/* * QTests for Nuvoton NPCM7xx/8xx GMAC Modules. * * Copyright 2024 Google LLC * Authors: * Hao Wu * Nabih Estefan * * 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 "qemu/osdep.h" #include "libqos/libqos.h" /* Name of the GMAC Device */ #define TYPE_NPCM_GMAC "npcm-gmac" /* Address of the PCS Module */ #define PCS_BASE_ADDRESS 0xf0780000 #define NPCM_PCS_IND_AC_BA 0x1fe typedef struct GMACModule { int irq; uint64_t base_addr; } GMACModule; typedef struct TestData { const GMACModule *module; } TestData; /* Values extracted from hw/arm/npcm8xx.c */ static const GMACModule gmac_module_list[] = { { .irq = 14, .base_addr = 0xf0802000 }, { .irq = 15, .base_addr = 0xf0804000 }, { .irq = 16, .base_addr = 0xf0806000 }, { .irq = 17, .base_addr = 0xf0808000 } }; /* Returns the index of the GMAC module. */ static int gmac_module_index(const GMACModule *mod) { ptrdiff_t diff = mod - gmac_module_list; g_assert_true(diff >= 0 && diff < ARRAY_SIZE(gmac_module_list)); return diff; } /* 32-bit register indices. Taken from npcm_gmac.c */ typedef enum NPCMRegister { /* DMA Registers */ NPCM_DMA_BUS_MODE = 0x1000, NPCM_DMA_XMT_POLL_DEMAND = 0x1004, NPCM_DMA_RCV_POLL_DEMAND = 0x1008, NPCM_DMA_RCV_BASE_ADDR = 0x100c, NPCM_DMA_TX_BASE_ADDR = 0x1010, NPCM_DMA_STATUS = 0x1014, NPCM_DMA_CONTROL = 0x1018, NPCM_DMA_INTR_ENA = 0x101c, NPCM_DMA_MISSED_FRAME_CTR = 0x1020, NPCM_DMA_HOST_TX_DESC = 0x1048, NPCM_DMA_HOST_RX_DESC = 0x104c, NPCM_DMA_CUR_TX_BUF_ADDR = 0x1050, NPCM_DMA_CUR_RX_BUF_ADDR = 0x1054, NPCM_DMA_HW_FEATURE = 0x1058, /* GMAC Registers */ NPCM_GMAC_MAC_CONFIG = 0x0, NPCM_GMAC_FRAME_FILTER = 0x4, NPCM_GMAC_HASH_HIGH = 0x8, NPCM_GMAC_HASH_LOW = 0xc, NPCM_GMAC_MII_ADDR = 0x10, NPCM_GMAC_MII_DATA = 0x14, NPCM_GMAC_FLOW_CTRL = 0x18, NPCM_GMAC_VLAN_FLAG = 0x1c, NPCM_GMAC_VERSION = 0x20, NPCM_GMAC_WAKEUP_FILTER = 0x28, NPCM_GMAC_PMT = 0x2c, NPCM_GMAC_LPI_CTRL = 0x30, NPCM_GMAC_TIMER_CTRL = 0x34, NPCM_GMAC_INT_STATUS = 0x38, NPCM_GMAC_INT_MASK = 0x3c, NPCM_GMAC_MAC0_ADDR_HI = 0x40, NPCM_GMAC_MAC0_ADDR_LO = 0x44, NPCM_GMAC_MAC1_ADDR_HI = 0x48, NPCM_GMAC_MAC1_ADDR_LO = 0x4c, NPCM_GMAC_MAC2_ADDR_HI = 0x50, NPCM_GMAC_MAC2_ADDR_LO = 0x54, NPCM_GMAC_MAC3_ADDR_HI = 0x58, NPCM_GMAC_MAC3_ADDR_LO = 0x5c, NPCM_GMAC_RGMII_STATUS = 0xd8, NPCM_GMAC_WATCHDOG = 0xdc, NPCM_GMAC_PTP_TCR = 0x700, NPCM_GMAC_PTP_SSIR = 0x704, NPCM_GMAC_PTP_STSR = 0x708, NPCM_GMAC_PTP_STNSR = 0x70c, NPCM_GMAC_PTP_STSUR = 0x710, NPCM_GMAC_PTP_STNSUR = 0x714, NPCM_GMAC_PTP_TAR = 0x718, NPCM_GMAC_PTP_TTSR = 0x71c, /* PCS Registers */ NPCM_PCS_SR_CTL_ID1 = 0x3c0008, NPCM_PCS_SR_CTL_ID2 = 0x3c000a, NPCM_PCS_SR_CTL_STS = 0x3c0010, NPCM_PCS_SR_MII_CTRL = 0x3e0000, NPCM_PCS_SR_MII_STS = 0x3e0002, NPCM_PCS_SR_MII_DEV_ID1 = 0x3e0004, NPCM_PCS_SR_MII_DEV_ID2 = 0x3e0006, NPCM_PCS_SR_MII_AN_ADV = 0x3e0008, NPCM_PCS_SR_MII_LP_BABL = 0x3e000a, NPCM_PCS_SR_MII_AN_EXPN = 0x3e000c, NPCM_PCS_SR_MII_EXT_STS = 0x3e001e, NPCM_PCS_SR_TIM_SYNC_ABL = 0x3e0e10, NPCM_PCS_SR_TIM_SYNC_TX_MAX_DLY_LWR = 0x3e0e12, NPCM_PCS_SR_TIM_SYNC_TX_MAX_DLY_UPR = 0x3e0e14, NPCM_PCS_SR_TIM_SYNC_TX_MIN_DLY_LWR = 0x3e0e16, NPCM_PCS_SR_TIM_SYNC_TX_MIN_DLY_UPR = 0x3e0e18, NPCM_PCS_SR_TIM_SYNC_RX_MAX_DLY_LWR = 0x3e0e1a, NPCM_PCS_SR_TIM_SYNC_RX_MAX_DLY_UPR = 0x3e0e1c, NPCM_PCS_SR_TIM_SYNC_RX_MIN_DLY_LWR = 0x3e0e1e, NPCM_PCS_SR_TIM_SYNC_RX_MIN_DLY_UPR = 0x3e0e20, NPCM_PCS_VR_MII_MMD_DIG_CTRL1 = 0x3f0000, NPCM_PCS_VR_MII_AN_CTRL = 0x3f0002, NPCM_PCS_VR_MII_AN_INTR_STS = 0x3f0004, NPCM_PCS_VR_MII_TC = 0x3f0006, NPCM_PCS_VR_MII_DBG_CTRL = 0x3f000a, NPCM_PCS_VR_MII_EEE_MCTRL0 = 0x3f000c, NPCM_PCS_VR_MII_EEE_TXTIMER = 0x3f0010, NPCM_PCS_VR_MII_EEE_RXTIMER = 0x3f0012, NPCM_PCS_VR_MII_LINK_TIMER_CTRL = 0x3f0014, NPCM_PCS_VR_MII_EEE_MCTRL1 = 0x3f0016, NPCM_PCS_VR_MII_DIG_STS = 0x3f0020, NPCM_PCS_VR_MII_ICG_ERRCNT1 = 0x3f0022, NPCM_PCS_VR_MII_MISC_STS = 0x3f0030, NPCM_PCS_VR_MII_RX_LSTS = 0x3f0040, NPCM_PCS_VR_MII_MP_TX_BSTCTRL0 = 0x3f0070, NPCM_PCS_VR_MII_MP_TX_LVLCTRL0 = 0x3f0074, NPCM_PCS_VR_MII_MP_TX_GENCTRL0 = 0x3f007a, NPCM_PCS_VR_MII_MP_TX_GENCTRL1 = 0x3f007c, NPCM_PCS_VR_MII_MP_TX_STS = 0x3f0090, NPCM_PCS_VR_MII_MP_RX_GENCTRL0 = 0x3f00b0, NPCM_PCS_VR_MII_MP_RX_GENCTRL1 = 0x3f00b2, NPCM_PCS_VR_MII_MP_RX_LOS_CTRL0 = 0x3f00ba, NPCM_PCS_VR_MII_MP_MPLL_CTRL0 = 0x3f00f0, NPCM_PCS_VR_MII_MP_MPLL_CTRL1 = 0x3f00f2, NPCM_PCS_VR_MII_MP_MPLL_STS = 0x3f0110, NPCM_PCS_VR_MII_MP_MISC_CTRL2 = 0x3f0126, NPCM_PCS_VR_MII_MP_LVL_CTRL = 0x3f0130, NPCM_PCS_VR_MII_MP_MISC_CTRL0 = 0x3f0132, NPCM_PCS_VR_MII_MP_MISC_CTRL1 = 0x3f0134, NPCM_PCS_VR_MII_DIG_CTRL2 = 0x3f01c2, NPCM_PCS_VR_MII_DIG_ERRCNT_SEL = 0x3f01c4, } NPCMRegister; static uint32_t gmac_read(QTestState *qts, const GMACModule *mod, NPCMRegister regno) { return qtest_readl(qts, mod->base_addr + regno); } static uint16_t pcs_read(QTestState *qts, const GMACModule *mod, NPCMRegister regno) { uint32_t write_value = (regno & 0x3ffe00) >> 9; qtest_writel(qts, PCS_BASE_ADDRESS + NPCM_PCS_IND_AC_BA, write_value); uint32_t read_offset = regno & 0x1ff; return qtest_readl(qts, PCS_BASE_ADDRESS + read_offset); } /* Check that GMAC registers are reset to default value */ static void test_init(gconstpointer test_data) { const TestData *td = test_data; const GMACModule *mod = td->module; QTestState *qts = qtest_init("-machine npcm845-evb"); #define CHECK_REG32(regno, value) \ do { \ g_assert_cmphex(gmac_read(qts, mod, (regno)), ==, (value)); \ } while (0) #define CHECK_REG_PCS(regno, value) \ do { \ g_assert_cmphex(pcs_read(qts, mod, (regno)), ==, (value)); \ } while (0) CHECK_REG32(NPCM_DMA_BUS_MODE, 0x00020100); CHECK_REG32(NPCM_DMA_XMT_POLL_DEMAND, 0); CHECK_REG32(NPCM_DMA_RCV_POLL_DEMAND, 0); CHECK_REG32(NPCM_DMA_RCV_BASE_ADDR, 0); CHECK_REG32(NPCM_DMA_TX_BASE_ADDR, 0); CHECK_REG32(NPCM_DMA_STATUS, 0); CHECK_REG32(NPCM_DMA_CONTROL, 0); CHECK_REG32(NPCM_DMA_INTR_ENA, 0); CHECK_REG32(NPCM_DMA_MISSED_FRAME_CTR, 0); CHECK_REG32(NPCM_DMA_HOST_TX_DESC, 0); CHECK_REG32(NPCM_DMA_HOST_RX_DESC, 0); CHECK_REG32(NPCM_DMA_CUR_TX_BUF_ADDR, 0); CHECK_REG32(NPCM_DMA_CUR_RX_BUF_ADDR, 0); CHECK_REG32(NPCM_DMA_HW_FEATURE, 0x100d4f37); CHECK_REG32(NPCM_GMAC_MAC_CONFIG, 0); CHECK_REG32(NPCM_GMAC_FRAME_FILTER, 0); CHECK_REG32(NPCM_GMAC_HASH_HIGH, 0); CHECK_REG32(NPCM_GMAC_HASH_LOW, 0); CHECK_REG32(NPCM_GMAC_MII_ADDR, 0); CHECK_REG32(NPCM_GMAC_MII_DATA, 0); CHECK_REG32(NPCM_GMAC_FLOW_CTRL, 0); CHECK_REG32(NPCM_GMAC_VLAN_FLAG, 0); CHECK_REG32(NPCM_GMAC_VERSION, 0x00001032); CHECK_REG32(NPCM_GMAC_WAKEUP_FILTER, 0); CHECK_REG32(NPCM_GMAC_PMT, 0); CHECK_REG32(NPCM_GMAC_LPI_CTRL, 0); CHECK_REG32(NPCM_GMAC_TIMER_CTRL, 0x03e80000); CHECK_REG32(NPCM_GMAC_INT_STATUS, 0); CHECK_REG32(NPCM_GMAC_INT_MASK, 0); CHECK_REG32(NPCM_GMAC_MAC0_ADDR_HI, 0x8000ffff); CHECK_REG32(NPCM_GMAC_MAC0_ADDR_LO, 0xffffffff); CHECK_REG32(NPCM_GMAC_MAC1_ADDR_HI, 0x0000ffff); CHECK_REG32(NPCM_GMAC_MAC1_ADDR_LO, 0xffffffff); CHECK_REG32(NPCM_GMAC_MAC2_ADDR_HI, 0x0000ffff); CHECK_REG32(NPCM_GMAC_MAC2_ADDR_LO, 0xffffffff); CHECK_REG32(NPCM_GMAC_MAC3_ADDR_HI, 0x0000ffff); CHECK_REG32(NPCM_GMAC_MAC3_ADDR_LO, 0xffffffff); CHECK_REG32(NPCM_GMAC_RGMII_STATUS, 0); CHECK_REG32(NPCM_GMAC_WATCHDOG, 0); CHECK_REG32(NPCM_GMAC_PTP_TCR, 0x00002000); CHECK_REG32(NPCM_GMAC_PTP_SSIR, 0); CHECK_REG32(NPCM_GMAC_PTP_STSR, 0); CHECK_REG32(NPCM_GMAC_PTP_STNSR, 0); CHECK_REG32(NPCM_GMAC_PTP_STSUR, 0); CHECK_REG32(NPCM_GMAC_PTP_STNSUR, 0); CHECK_REG32(NPCM_GMAC_PTP_TAR, 0); CHECK_REG32(NPCM_GMAC_PTP_TTSR, 0); /* TODO Add registers PCS */ if (mod->base_addr == 0xf0802000) { CHECK_REG_PCS(NPCM_PCS_SR_CTL_ID1, 0x699e); CHECK_REG_PCS(NPCM_PCS_SR_CTL_ID2, 0); CHECK_REG_PCS(NPCM_PCS_SR_CTL_STS, 0x8000); CHECK_REG_PCS(NPCM_PCS_SR_MII_CTRL, 0x1140); CHECK_REG_PCS(NPCM_PCS_SR_MII_STS, 0x0109); CHECK_REG_PCS(NPCM_PCS_SR_MII_DEV_ID1, 0x699e); CHECK_REG_PCS(NPCM_PCS_SR_MII_DEV_ID2, 0x0ced0); CHECK_REG_PCS(NPCM_PCS_SR_MII_AN_ADV, 0x0020); CHECK_REG_PCS(NPCM_PCS_SR_MII_LP_BABL, 0); CHECK_REG_PCS(NPCM_PCS_SR_MII_AN_EXPN, 0); CHECK_REG_PCS(NPCM_PCS_SR_MII_EXT_STS, 0xc000); CHECK_REG_PCS(NPCM_PCS_SR_TIM_SYNC_ABL, 0x0003); CHECK_REG_PCS(NPCM_PCS_SR_TIM_SYNC_TX_MAX_DLY_LWR, 0x0038); CHECK_REG_PCS(NPCM_PCS_SR_TIM_SYNC_TX_MAX_DLY_UPR, 0); CHECK_REG_PCS(NPCM_PCS_SR_TIM_SYNC_TX_MIN_DLY_LWR, 0x0038); CHECK_REG_PCS(NPCM_PCS_SR_TIM_SYNC_TX_MIN_DLY_UPR, 0); CHECK_REG_PCS(NPCM_PCS_SR_TIM_SYNC_RX_MAX_DLY_LWR, 0x0058); CHECK_REG_PCS(NPCM_PCS_SR_TIM_SYNC_RX_MAX_DLY_UPR, 0); CHECK_REG_PCS(NPCM_PCS_SR_TIM_SYNC_RX_MIN_DLY_LWR, 0x0048); CHECK_REG_PCS(NPCM_PCS_SR_TIM_SYNC_RX_MIN_DLY_UPR, 0); CHECK_REG_PCS(NPCM_PCS_VR_MII_MMD_DIG_CTRL1, 0x2400); CHECK_REG_PCS(NPCM_PCS_VR_MII_AN_CTRL, 0); CHECK_REG_PCS(NPCM_PCS_VR_MII_AN_INTR_STS, 0x000a); CHECK_REG_PCS(NPCM_PCS_VR_MII_TC, 0); CHECK_REG_PCS(NPCM_PCS_VR_MII_DBG_CTRL, 0); CHECK_REG_PCS(NPCM_PCS_VR_MII_EEE_MCTRL0, 0x899c); CHECK_REG_PCS(NPCM_PCS_VR_MII_EEE_TXTIMER, 0); CHECK_REG_PCS(NPCM_PCS_VR_MII_EEE_RXTIMER, 0); CHECK_REG_PCS(NPCM_PCS_VR_MII_LINK_TIMER_CTRL, 0); CHECK_REG_PCS(NPCM_PCS_VR_MII_EEE_MCTRL1, 0); CHECK_REG_PCS(NPCM_PCS_VR_MII_DIG_STS, 0x0010); CHECK_REG_PCS(NPCM_PCS_VR_MII_ICG_ERRCNT1, 0); CHECK_REG_PCS(NPCM_PCS_VR_MII_MISC_STS, 0); CHECK_REG_PCS(NPCM_PCS_VR_MII_RX_LSTS, 0); CHECK_REG_PCS(NPCM_PCS_VR_MII_MP_TX_BSTCTRL0, 0x00a); CHECK_REG_PCS(NPCM_PCS_VR_MII_MP_TX_LVLCTRL0, 0x007f); CHECK_REG_PCS(NPCM_PCS_VR_MII_MP_TX_GENCTRL0, 0x0001); CHECK_REG_PCS(NPCM_PCS_VR_MII_MP_TX_GENCTRL1, 0); CHECK_REG_PCS(NPCM_PCS_VR_MII_MP_TX_STS, 0); CHECK_REG_PCS(NPCM_PCS_VR_MII_MP_RX_GENCTRL0, 0x0100); CHECK_REG_PCS(NPCM_PCS_VR_MII_MP_RX_GENCTRL1, 0x1100); CHECK_REG_PCS(NPCM_PCS_VR_MII_MP_RX_LOS_CTRL0, 0x000e); CHECK_REG_PCS(NPCM_PCS_VR_MII_MP_MPLL_CTRL0, 0x0100); CHECK_REG_PCS(NPCM_PCS_VR_MII_MP_MPLL_CTRL1, 0x0032); CHECK_REG_PCS(NPCM_PCS_VR_MII_MP_MPLL_STS, 0x0001); CHECK_REG_PCS(NPCM_PCS_VR_MII_MP_MISC_CTRL2, 0); CHECK_REG_PCS(NPCM_PCS_VR_MII_MP_LVL_CTRL, 0x0019); CHECK_REG_PCS(NPCM_PCS_VR_MII_MP_MISC_CTRL0, 0); CHECK_REG_PCS(NPCM_PCS_VR_MII_MP_MISC_CTRL1, 0); CHECK_REG_PCS(NPCM_PCS_VR_MII_DIG_CTRL2, 0); CHECK_REG_PCS(NPCM_PCS_VR_MII_DIG_ERRCNT_SEL, 0); } qtest_quit(qts); } static void gmac_add_test(const char *name, const TestData* td, GTestDataFunc fn) { g_autofree char *full_name = g_strdup_printf( "npcm7xx_gmac/gmac[%d]/%s", gmac_module_index(td->module), name); qtest_add_data_func(full_name, td, fn); } int main(int argc, char **argv) { TestData test_data_list[ARRAY_SIZE(gmac_module_list)]; g_test_init(&argc, &argv, NULL); for (int i = 0; i < ARRAY_SIZE(gmac_module_list); ++i) { TestData *td = &test_data_list[i]; td->module = &gmac_module_list[i]; gmac_add_test("init", td, test_init); } return g_test_run(); }