/* * This file is part of the flashrom project. * * Copyright (C) 2021 3mdeb Embedded Systems Consulting * * 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; either version 2 of the License, or * (at your option) any later version. * * 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 #include #include "chipdrivers.h" #include "flash.h" #include "libflashrom.h" #include "programmer.h" #include "tests.h" static int unittest_print_cb(enum flashrom_log_level level, const char *fmt, va_list ap) { if (level > FLASHROM_MSG_INFO) return 0; return vfprintf(stderr, fmt, ap); } /* * Tests in this file do not use any mocking, because using write-protect * emulation in dummyflasher programmer is sufficient */ #define LAYOUT_TAIL_REGION_START 0x1000 static void setup_chip(struct flashrom_flashctx *flash, struct flashrom_layout **layout, struct flashchip *chip, const char *programmer_param) { flash->chip = chip; if (layout) { const size_t tail_start = LAYOUT_TAIL_REGION_START; const size_t tail_len = chip->total_size * KiB - 1; assert_int_equal(0, flashrom_layout_new(layout)); assert_int_equal(0, flashrom_layout_add_region(*layout, 0, tail_start - 1, "head")); assert_int_equal(0, flashrom_layout_add_region(*layout, tail_start, tail_len, "tail")); flashrom_layout_set(flash, *layout); } flashrom_set_log_callback((flashrom_log_callback *)&unittest_print_cb); assert_int_equal(0, programmer_init(&programmer_dummy, programmer_param)); /* Assignment below normally happens while probing, but this test is not probing. */ flash->mst = ®istered_masters[0]; } static void teardown(struct flashrom_layout **layout) { assert_int_equal(0, programmer_shutdown()); if (layout) flashrom_layout_release(*layout); } /* Setup the struct for W25Q128.V, all values come from flashchips.c */ static const struct flashchip chip_W25Q128_V = { .vendor = "aklm&dummyflasher", .total_size = 16 * 1024, .page_size = 1024, .tested = TEST_OK_PREW, .read = SPI_CHIP_READ, .write = SPI_CHIP_WRITE256, .unlock = SPI_DISABLE_BLOCKPROTECT, .feature_bits = FEATURE_WRSR_WREN | FEATURE_OTP | FEATURE_WRSR_EXT2 | FEATURE_WRSR2 | FEATURE_WRSR3, .block_erasers = { { .eraseblocks = { {4 * 1024, 4096} }, .block_erase = SPI_BLOCK_ERASE_20, }, { .eraseblocks = { {32 * 1024, 512} }, .block_erase = SPI_BLOCK_ERASE_52, }, { .eraseblocks = { {64 * 1024, 256} }, .block_erase = SPI_BLOCK_ERASE_D8, }, { .eraseblocks = { {16 * 1024 * 1024, 1} }, .block_erase = SPI_BLOCK_ERASE_60, }, { .eraseblocks = { {16 * 1024 * 1024, 1} }, .block_erase = SPI_BLOCK_ERASE_C7, } }, .reg_bits = { .srp = {STATUS1, 7, RW}, .srl = {STATUS2, 0, RW}, .bp = {{STATUS1, 2, RW}, {STATUS1, 3, RW}, {STATUS1, 4, RW}}, .tb = {STATUS1, 5, RW}, .sec = {STATUS1, 6, RW}, .cmp = {STATUS2, 6, RW}, .wps = {STATUS3, 2, RW}, }, .decode_range = DECODE_RANGE_SPI25, }; /* Trying to set an unsupported WP range fails */ void invalid_wp_range_dummyflasher_test_success(void **state) { (void) state; /* unused */ const char *param_dup = "bus=spi,emulate=W25Q128FV,hwwp=no"; struct flashrom_flashctx flash = { 0 }; struct flashchip mock_chip = chip_W25Q128_V; struct flashrom_wp_cfg *wp_cfg; setup_chip(&flash, NULL, &mock_chip, param_dup); assert_int_equal(0, flashrom_wp_cfg_new(&wp_cfg)); flashrom_wp_set_mode(wp_cfg, FLASHROM_WP_MODE_HARDWARE); flashrom_wp_set_range(wp_cfg, 0x1000, 0x1000); assert_int_equal(FLASHROM_WP_ERR_RANGE_UNSUPPORTED, flashrom_wp_write_cfg(&flash, wp_cfg)); teardown(NULL); flashrom_wp_cfg_release(wp_cfg); } /* Enabling hardware WP with a valid range succeeds */ void set_wp_range_dummyflasher_test_success(void **state) { (void) state; /* unused */ const char *param_dup = "bus=spi,emulate=W25Q128FV,hwwp=no"; struct flashrom_flashctx flash = { 0 }; struct flashchip mock_chip = chip_W25Q128_V; struct flashrom_wp_cfg *wp_cfg; size_t start; size_t len; setup_chip(&flash, NULL, &mock_chip, param_dup); /* Use last 4 KiB for a range. */ assert_int_equal(0, flashrom_wp_cfg_new(&wp_cfg)); flashrom_wp_set_mode(wp_cfg, FLASHROM_WP_MODE_HARDWARE); flashrom_wp_set_range(wp_cfg, mock_chip.total_size * KiB - 4 * KiB, 4 * KiB); assert_int_equal(0, flashrom_wp_write_cfg(&flash, wp_cfg)); /* Check that range was set correctly. */ assert_int_equal(0, flashrom_wp_read_cfg(wp_cfg, &flash)); flashrom_wp_get_range(&start, &len, wp_cfg); assert_int_equal(16 * MiB - 4 * KiB, start); assert_int_equal(4 * KiB, len); teardown(NULL); flashrom_wp_cfg_release(wp_cfg); } /* Enable hardware WP and verify that it can not be unset */ void switch_wp_mode_dummyflasher_test_success(void **state) { (void) state; /* unused */ const char *param_dup = "bus=spi,emulate=W25Q128FV,hwwp=yes"; struct flashrom_flashctx flash = { 0 }; struct flashchip mock_chip = chip_W25Q128_V; struct flashrom_wp_cfg *wp_cfg; setup_chip(&flash, NULL, &mock_chip, param_dup); assert_int_equal(0, flashrom_wp_cfg_new(&wp_cfg)); /* Check initial mode. */ assert_int_equal(0, flashrom_wp_read_cfg(wp_cfg, &flash)); assert_int_equal(FLASHROM_WP_MODE_DISABLED, flashrom_wp_get_mode(wp_cfg)); /* Enable hardware protection, which can't be unset because simulated HW WP pin is in active state. */ flashrom_wp_set_mode(wp_cfg, FLASHROM_WP_MODE_HARDWARE); assert_int_equal(0, flashrom_wp_write_cfg(&flash, wp_cfg)); assert_int_equal(0, flashrom_wp_read_cfg(wp_cfg, &flash)); assert_int_equal(FLASHROM_WP_MODE_HARDWARE, flashrom_wp_get_mode(wp_cfg)); /* Check that write-protection mode can't be unset. */ flashrom_wp_set_mode(wp_cfg, FLASHROM_WP_MODE_DISABLED); assert_int_equal(FLASHROM_WP_ERR_VERIFY_FAILED, flashrom_wp_write_cfg(&flash, wp_cfg)); /* Final mode should be "hardware". */ assert_int_equal(0, flashrom_wp_read_cfg(wp_cfg, &flash)); assert_int_equal(FLASHROM_WP_MODE_HARDWARE, flashrom_wp_get_mode(wp_cfg)); teardown(NULL); flashrom_wp_cfg_release(wp_cfg); } /* WP state is decoded correctly from status registers */ void wp_init_from_status_dummyflasher_test_success(void **state) { (void) state; /* unused */ /* * CMP (S14) = 1 (range complement) * SRP1 (S8) = 1 * SRP0 (S7) = 1 (`SRP1 == 1 && SRP0 == 1` is permanent mode) * SEC (S6) = 1 (base unit is a 4 KiB sector) * TB (S5) = 1 (bottom up range) * BP2 (S4) = 0 * BP1 (S3) = 1 * BP0 (S2) = 1 (bp: BP2-0 == 0b011 == 3) * * Range coefficient is `2 ** (bp - 1)`, which is 4 in this case. * Multiplaying that by base unit gives 16 KiB protected region at the * bottom (start of the chip), which is then complemented. */ const char *param_dup = "bus=spi,emulate=W25Q128FV,spi_status=0x41ec"; struct flashrom_flashctx flash = { 0 }; struct flashchip mock_chip = chip_W25Q128_V; struct flashrom_wp_cfg *wp_cfg; size_t start; size_t len; setup_chip(&flash, NULL, &mock_chip, param_dup); assert_int_equal(0, flashrom_wp_cfg_new(&wp_cfg)); /* Verify that WP mode reflects SPI status */ assert_int_equal(0, flashrom_wp_read_cfg(wp_cfg, &flash)); assert_int_equal(FLASHROM_WP_MODE_PERMANENT, flashrom_wp_get_mode(wp_cfg)); flashrom_wp_get_range(&start, &len, wp_cfg); assert_int_equal(0x004000, start); assert_int_equal(0xffc000, len); teardown(NULL); flashrom_wp_cfg_release(wp_cfg); } /* Enabled WP makes full chip erasure fail */ void full_chip_erase_with_wp_dummyflasher_test_success(void **state) { (void) state; /* unused */ struct flashrom_flashctx flash = { 0 }; struct flashrom_layout *layout; struct flashchip mock_chip = chip_W25Q128_V; struct flashrom_wp_cfg *wp_cfg; const char *param_dup = "bus=spi,emulate=W25Q128FV,hwwp=yes"; setup_chip(&flash, &layout, &mock_chip, param_dup); /* Layout regions are created by setup_chip(). */ assert_int_equal(0, flashrom_layout_include_region(layout, "head")); assert_int_equal(0, flashrom_layout_include_region(layout, "tail")); assert_int_equal(0, flashrom_wp_cfg_new(&wp_cfg)); /* Write protection takes effect only after changing SRP values, so at this stage WP is not enabled and erase completes successfully. */ assert_int_equal(0, flashrom_flash_erase(&flash)); /* Write non-erased value to entire chip so that erase operations cannot * be optimized away. */ unsigned long size = flashrom_flash_getsize(&flash); uint8_t *const contents = malloc(size); assert_non_null(contents); memset(contents, UNERASED_VALUE(&flash), size); assert_int_equal(0, flashrom_image_write(&flash, contents, size, NULL)); free(contents); assert_int_equal(0, flashrom_wp_read_cfg(wp_cfg, &flash)); /* Hardware-protect first 4 KiB. */ flashrom_wp_set_range(wp_cfg, 0, 4 * KiB); flashrom_wp_set_mode(wp_cfg, FLASHROM_WP_MODE_HARDWARE); assert_int_equal(0, flashrom_wp_write_cfg(&flash, wp_cfg)); /* Try erasing the chip again. Now that WP is active, the first 4 KiB is protected and we're trying to erase the whole chip, erase should fail. */ assert_int_equal(1, flashrom_flash_erase(&flash)); teardown(&layout); flashrom_wp_cfg_release(wp_cfg); } /* Enabled WP does not block erasing unprotected parts of the chip */ void partial_chip_erase_with_wp_dummyflasher_test_success(void **state) { (void) state; /* unused */ struct flashrom_flashctx flash = { 0 }; struct flashrom_layout *layout; struct flashchip mock_chip = chip_W25Q128_V; struct flashrom_wp_cfg *wp_cfg; const char *param_dup = "bus=spi,emulate=W25Q128FV,hwwp=yes"; setup_chip(&flash, &layout, &mock_chip, param_dup); /* Layout region is created by setup_chip(). */ assert_int_equal(0, flashrom_layout_include_region(layout, "tail")); assert_int_equal(0, flashrom_wp_cfg_new(&wp_cfg)); assert_int_equal(0, flashrom_wp_read_cfg(wp_cfg, &flash)); /* Hardware-protect head region. */ flashrom_wp_set_mode(wp_cfg, FLASHROM_WP_MODE_HARDWARE); flashrom_wp_set_range(wp_cfg, 0, LAYOUT_TAIL_REGION_START); assert_int_equal(0, flashrom_wp_write_cfg(&flash, wp_cfg)); /* First 4 KiB is the only protected part of the chip and the region we included covers only unprotected part, so erase operation should succeed. */ assert_int_equal(0, flashrom_flash_erase(&flash)); teardown(&layout); flashrom_wp_cfg_release(wp_cfg); } /* Chip register values & masks are calculated correctly by WP */ void wp_get_register_values_and_masks(void **state) { (void) state; /* unused */ /* * Test with range: start = 0x004000, lengh = 0xffc000 * * WP should use these bit values: * WPS (S17) = 0 (write protect scheme) * CMP (S14) = 1 (range complement) * SRP1 (S8) = 0 * SRP0 (S7) = 1 (`SRP1 == 1 && SRP0 == 1` is permanent mode) * SEC (S6) = 1 (base unit is a 4 KiB sector) * TB (S5) = 1 (bottom up range) * BP2 (S4) = 0 * BP1 (S3) = 1 * BP0 (S2) = 1 (bp: BP2-0 == 0b011 == 3) * * Register values: * SR1 = 0b11101100 = 0xec * SR2 = 0b01000000 = 0x40 * SR3 = 0b00000000 = 0x00 * * Masks for WP bits in registers: * SR1: 0b11111100 = 0xfc * SR2: 0b01000000 = 0x41 * SR3: 0b00000100 = 0x04 * * All WP bits are RW so write masks should be the same as the bit masks. * */ struct flashrom_flashctx flash = { 0 }; struct flashchip mock_chip = chip_W25Q128_V; struct flashrom_wp_cfg *wp_cfg; uint8_t reg_values[MAX_REGISTERS]; uint8_t bit_masks[MAX_REGISTERS]; uint8_t write_masks[MAX_REGISTERS]; setup_chip(&flash, NULL, &mock_chip, "bus=spi,emulate=W25Q128FV"); assert_int_equal(0, flashrom_wp_cfg_new(&wp_cfg)); flashrom_wp_set_mode(wp_cfg, FLASHROM_WP_MODE_HARDWARE); flashrom_wp_set_range(wp_cfg, 0x004000, 0xffc000); assert_int_equal(0, wp_cfg_to_reg_values(reg_values, bit_masks, write_masks, &flash, wp_cfg)); assert_int_equal(0xec, reg_values[STATUS1]); assert_int_equal(0x40, reg_values[STATUS2]); assert_int_equal(0x00, reg_values[STATUS3]); assert_int_equal(0xfc, bit_masks[STATUS1]); assert_int_equal(0x41, bit_masks[STATUS2]); assert_int_equal(0x04, bit_masks[STATUS3]); assert_int_equal(0xfc, write_masks[STATUS1]); assert_int_equal(0x41, write_masks[STATUS2]); assert_int_equal(0x04, write_masks[STATUS3]); teardown(NULL); flashrom_wp_cfg_release(wp_cfg); }