/* * This file is part of the flashrom project. * * Copyright 2020 Google LLC * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; version 2 of the License. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. */ #include #include "wraps.h" #include "tests.h" #include "programmer.h" #include "flashchips.h" #include "chipdrivers.h" #include "spi.h" struct flashchip mock_chip = { .vendor = "Generic", .name = "unknown SPI chip (RDID)", .bustype = BUS_SPI, .manufacture_id = GENERIC_MANUF_ID, .model_id = GENERIC_DEVICE_ID, .total_size = 0, .page_size = 256, .tested = TEST_BAD_PREW, .probe = PROBE_SPI_RDID, .write = NO_WRITE_FUNC, }; /* * This declaration is needed for visibility, so that wrap below could * redirect to real function. */ int __real_spi_send_command(const struct flashctx *flash, unsigned int writecnt, unsigned int readcnt, const unsigned char *writearr, unsigned char *readarr); int __wrap_spi_send_command(const struct flashctx *flash, unsigned int writecnt, unsigned int readcnt, const unsigned char *writearr, unsigned char *readarr) { if (flash->chip != &mock_chip) /* * Caller is some other test, redirecting to real function. * This test is the only one which uses wrap of spi_send_command, * all other tests use real function. */ return __real_spi_send_command(flash, writecnt, readcnt, writearr, readarr); check_expected_ptr(flash); assert_int_equal(writecnt, mock_type(int)); assert_int_equal(writearr[0], mock_type(int)); int rcnt = mock_type(int); assert_int_equal(readcnt, rcnt); for (int i = 0; i < rcnt; i++) readarr[i] = i; return 0; } static void spi_read_progress_cb(struct flashrom_flashctx *flashctx) { struct flashrom_progress *progress_state = flashctx->progress_state; uint32_t *cnt = (uint32_t *) progress_state->user_data; assert_int_equal(0x300, progress_state->total); switch (*cnt) { case 0: assert_int_equal(0x100, progress_state->current); break; case 1: assert_int_equal(0x200, progress_state->current); break; case 2: assert_int_equal(0x300, progress_state->current); break; case 3: assert_int_equal(0x300, progress_state->current); break; case 4: assert_int_equal(0x300, progress_state->current); break; default: fail(); } (*cnt)++; } void spi_read_chunked_test_success(void **state) { (void) state; /* unused */ uint8_t buf[0x400] = { 0x0 }; uint32_t cnt = 0; const unsigned int max_data_read = 0x100; const unsigned int offset = 0x100; struct registered_master mst = { .spi.read = default_spi_read, .spi.max_data_read = max_data_read }; /* setup initial test state */ struct flashctx flashctx = { .chip = &mock_chip, .mst = &mst }; struct flashrom_progress progress_state = { .user_data = (void *) &cnt, }; flashrom_set_progress_callback(&flashctx, spi_read_progress_cb, &progress_state); for (int i = 0; i < 4; i++) { expect_memory(__wrap_spi_send_command, flash, &flashctx, sizeof(flashctx)); will_return(__wrap_spi_send_command, JEDEC_WRDI); will_return(__wrap_spi_send_command, JEDEC_READ); will_return(__wrap_spi_send_command, max_data_read); } assert_int_equal(0, spi_chip_read(&flashctx, buf, offset, sizeof(buf))); assert_int_equal(5, cnt); } void spi_write_enable_test_success(void **state) { (void) state; /* unused */ /* setup initial test state. */ struct flashctx flashctx = { .chip = &mock_chip }; expect_memory(__wrap_spi_send_command, flash, &flashctx, sizeof(flashctx)); will_return(__wrap_spi_send_command, JEDEC_WREN_OUTSIZE); will_return(__wrap_spi_send_command, JEDEC_WREN); will_return(__wrap_spi_send_command, JEDEC_WREN_INSIZE); assert_int_equal(0, spi_write_enable(&flashctx)); } void spi_write_disable_test_success(void **state) { (void) state; /* unused */ /* setup initial test state. */ struct flashctx flashctx = { .chip = &mock_chip }; expect_memory(__wrap_spi_send_command, flash, &flashctx, sizeof(flashctx)); will_return(__wrap_spi_send_command, JEDEC_WRDI_OUTSIZE); will_return(__wrap_spi_send_command, JEDEC_WRDI); will_return(__wrap_spi_send_command, JEDEC_WRDI_INSIZE); assert_int_equal(0, spi_write_disable(&flashctx)); } void probe_spi_rdid_test_success(void **state) { (void) state; /* unused */ /* setup initial test state. */ struct flashctx flashctx = { .chip = &mock_chip }; expect_memory(__wrap_spi_send_command, flash, &flashctx, sizeof(flashctx)); will_return(__wrap_spi_send_command, JEDEC_RDID_OUTSIZE); will_return(__wrap_spi_send_command, JEDEC_RDID); will_return(__wrap_spi_send_command, JEDEC_RDID_INSIZE); assert_int_equal(0, probe_spi_rdid(&flashctx)); } void probe_spi_rdid4_test_success(void **state) { (void) state; /* unused */ /* setup initial test state. */ struct flashctx flashctx = { .chip = &mock_chip }; expect_memory(__wrap_spi_send_command, flash, &flashctx, sizeof(flashctx)); will_return(__wrap_spi_send_command, JEDEC_RDID_OUTSIZE); will_return(__wrap_spi_send_command, JEDEC_RDID); will_return(__wrap_spi_send_command, JEDEC_RDID_INSIZE + 1); assert_int_equal(0, probe_spi_rdid4(&flashctx)); } void probe_spi_rems_test_success(void **state) { (void) state; /* unused */ /* setup initial test state. */ struct flashctx flashctx = { .chip = &mock_chip }; expect_memory(__wrap_spi_send_command, flash, &flashctx, sizeof(flashctx)); will_return(__wrap_spi_send_command, JEDEC_REMS_OUTSIZE); will_return(__wrap_spi_send_command, JEDEC_REMS); will_return(__wrap_spi_send_command, JEDEC_REMS_INSIZE); assert_int_equal(0, probe_spi_rems(&flashctx)); } void probe_spi_res1_test_success(void **state) { (void) state; /* unused */ /* setup initial test state. */ struct flashctx flashctx = { .chip = &mock_chip }; expect_memory(__wrap_spi_send_command, flash, &flashctx, sizeof(flashctx)); will_return(__wrap_spi_send_command, JEDEC_RES_OUTSIZE); will_return(__wrap_spi_send_command, JEDEC_RES); will_return(__wrap_spi_send_command, JEDEC_RES_INSIZE + 1); assert_int_equal(0, probe_spi_res2(&flashctx)); } void probe_spi_res2_test_success(void **state) { (void) state; /* unused */ /* setup initial test state. */ clear_spi_id_cache(); struct flashctx flashctx = { .chip = &mock_chip }; expect_memory(__wrap_spi_send_command, flash, &flashctx, sizeof(flashctx)); will_return(__wrap_spi_send_command, JEDEC_RES_OUTSIZE); will_return(__wrap_spi_send_command, JEDEC_RES); will_return(__wrap_spi_send_command, JEDEC_RES_INSIZE + 1); assert_int_equal(0, probe_spi_res2(&flashctx)); } void probe_spi_res3_test_success(void **state) { (void) state; /* unused */ /* setup initial test state. */ struct flashctx flashctx = { .chip = &mock_chip }; expect_memory(__wrap_spi_send_command, flash, &flashctx, sizeof(flashctx)); will_return(__wrap_spi_send_command, JEDEC_RES_OUTSIZE); will_return(__wrap_spi_send_command, JEDEC_RES); will_return(__wrap_spi_send_command, JEDEC_RES_INSIZE + 2); assert_int_equal(0, probe_spi_res3(&flashctx)); } void probe_spi_at25f_test_success(void **state) { (void) state; /* unused */ /* setup initial test state. */ struct flashctx flashctx = { .chip = &mock_chip }; expect_memory(__wrap_spi_send_command, flash, &flashctx, sizeof(flashctx)); will_return(__wrap_spi_send_command, AT25F_RDID_OUTSIZE); will_return(__wrap_spi_send_command, AT25F_RDID); will_return(__wrap_spi_send_command, AT25F_RDID_INSIZE); assert_int_equal(0, probe_spi_at25f(&flashctx)); } /* spi95.c */ void probe_spi_st95_test_success(void **state) { (void) state; /* unused */ /* setup initial test state. */ struct flashctx flashctx = { .chip = &mock_chip }; expect_memory(__wrap_spi_send_command, flash, &flashctx, sizeof(flashctx)); /* chip total size < 64K. */ uint32_t rdid_outsize = ST_M95_RDID_2BA_OUTSIZE; // 16 bit address will_return(__wrap_spi_send_command, rdid_outsize); will_return(__wrap_spi_send_command, ST_M95_RDID); will_return(__wrap_spi_send_command, ST_M95_RDID_INSIZE); assert_int_equal(0, probe_spi_st95(&flashctx)); }