_spi_xscom_read(qts, chip, SPI_RCV_DATA_REG); rdr_val = pnv_spi_xscom_read(qts, chip, SPI_RCV_DATA_REG); rdr_val = pnv_spi_xscom_read(qts, chip, SPI_RCV_DATA_REG); rdr_val = pnv_spi_xscom_read(qts, chip, SPI_RCV_DATA_REG); g_test_message("RDR READ = 0x%" PRIx64, rdr_val); /* SPI transactions to SEEPROM to write to SEEPROM image */ pnv_spi_xscom_write(qts, chip, SPI_CTR_CFG_REG, WRITE_OP_COUNTER_CONFIG); /* Set Write Enable Latch bit of status0 register */ pnv_spi_xscom_write(qts, chip, SPI_SEQ_OP_REG, WRITE_OP_SEQUENCER); pnv_spi_xscom_write(qts, chip, SPI_XMIT_DATA_REG, WRITE_OP_WREN); /* write 8 bytes to SEEPROM at 0x100 */ pnv_spi_xscom_write(qts, chip, SPI_SEQ_OP_REG, WRITE_OP_SEQUENCER); pnv_spi_xscom_write(qts, chip, SPI_XMIT_DATA_REG, WRITE_OP_TDR_DATA); } static void test_spi_seeprom(const void *data) { const PnvChip *chip = data; QTestState *qts = NULL; g_autofree char *tmp_path = NULL; int ret; int fd; /* Create a temporary raw image */ fd = g_file_open_tmp("qtest-seeprom-XXXXXX", &tmp_path, NULL); g_assert(fd >= 0); ret = ftruncate(fd, FLASH_SIZE); g_assert(ret == 0); close(fd); qts = qtest_initf("-machine powernv10 -smp 2,cores=2," "threads=1 -accel tcg,thread=single -nographic " "-blockdev node-name=pib_spic2,driver=file," "filename=%s -device 25csm04,bus=pnv-spi-bus.2,cs=0," "drive=pib_spic2", tmp_path); spi_seeprom_transaction(qts, chip); qtest_quit(qts); unlink(tmp_path); } int main(int argc, char **argv) { g_test_init(&argc, &argv, NULL); char *tname = g_strdup_printf("pnv-xscom/spi-seeprom/%s", pnv_chips[3].cpu_model); qtest_add_data_func(tname, &pnv_chips[3], test_spi_seeprom); g_free(tname); return g_test_run(); }