1e6646167SDoug Evans /* 2e6646167SDoug Evans * QTests for Nuvoton NPCM7xx EMC Modules. 3e6646167SDoug Evans * 4e6646167SDoug Evans * Copyright 2020 Google LLC 5e6646167SDoug Evans * 6e6646167SDoug Evans * This program is free software; you can redistribute it and/or modify it 7e6646167SDoug Evans * under the terms of the GNU General Public License as published by the 8e6646167SDoug Evans * Free Software Foundation; either version 2 of the License, or 9e6646167SDoug Evans * (at your option) any later version. 10e6646167SDoug Evans * 11e6646167SDoug Evans * This program is distributed in the hope that it will be useful, but WITHOUT 12e6646167SDoug Evans * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 13e6646167SDoug Evans * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License 14e6646167SDoug Evans * for more details. 15e6646167SDoug Evans */ 16e6646167SDoug Evans 17e6646167SDoug Evans #include "qemu/osdep.h" 18e6646167SDoug Evans #include "qemu-common.h" 19e6646167SDoug Evans #include "libqos/libqos.h" 20e6646167SDoug Evans #include "qapi/qmp/qdict.h" 21e6646167SDoug Evans #include "qapi/qmp/qnum.h" 22e6646167SDoug Evans #include "qemu/bitops.h" 23e6646167SDoug Evans #include "qemu/iov.h" 24e6646167SDoug Evans 25e6646167SDoug Evans /* Name of the emc device. */ 26e6646167SDoug Evans #define TYPE_NPCM7XX_EMC "npcm7xx-emc" 27e6646167SDoug Evans 28e6646167SDoug Evans /* Timeout for various operations, in seconds. */ 29e6646167SDoug Evans #define TIMEOUT_SECONDS 10 30e6646167SDoug Evans 31e6646167SDoug Evans /* Address in memory of the descriptor. */ 32e6646167SDoug Evans #define DESC_ADDR (1 << 20) /* 1 MiB */ 33e6646167SDoug Evans 34e6646167SDoug Evans /* Address in memory of the data packet. */ 35e6646167SDoug Evans #define DATA_ADDR (DESC_ADDR + 4096) 36e6646167SDoug Evans 37e6646167SDoug Evans #define CRC_LENGTH 4 38e6646167SDoug Evans 39e6646167SDoug Evans #define NUM_TX_DESCRIPTORS 3 40e6646167SDoug Evans #define NUM_RX_DESCRIPTORS 2 41e6646167SDoug Evans 42e6646167SDoug Evans /* Size of tx,rx test buffers. */ 43e6646167SDoug Evans #define TX_DATA_LEN 64 44e6646167SDoug Evans #define RX_DATA_LEN 64 45e6646167SDoug Evans 46e6646167SDoug Evans #define TX_STEP_COUNT 10000 47e6646167SDoug Evans #define RX_STEP_COUNT 10000 48e6646167SDoug Evans 49e6646167SDoug Evans /* 32-bit register indices. */ 50e6646167SDoug Evans typedef enum NPCM7xxPWMRegister { 51e6646167SDoug Evans /* Control registers. */ 52e6646167SDoug Evans REG_CAMCMR, 53e6646167SDoug Evans REG_CAMEN, 54e6646167SDoug Evans 55e6646167SDoug Evans /* There are 16 CAMn[ML] registers. */ 56e6646167SDoug Evans REG_CAMM_BASE, 57e6646167SDoug Evans REG_CAML_BASE, 58e6646167SDoug Evans 59e6646167SDoug Evans REG_TXDLSA = 0x22, 60e6646167SDoug Evans REG_RXDLSA, 61e6646167SDoug Evans REG_MCMDR, 62e6646167SDoug Evans REG_MIID, 63e6646167SDoug Evans REG_MIIDA, 64e6646167SDoug Evans REG_FFTCR, 65e6646167SDoug Evans REG_TSDR, 66e6646167SDoug Evans REG_RSDR, 67e6646167SDoug Evans REG_DMARFC, 68e6646167SDoug Evans REG_MIEN, 69e6646167SDoug Evans 70e6646167SDoug Evans /* Status registers. */ 71e6646167SDoug Evans REG_MISTA, 72e6646167SDoug Evans REG_MGSTA, 73e6646167SDoug Evans REG_MPCNT, 74e6646167SDoug Evans REG_MRPC, 75e6646167SDoug Evans REG_MRPCC, 76e6646167SDoug Evans REG_MREPC, 77e6646167SDoug Evans REG_DMARFS, 78e6646167SDoug Evans REG_CTXDSA, 79e6646167SDoug Evans REG_CTXBSA, 80e6646167SDoug Evans REG_CRXDSA, 81e6646167SDoug Evans REG_CRXBSA, 82e6646167SDoug Evans 83e6646167SDoug Evans NPCM7XX_NUM_EMC_REGS, 84e6646167SDoug Evans } NPCM7xxPWMRegister; 85e6646167SDoug Evans 86e6646167SDoug Evans enum { NUM_CAMML_REGS = 16 }; 87e6646167SDoug Evans 88e6646167SDoug Evans /* REG_CAMCMR fields */ 89e6646167SDoug Evans /* Enable CAM Compare */ 90e6646167SDoug Evans #define REG_CAMCMR_ECMP (1 << 4) 91e6646167SDoug Evans /* Accept Unicast Packet */ 92e6646167SDoug Evans #define REG_CAMCMR_AUP (1 << 0) 93e6646167SDoug Evans 94e6646167SDoug Evans /* REG_MCMDR fields */ 95e6646167SDoug Evans /* Software Reset */ 96e6646167SDoug Evans #define REG_MCMDR_SWR (1 << 24) 97e6646167SDoug Evans /* Frame Transmission On */ 98e6646167SDoug Evans #define REG_MCMDR_TXON (1 << 8) 99e6646167SDoug Evans /* Accept Long Packet */ 100e6646167SDoug Evans #define REG_MCMDR_ALP (1 << 1) 101e6646167SDoug Evans /* Frame Reception On */ 102e6646167SDoug Evans #define REG_MCMDR_RXON (1 << 0) 103e6646167SDoug Evans 104e6646167SDoug Evans /* REG_MIEN fields */ 105e6646167SDoug Evans /* Enable Transmit Completion Interrupt */ 106e6646167SDoug Evans #define REG_MIEN_ENTXCP (1 << 18) 107e6646167SDoug Evans /* Enable Transmit Interrupt */ 108e6646167SDoug Evans #define REG_MIEN_ENTXINTR (1 << 16) 109e6646167SDoug Evans /* Enable Receive Good Interrupt */ 110e6646167SDoug Evans #define REG_MIEN_ENRXGD (1 << 4) 111e6646167SDoug Evans /* ENable Receive Interrupt */ 112e6646167SDoug Evans #define REG_MIEN_ENRXINTR (1 << 0) 113e6646167SDoug Evans 114e6646167SDoug Evans /* REG_MISTA fields */ 115e6646167SDoug Evans /* Transmit Bus Error Interrupt */ 116e6646167SDoug Evans #define REG_MISTA_TXBERR (1 << 24) 117e6646167SDoug Evans /* Transmit Descriptor Unavailable Interrupt */ 118e6646167SDoug Evans #define REG_MISTA_TDU (1 << 23) 119e6646167SDoug Evans /* Transmit Completion Interrupt */ 120e6646167SDoug Evans #define REG_MISTA_TXCP (1 << 18) 121e6646167SDoug Evans /* Transmit Interrupt */ 122e6646167SDoug Evans #define REG_MISTA_TXINTR (1 << 16) 123e6646167SDoug Evans /* Receive Bus Error Interrupt */ 124e6646167SDoug Evans #define REG_MISTA_RXBERR (1 << 11) 125e6646167SDoug Evans /* Receive Descriptor Unavailable Interrupt */ 126e6646167SDoug Evans #define REG_MISTA_RDU (1 << 10) 127e6646167SDoug Evans /* DMA Early Notification Interrupt */ 128e6646167SDoug Evans #define REG_MISTA_DENI (1 << 9) 129e6646167SDoug Evans /* Maximum Frame Length Interrupt */ 130e6646167SDoug Evans #define REG_MISTA_DFOI (1 << 8) 131e6646167SDoug Evans /* Receive Good Interrupt */ 132e6646167SDoug Evans #define REG_MISTA_RXGD (1 << 4) 133e6646167SDoug Evans /* Packet Too Long Interrupt */ 134e6646167SDoug Evans #define REG_MISTA_PTLE (1 << 3) 135e6646167SDoug Evans /* Receive Interrupt */ 136e6646167SDoug Evans #define REG_MISTA_RXINTR (1 << 0) 137e6646167SDoug Evans 138e6646167SDoug Evans typedef struct NPCM7xxEMCTxDesc NPCM7xxEMCTxDesc; 139e6646167SDoug Evans typedef struct NPCM7xxEMCRxDesc NPCM7xxEMCRxDesc; 140e6646167SDoug Evans 141e6646167SDoug Evans struct NPCM7xxEMCTxDesc { 142e6646167SDoug Evans uint32_t flags; 143e6646167SDoug Evans uint32_t txbsa; 144e6646167SDoug Evans uint32_t status_and_length; 145e6646167SDoug Evans uint32_t ntxdsa; 146e6646167SDoug Evans }; 147e6646167SDoug Evans 148e6646167SDoug Evans struct NPCM7xxEMCRxDesc { 149e6646167SDoug Evans uint32_t status_and_length; 150e6646167SDoug Evans uint32_t rxbsa; 151e6646167SDoug Evans uint32_t reserved; 152e6646167SDoug Evans uint32_t nrxdsa; 153e6646167SDoug Evans }; 154e6646167SDoug Evans 155e6646167SDoug Evans /* NPCM7xxEMCTxDesc.flags values */ 156e6646167SDoug Evans /* Owner: 0 = cpu, 1 = emc */ 157e6646167SDoug Evans #define TX_DESC_FLAG_OWNER_MASK (1 << 31) 158e6646167SDoug Evans /* Transmit interrupt enable */ 159e6646167SDoug Evans #define TX_DESC_FLAG_INTEN (1 << 2) 160e6646167SDoug Evans 161e6646167SDoug Evans /* NPCM7xxEMCTxDesc.status_and_length values */ 162e6646167SDoug Evans /* Transmission complete */ 163e6646167SDoug Evans #define TX_DESC_STATUS_TXCP (1 << 19) 164e6646167SDoug Evans /* Transmit interrupt */ 165e6646167SDoug Evans #define TX_DESC_STATUS_TXINTR (1 << 16) 166e6646167SDoug Evans 167e6646167SDoug Evans /* NPCM7xxEMCRxDesc.status_and_length values */ 168e6646167SDoug Evans /* Owner: 0b00 = cpu, 0b10 = emc */ 169e6646167SDoug Evans #define RX_DESC_STATUS_OWNER_SHIFT 30 170e6646167SDoug Evans #define RX_DESC_STATUS_OWNER_MASK 0xc0000000 171e6646167SDoug Evans /* Frame Reception Complete */ 172e6646167SDoug Evans #define RX_DESC_STATUS_RXGD (1 << 20) 173e6646167SDoug Evans /* Packet too long */ 174e6646167SDoug Evans #define RX_DESC_STATUS_PTLE (1 << 19) 175e6646167SDoug Evans /* Receive Interrupt */ 176e6646167SDoug Evans #define RX_DESC_STATUS_RXINTR (1 << 16) 177e6646167SDoug Evans 178e6646167SDoug Evans #define RX_DESC_PKT_LEN(word) ((uint32_t) (word) & 0xffff) 179e6646167SDoug Evans 180e6646167SDoug Evans typedef struct EMCModule { 181e6646167SDoug Evans int rx_irq; 182e6646167SDoug Evans int tx_irq; 183e6646167SDoug Evans uint64_t base_addr; 184e6646167SDoug Evans } EMCModule; 185e6646167SDoug Evans 186e6646167SDoug Evans typedef struct TestData { 187e6646167SDoug Evans const EMCModule *module; 188e6646167SDoug Evans } TestData; 189e6646167SDoug Evans 190e6646167SDoug Evans static const EMCModule emc_module_list[] = { 191e6646167SDoug Evans { 192e6646167SDoug Evans .rx_irq = 15, 193e6646167SDoug Evans .tx_irq = 16, 194e6646167SDoug Evans .base_addr = 0xf0825000 195e6646167SDoug Evans }, 196e6646167SDoug Evans { 197e6646167SDoug Evans .rx_irq = 114, 198e6646167SDoug Evans .tx_irq = 115, 199e6646167SDoug Evans .base_addr = 0xf0826000 200e6646167SDoug Evans } 201e6646167SDoug Evans }; 202e6646167SDoug Evans 203e6646167SDoug Evans /* Returns the index of the EMC module. */ 204e6646167SDoug Evans static int emc_module_index(const EMCModule *mod) 205e6646167SDoug Evans { 206e6646167SDoug Evans ptrdiff_t diff = mod - emc_module_list; 207e6646167SDoug Evans 208e6646167SDoug Evans g_assert_true(diff >= 0 && diff < ARRAY_SIZE(emc_module_list)); 209e6646167SDoug Evans 210e6646167SDoug Evans return diff; 211e6646167SDoug Evans } 212e6646167SDoug Evans 213e6646167SDoug Evans static void packet_test_clear(void *sockets) 214e6646167SDoug Evans { 215e6646167SDoug Evans int *test_sockets = sockets; 216e6646167SDoug Evans 217e6646167SDoug Evans close(test_sockets[0]); 218e6646167SDoug Evans g_free(test_sockets); 219e6646167SDoug Evans } 220e6646167SDoug Evans 221e6646167SDoug Evans static int *packet_test_init(int module_num, GString *cmd_line) 222e6646167SDoug Evans { 223e6646167SDoug Evans int *test_sockets = g_new(int, 2); 224e6646167SDoug Evans int ret = socketpair(PF_UNIX, SOCK_STREAM, 0, test_sockets); 225e6646167SDoug Evans g_assert_cmpint(ret, != , -1); 226e6646167SDoug Evans 227e6646167SDoug Evans /* 228e6646167SDoug Evans * KISS and use -nic. We specify two nics (both emc{0,1}) because there's 229e6646167SDoug Evans * currently no way to specify only emc1: The driver implicitly relies on 230e6646167SDoug Evans * emc[i] == nd_table[i]. 231e6646167SDoug Evans */ 232e6646167SDoug Evans if (module_num == 0) { 233e6646167SDoug Evans g_string_append_printf(cmd_line, 234e6646167SDoug Evans " -nic socket,fd=%d,model=" TYPE_NPCM7XX_EMC " " 235e6646167SDoug Evans " -nic user,model=" TYPE_NPCM7XX_EMC " ", 236e6646167SDoug Evans test_sockets[1]); 237e6646167SDoug Evans } else { 238e6646167SDoug Evans g_string_append_printf(cmd_line, 239e6646167SDoug Evans " -nic user,model=" TYPE_NPCM7XX_EMC " " 240e6646167SDoug Evans " -nic socket,fd=%d,model=" TYPE_NPCM7XX_EMC " ", 241e6646167SDoug Evans test_sockets[1]); 242e6646167SDoug Evans } 243e6646167SDoug Evans 244e6646167SDoug Evans g_test_queue_destroy(packet_test_clear, test_sockets); 245e6646167SDoug Evans return test_sockets; 246e6646167SDoug Evans } 247e6646167SDoug Evans 248e6646167SDoug Evans static uint32_t emc_read(QTestState *qts, const EMCModule *mod, 249e6646167SDoug Evans NPCM7xxPWMRegister regno) 250e6646167SDoug Evans { 251e6646167SDoug Evans return qtest_readl(qts, mod->base_addr + regno * sizeof(uint32_t)); 252e6646167SDoug Evans } 253e6646167SDoug Evans 254e6646167SDoug Evans static void emc_write(QTestState *qts, const EMCModule *mod, 255e6646167SDoug Evans NPCM7xxPWMRegister regno, uint32_t value) 256e6646167SDoug Evans { 257e6646167SDoug Evans qtest_writel(qts, mod->base_addr + regno * sizeof(uint32_t), value); 258e6646167SDoug Evans } 259e6646167SDoug Evans 260e6646167SDoug Evans static void emc_read_tx_desc(QTestState *qts, uint32_t addr, 261e6646167SDoug Evans NPCM7xxEMCTxDesc *desc) 262e6646167SDoug Evans { 263e6646167SDoug Evans qtest_memread(qts, addr, desc, sizeof(*desc)); 264e6646167SDoug Evans desc->flags = le32_to_cpu(desc->flags); 265e6646167SDoug Evans desc->txbsa = le32_to_cpu(desc->txbsa); 266e6646167SDoug Evans desc->status_and_length = le32_to_cpu(desc->status_and_length); 267e6646167SDoug Evans desc->ntxdsa = le32_to_cpu(desc->ntxdsa); 268e6646167SDoug Evans } 269e6646167SDoug Evans 270e6646167SDoug Evans static void emc_write_tx_desc(QTestState *qts, const NPCM7xxEMCTxDesc *desc, 271e6646167SDoug Evans uint32_t addr) 272e6646167SDoug Evans { 273e6646167SDoug Evans NPCM7xxEMCTxDesc le_desc; 274e6646167SDoug Evans 275e6646167SDoug Evans le_desc.flags = cpu_to_le32(desc->flags); 276e6646167SDoug Evans le_desc.txbsa = cpu_to_le32(desc->txbsa); 277e6646167SDoug Evans le_desc.status_and_length = cpu_to_le32(desc->status_and_length); 278e6646167SDoug Evans le_desc.ntxdsa = cpu_to_le32(desc->ntxdsa); 279e6646167SDoug Evans qtest_memwrite(qts, addr, &le_desc, sizeof(le_desc)); 280e6646167SDoug Evans } 281e6646167SDoug Evans 282e6646167SDoug Evans static void emc_read_rx_desc(QTestState *qts, uint32_t addr, 283e6646167SDoug Evans NPCM7xxEMCRxDesc *desc) 284e6646167SDoug Evans { 285e6646167SDoug Evans qtest_memread(qts, addr, desc, sizeof(*desc)); 286e6646167SDoug Evans desc->status_and_length = le32_to_cpu(desc->status_and_length); 287e6646167SDoug Evans desc->rxbsa = le32_to_cpu(desc->rxbsa); 288e6646167SDoug Evans desc->reserved = le32_to_cpu(desc->reserved); 289e6646167SDoug Evans desc->nrxdsa = le32_to_cpu(desc->nrxdsa); 290e6646167SDoug Evans } 291e6646167SDoug Evans 292e6646167SDoug Evans static void emc_write_rx_desc(QTestState *qts, const NPCM7xxEMCRxDesc *desc, 293e6646167SDoug Evans uint32_t addr) 294e6646167SDoug Evans { 295e6646167SDoug Evans NPCM7xxEMCRxDesc le_desc; 296e6646167SDoug Evans 297e6646167SDoug Evans le_desc.status_and_length = cpu_to_le32(desc->status_and_length); 298e6646167SDoug Evans le_desc.rxbsa = cpu_to_le32(desc->rxbsa); 299e6646167SDoug Evans le_desc.reserved = cpu_to_le32(desc->reserved); 300e6646167SDoug Evans le_desc.nrxdsa = cpu_to_le32(desc->nrxdsa); 301e6646167SDoug Evans qtest_memwrite(qts, addr, &le_desc, sizeof(le_desc)); 302e6646167SDoug Evans } 303e6646167SDoug Evans 304e6646167SDoug Evans /* 305e6646167SDoug Evans * Reset the EMC module. 306e6646167SDoug Evans * The module must be reset before, e.g., TXDLSA,RXDLSA are changed. 307e6646167SDoug Evans */ 308e6646167SDoug Evans static bool emc_soft_reset(QTestState *qts, const EMCModule *mod) 309e6646167SDoug Evans { 310e6646167SDoug Evans uint32_t val; 311e6646167SDoug Evans uint64_t end_time; 312e6646167SDoug Evans 313e6646167SDoug Evans emc_write(qts, mod, REG_MCMDR, REG_MCMDR_SWR); 314e6646167SDoug Evans 315e6646167SDoug Evans /* 316e6646167SDoug Evans * Wait for device to reset as the linux driver does. 317e6646167SDoug Evans * During reset the AHB reads 0 for all registers. So first wait for 318e6646167SDoug Evans * something that resets to non-zero, and then wait for SWR becoming 0. 319e6646167SDoug Evans */ 320e6646167SDoug Evans end_time = g_get_monotonic_time() + TIMEOUT_SECONDS * G_TIME_SPAN_SECOND; 321e6646167SDoug Evans 322e6646167SDoug Evans do { 323e6646167SDoug Evans qtest_clock_step(qts, 100); 324e6646167SDoug Evans val = emc_read(qts, mod, REG_FFTCR); 325e6646167SDoug Evans } while (val == 0 && g_get_monotonic_time() < end_time); 326e6646167SDoug Evans if (val != 0) { 327e6646167SDoug Evans do { 328e6646167SDoug Evans qtest_clock_step(qts, 100); 329e6646167SDoug Evans val = emc_read(qts, mod, REG_MCMDR); 330e6646167SDoug Evans if ((val & REG_MCMDR_SWR) == 0) { 331e6646167SDoug Evans /* 332e6646167SDoug Evans * N.B. The CAMs have been reset here, so macaddr matching of 333e6646167SDoug Evans * incoming packets will not work. 334e6646167SDoug Evans */ 335e6646167SDoug Evans return true; 336e6646167SDoug Evans } 337e6646167SDoug Evans } while (g_get_monotonic_time() < end_time); 338e6646167SDoug Evans } 339e6646167SDoug Evans 340e6646167SDoug Evans g_message("%s: Timeout expired", __func__); 341e6646167SDoug Evans return false; 342e6646167SDoug Evans } 343e6646167SDoug Evans 344e6646167SDoug Evans /* Check emc registers are reset to default value. */ 345e6646167SDoug Evans static void test_init(gconstpointer test_data) 346e6646167SDoug Evans { 347e6646167SDoug Evans const TestData *td = test_data; 348e6646167SDoug Evans const EMCModule *mod = td->module; 349e6646167SDoug Evans QTestState *qts = qtest_init("-machine quanta-gsj"); 350e6646167SDoug Evans int i; 351e6646167SDoug Evans 352e6646167SDoug Evans #define CHECK_REG(regno, value) \ 353e6646167SDoug Evans do { \ 354e6646167SDoug Evans g_assert_cmphex(emc_read(qts, mod, (regno)), ==, (value)); \ 355e6646167SDoug Evans } while (0) 356e6646167SDoug Evans 357e6646167SDoug Evans CHECK_REG(REG_CAMCMR, 0); 358e6646167SDoug Evans CHECK_REG(REG_CAMEN, 0); 359e6646167SDoug Evans CHECK_REG(REG_TXDLSA, 0xfffffffc); 360e6646167SDoug Evans CHECK_REG(REG_RXDLSA, 0xfffffffc); 361e6646167SDoug Evans CHECK_REG(REG_MCMDR, 0); 362e6646167SDoug Evans CHECK_REG(REG_MIID, 0); 363e6646167SDoug Evans CHECK_REG(REG_MIIDA, 0x00900000); 364e6646167SDoug Evans CHECK_REG(REG_FFTCR, 0x0101); 365e6646167SDoug Evans CHECK_REG(REG_DMARFC, 0x0800); 366e6646167SDoug Evans CHECK_REG(REG_MIEN, 0); 367e6646167SDoug Evans CHECK_REG(REG_MISTA, 0); 368e6646167SDoug Evans CHECK_REG(REG_MGSTA, 0); 369e6646167SDoug Evans CHECK_REG(REG_MPCNT, 0x7fff); 370e6646167SDoug Evans CHECK_REG(REG_MRPC, 0); 371e6646167SDoug Evans CHECK_REG(REG_MRPCC, 0); 372e6646167SDoug Evans CHECK_REG(REG_MREPC, 0); 373e6646167SDoug Evans CHECK_REG(REG_DMARFS, 0); 374e6646167SDoug Evans CHECK_REG(REG_CTXDSA, 0); 375e6646167SDoug Evans CHECK_REG(REG_CTXBSA, 0); 376e6646167SDoug Evans CHECK_REG(REG_CRXDSA, 0); 377e6646167SDoug Evans CHECK_REG(REG_CRXBSA, 0); 378e6646167SDoug Evans 379e6646167SDoug Evans #undef CHECK_REG 380e6646167SDoug Evans 381e6646167SDoug Evans for (i = 0; i < NUM_CAMML_REGS; ++i) { 382e6646167SDoug Evans g_assert_cmpuint(emc_read(qts, mod, REG_CAMM_BASE + i * 2), ==, 383e6646167SDoug Evans 0); 384e6646167SDoug Evans g_assert_cmpuint(emc_read(qts, mod, REG_CAML_BASE + i * 2), ==, 385e6646167SDoug Evans 0); 386e6646167SDoug Evans } 387e6646167SDoug Evans 388e6646167SDoug Evans qtest_quit(qts); 389e6646167SDoug Evans } 390e6646167SDoug Evans 391e6646167SDoug Evans static bool emc_wait_irq(QTestState *qts, const EMCModule *mod, int step, 392e6646167SDoug Evans bool is_tx) 393e6646167SDoug Evans { 394e6646167SDoug Evans uint64_t end_time = 395e6646167SDoug Evans g_get_monotonic_time() + TIMEOUT_SECONDS * G_TIME_SPAN_SECOND; 396e6646167SDoug Evans 397e6646167SDoug Evans do { 398e6646167SDoug Evans if (qtest_get_irq(qts, is_tx ? mod->tx_irq : mod->rx_irq)) { 399e6646167SDoug Evans return true; 400e6646167SDoug Evans } 401e6646167SDoug Evans qtest_clock_step(qts, step); 402e6646167SDoug Evans } while (g_get_monotonic_time() < end_time); 403e6646167SDoug Evans 404e6646167SDoug Evans g_message("%s: Timeout expired", __func__); 405e6646167SDoug Evans return false; 406e6646167SDoug Evans } 407e6646167SDoug Evans 408e6646167SDoug Evans static bool emc_wait_mista(QTestState *qts, const EMCModule *mod, int step, 409e6646167SDoug Evans uint32_t flag) 410e6646167SDoug Evans { 411e6646167SDoug Evans uint64_t end_time = 412e6646167SDoug Evans g_get_monotonic_time() + TIMEOUT_SECONDS * G_TIME_SPAN_SECOND; 413e6646167SDoug Evans 414e6646167SDoug Evans do { 415e6646167SDoug Evans uint32_t mista = emc_read(qts, mod, REG_MISTA); 416e6646167SDoug Evans if (mista & flag) { 417e6646167SDoug Evans return true; 418e6646167SDoug Evans } 419e6646167SDoug Evans qtest_clock_step(qts, step); 420e6646167SDoug Evans } while (g_get_monotonic_time() < end_time); 421e6646167SDoug Evans 422e6646167SDoug Evans g_message("%s: Timeout expired", __func__); 423e6646167SDoug Evans return false; 424e6646167SDoug Evans } 425e6646167SDoug Evans 426e6646167SDoug Evans static bool wait_socket_readable(int fd) 427e6646167SDoug Evans { 428e6646167SDoug Evans fd_set read_fds; 429e6646167SDoug Evans struct timeval tv; 430e6646167SDoug Evans int rv; 431e6646167SDoug Evans 432e6646167SDoug Evans FD_ZERO(&read_fds); 433e6646167SDoug Evans FD_SET(fd, &read_fds); 434e6646167SDoug Evans tv.tv_sec = TIMEOUT_SECONDS; 435e6646167SDoug Evans tv.tv_usec = 0; 436e6646167SDoug Evans rv = select(fd + 1, &read_fds, NULL, NULL, &tv); 437e6646167SDoug Evans if (rv == -1) { 438e6646167SDoug Evans perror("select"); 439e6646167SDoug Evans } else if (rv == 0) { 440e6646167SDoug Evans g_message("%s: Timeout expired", __func__); 441e6646167SDoug Evans } 442e6646167SDoug Evans return rv == 1; 443e6646167SDoug Evans } 444e6646167SDoug Evans 445e6646167SDoug Evans /* Initialize *desc (in host endian format). */ 446e6646167SDoug Evans static void init_tx_desc(NPCM7xxEMCTxDesc *desc, size_t count, 447e6646167SDoug Evans uint32_t desc_addr) 448e6646167SDoug Evans { 449e6646167SDoug Evans g_assert(count >= 2); 450e6646167SDoug Evans memset(&desc[0], 0, sizeof(*desc) * count); 451e6646167SDoug Evans /* Leave the last one alone, owned by the cpu -> stops transmission. */ 452e6646167SDoug Evans for (size_t i = 0; i < count - 1; ++i) { 453e6646167SDoug Evans desc[i].flags = 454e6646167SDoug Evans (TX_DESC_FLAG_OWNER_MASK | /* owner = 1: emc */ 455e6646167SDoug Evans TX_DESC_FLAG_INTEN | 456e6646167SDoug Evans 0 | /* crc append = 0 */ 457e6646167SDoug Evans 0 /* padding enable = 0 */); 458e6646167SDoug Evans desc[i].status_and_length = 459e6646167SDoug Evans (0 | /* collision count = 0 */ 460e6646167SDoug Evans 0 | /* SQE = 0 */ 461e6646167SDoug Evans 0 | /* PAU = 0 */ 462e6646167SDoug Evans 0 | /* TXHA = 0 */ 463e6646167SDoug Evans 0 | /* LC = 0 */ 464e6646167SDoug Evans 0 | /* TXABT = 0 */ 465e6646167SDoug Evans 0 | /* NCS = 0 */ 466e6646167SDoug Evans 0 | /* EXDEF = 0 */ 467e6646167SDoug Evans 0 | /* TXCP = 0 */ 468e6646167SDoug Evans 0 | /* DEF = 0 */ 469e6646167SDoug Evans 0 | /* TXINTR = 0 */ 470e6646167SDoug Evans 0 /* length filled in later */); 471e6646167SDoug Evans desc[i].ntxdsa = desc_addr + (i + 1) * sizeof(*desc); 472e6646167SDoug Evans } 473e6646167SDoug Evans } 474e6646167SDoug Evans 475e6646167SDoug Evans static void enable_tx(QTestState *qts, const EMCModule *mod, 476e6646167SDoug Evans const NPCM7xxEMCTxDesc *desc, size_t count, 477e6646167SDoug Evans uint32_t desc_addr, uint32_t mien_flags) 478e6646167SDoug Evans { 479e6646167SDoug Evans /* Write the descriptors to guest memory. */ 480e6646167SDoug Evans for (size_t i = 0; i < count; ++i) { 481e6646167SDoug Evans emc_write_tx_desc(qts, desc + i, desc_addr + i * sizeof(*desc)); 482e6646167SDoug Evans } 483e6646167SDoug Evans 484e6646167SDoug Evans /* Trigger sending the packet. */ 485e6646167SDoug Evans /* The module must be reset before changing TXDLSA. */ 486e6646167SDoug Evans g_assert(emc_soft_reset(qts, mod)); 487e6646167SDoug Evans emc_write(qts, mod, REG_TXDLSA, desc_addr); 488e6646167SDoug Evans emc_write(qts, mod, REG_CTXDSA, ~0); 489e6646167SDoug Evans emc_write(qts, mod, REG_MIEN, REG_MIEN_ENTXCP | mien_flags); 490e6646167SDoug Evans { 491e6646167SDoug Evans uint32_t mcmdr = emc_read(qts, mod, REG_MCMDR); 492e6646167SDoug Evans mcmdr |= REG_MCMDR_TXON; 493e6646167SDoug Evans emc_write(qts, mod, REG_MCMDR, mcmdr); 494e6646167SDoug Evans } 495e6646167SDoug Evans } 496e6646167SDoug Evans 497e6646167SDoug Evans static void emc_send_verify1(QTestState *qts, const EMCModule *mod, int fd, 498e6646167SDoug Evans bool with_irq, uint32_t desc_addr, 499e6646167SDoug Evans uint32_t next_desc_addr, 500e6646167SDoug Evans const char *test_data, int test_size) 501e6646167SDoug Evans { 502e6646167SDoug Evans NPCM7xxEMCTxDesc result_desc; 503e6646167SDoug Evans uint32_t expected_mask, expected_value, recv_len; 504e6646167SDoug Evans int ret; 505e6646167SDoug Evans char buffer[TX_DATA_LEN]; 506e6646167SDoug Evans 507e6646167SDoug Evans g_assert(wait_socket_readable(fd)); 508e6646167SDoug Evans 509e6646167SDoug Evans /* Read the descriptor back. */ 510e6646167SDoug Evans emc_read_tx_desc(qts, desc_addr, &result_desc); 511e6646167SDoug Evans /* Descriptor should be owned by cpu now. */ 512e6646167SDoug Evans g_assert((result_desc.flags & TX_DESC_FLAG_OWNER_MASK) == 0); 513e6646167SDoug Evans /* Test the status bits, ignoring the length field. */ 514e6646167SDoug Evans expected_mask = 0xffff << 16; 515e6646167SDoug Evans expected_value = TX_DESC_STATUS_TXCP; 516e6646167SDoug Evans if (with_irq) { 517e6646167SDoug Evans expected_value |= TX_DESC_STATUS_TXINTR; 518e6646167SDoug Evans } 519e6646167SDoug Evans g_assert_cmphex((result_desc.status_and_length & expected_mask), ==, 520e6646167SDoug Evans expected_value); 521e6646167SDoug Evans 522e6646167SDoug Evans /* Check data sent to the backend. */ 523e6646167SDoug Evans recv_len = ~0; 524*e7b79428SMarc-André Lureau ret = recv(fd, &recv_len, sizeof(recv_len), MSG_DONTWAIT); 525e6646167SDoug Evans g_assert_cmpint(ret, == , sizeof(recv_len)); 526e6646167SDoug Evans 527e6646167SDoug Evans g_assert(wait_socket_readable(fd)); 528e6646167SDoug Evans memset(buffer, 0xff, sizeof(buffer)); 529*e7b79428SMarc-André Lureau ret = recv(fd, buffer, test_size, MSG_DONTWAIT); 530e6646167SDoug Evans g_assert_cmpmem(buffer, ret, test_data, test_size); 531e6646167SDoug Evans } 532e6646167SDoug Evans 533e6646167SDoug Evans static void emc_send_verify(QTestState *qts, const EMCModule *mod, int fd, 534e6646167SDoug Evans bool with_irq) 535e6646167SDoug Evans { 536e6646167SDoug Evans NPCM7xxEMCTxDesc desc[NUM_TX_DESCRIPTORS]; 537e6646167SDoug Evans uint32_t desc_addr = DESC_ADDR; 538e6646167SDoug Evans static const char test1_data[] = "TEST1"; 539e6646167SDoug Evans static const char test2_data[] = "Testing 1 2 3 ..."; 540e6646167SDoug Evans uint32_t data1_addr = DATA_ADDR; 541e6646167SDoug Evans uint32_t data2_addr = data1_addr + sizeof(test1_data); 542e6646167SDoug Evans bool got_tdu; 543e6646167SDoug Evans uint32_t end_desc_addr; 544e6646167SDoug Evans 545e6646167SDoug Evans /* Prepare test data buffer. */ 546e6646167SDoug Evans qtest_memwrite(qts, data1_addr, test1_data, sizeof(test1_data)); 547e6646167SDoug Evans qtest_memwrite(qts, data2_addr, test2_data, sizeof(test2_data)); 548e6646167SDoug Evans 549e6646167SDoug Evans init_tx_desc(&desc[0], NUM_TX_DESCRIPTORS, desc_addr); 550e6646167SDoug Evans desc[0].txbsa = data1_addr; 551e6646167SDoug Evans desc[0].status_and_length |= sizeof(test1_data); 552e6646167SDoug Evans desc[1].txbsa = data2_addr; 553e6646167SDoug Evans desc[1].status_and_length |= sizeof(test2_data); 554e6646167SDoug Evans 555e6646167SDoug Evans enable_tx(qts, mod, &desc[0], NUM_TX_DESCRIPTORS, desc_addr, 556e6646167SDoug Evans with_irq ? REG_MIEN_ENTXINTR : 0); 557e6646167SDoug Evans 558a62ee00aSDoug Evans /* Prod the device to send the packet. */ 559a62ee00aSDoug Evans emc_write(qts, mod, REG_TSDR, 1); 560a62ee00aSDoug Evans 561e6646167SDoug Evans /* 562e6646167SDoug Evans * It's problematic to observe the interrupt for each packet. 563e6646167SDoug Evans * Instead just wait until all the packets go out. 564e6646167SDoug Evans */ 565e6646167SDoug Evans got_tdu = false; 566e6646167SDoug Evans while (!got_tdu) { 567e6646167SDoug Evans if (with_irq) { 568e6646167SDoug Evans g_assert_true(emc_wait_irq(qts, mod, TX_STEP_COUNT, 569e6646167SDoug Evans /*is_tx=*/true)); 570e6646167SDoug Evans } else { 571e6646167SDoug Evans g_assert_true(emc_wait_mista(qts, mod, TX_STEP_COUNT, 572e6646167SDoug Evans REG_MISTA_TXINTR)); 573e6646167SDoug Evans } 574e6646167SDoug Evans got_tdu = !!(emc_read(qts, mod, REG_MISTA) & REG_MISTA_TDU); 575e6646167SDoug Evans /* If we don't have TDU yet, reset the interrupt. */ 576e6646167SDoug Evans if (!got_tdu) { 577e6646167SDoug Evans emc_write(qts, mod, REG_MISTA, 578e6646167SDoug Evans emc_read(qts, mod, REG_MISTA) & 0xffff0000); 579e6646167SDoug Evans } 580e6646167SDoug Evans } 581e6646167SDoug Evans 582e6646167SDoug Evans end_desc_addr = desc_addr + 2 * sizeof(desc[0]); 583e6646167SDoug Evans g_assert_cmphex(emc_read(qts, mod, REG_CTXDSA), ==, end_desc_addr); 584e6646167SDoug Evans g_assert_cmphex(emc_read(qts, mod, REG_MISTA), ==, 585e6646167SDoug Evans REG_MISTA_TXCP | REG_MISTA_TXINTR | REG_MISTA_TDU); 586e6646167SDoug Evans 587e6646167SDoug Evans emc_send_verify1(qts, mod, fd, with_irq, 588e6646167SDoug Evans desc_addr, end_desc_addr, 589e6646167SDoug Evans test1_data, sizeof(test1_data)); 590e6646167SDoug Evans emc_send_verify1(qts, mod, fd, with_irq, 591e6646167SDoug Evans desc_addr + sizeof(desc[0]), end_desc_addr, 592e6646167SDoug Evans test2_data, sizeof(test2_data)); 593e6646167SDoug Evans } 594e6646167SDoug Evans 595e6646167SDoug Evans /* Initialize *desc (in host endian format). */ 596e6646167SDoug Evans static void init_rx_desc(NPCM7xxEMCRxDesc *desc, size_t count, 597e6646167SDoug Evans uint32_t desc_addr, uint32_t data_addr) 598e6646167SDoug Evans { 599e6646167SDoug Evans g_assert_true(count >= 2); 600e6646167SDoug Evans memset(desc, 0, sizeof(*desc) * count); 601e6646167SDoug Evans desc[0].rxbsa = data_addr; 602e6646167SDoug Evans desc[0].status_and_length = 603e6646167SDoug Evans (0b10 << RX_DESC_STATUS_OWNER_SHIFT | /* owner = 10: emc */ 604e6646167SDoug Evans 0 | /* RP = 0 */ 605e6646167SDoug Evans 0 | /* ALIE = 0 */ 606e6646167SDoug Evans 0 | /* RXGD = 0 */ 607e6646167SDoug Evans 0 | /* PTLE = 0 */ 608e6646167SDoug Evans 0 | /* CRCE = 0 */ 609e6646167SDoug Evans 0 | /* RXINTR = 0 */ 610e6646167SDoug Evans 0 /* length (filled in later) */); 611e6646167SDoug Evans /* Leave the last one alone, owned by the cpu -> stops transmission. */ 612e6646167SDoug Evans desc[0].nrxdsa = desc_addr + sizeof(*desc); 613e6646167SDoug Evans } 614e6646167SDoug Evans 615e6646167SDoug Evans static void enable_rx(QTestState *qts, const EMCModule *mod, 616e6646167SDoug Evans const NPCM7xxEMCRxDesc *desc, size_t count, 617e6646167SDoug Evans uint32_t desc_addr, uint32_t mien_flags, 618e6646167SDoug Evans uint32_t mcmdr_flags) 619e6646167SDoug Evans { 620e6646167SDoug Evans /* 621e6646167SDoug Evans * Write the descriptor to guest memory. 622e6646167SDoug Evans * FWIW, IWBN if the docs said the buffer needs to be at least DMARFC 623e6646167SDoug Evans * bytes. 624e6646167SDoug Evans */ 625e6646167SDoug Evans for (size_t i = 0; i < count; ++i) { 626e6646167SDoug Evans emc_write_rx_desc(qts, desc + i, desc_addr + i * sizeof(*desc)); 627e6646167SDoug Evans } 628e6646167SDoug Evans 629e6646167SDoug Evans /* Trigger receiving the packet. */ 630e6646167SDoug Evans /* The module must be reset before changing RXDLSA. */ 631e6646167SDoug Evans g_assert(emc_soft_reset(qts, mod)); 632e6646167SDoug Evans emc_write(qts, mod, REG_RXDLSA, desc_addr); 633e6646167SDoug Evans emc_write(qts, mod, REG_MIEN, REG_MIEN_ENRXGD | mien_flags); 634e6646167SDoug Evans 635e6646167SDoug Evans /* 636e6646167SDoug Evans * We don't know what the device's macaddr is, so just accept all 637e6646167SDoug Evans * unicast packets (AUP). 638e6646167SDoug Evans */ 639e6646167SDoug Evans emc_write(qts, mod, REG_CAMCMR, REG_CAMCMR_AUP); 640e6646167SDoug Evans emc_write(qts, mod, REG_CAMEN, 1 << 0); 641e6646167SDoug Evans { 642e6646167SDoug Evans uint32_t mcmdr = emc_read(qts, mod, REG_MCMDR); 643e6646167SDoug Evans mcmdr |= REG_MCMDR_RXON | mcmdr_flags; 644e6646167SDoug Evans emc_write(qts, mod, REG_MCMDR, mcmdr); 645e6646167SDoug Evans } 646e6646167SDoug Evans } 647e6646167SDoug Evans 648e6646167SDoug Evans static void emc_recv_verify(QTestState *qts, const EMCModule *mod, int fd, 649a62ee00aSDoug Evans bool with_irq, bool pump_rsdr) 650e6646167SDoug Evans { 651e6646167SDoug Evans NPCM7xxEMCRxDesc desc[NUM_RX_DESCRIPTORS]; 652e6646167SDoug Evans uint32_t desc_addr = DESC_ADDR; 653e6646167SDoug Evans uint32_t data_addr = DATA_ADDR; 654e6646167SDoug Evans int ret; 655e6646167SDoug Evans uint32_t expected_mask, expected_value; 656e6646167SDoug Evans NPCM7xxEMCRxDesc result_desc; 657e6646167SDoug Evans 658e6646167SDoug Evans /* Prepare test data buffer. */ 659e6646167SDoug Evans const char test[RX_DATA_LEN] = "TEST"; 660e6646167SDoug Evans int len = htonl(sizeof(test)); 661e6646167SDoug Evans const struct iovec iov[] = { 662e6646167SDoug Evans { 663e6646167SDoug Evans .iov_base = &len, 664e6646167SDoug Evans .iov_len = sizeof(len), 665e6646167SDoug Evans },{ 666e6646167SDoug Evans .iov_base = (char *) test, 667e6646167SDoug Evans .iov_len = sizeof(test), 668e6646167SDoug Evans }, 669e6646167SDoug Evans }; 670e6646167SDoug Evans 671e6646167SDoug Evans /* 672e6646167SDoug Evans * Reset the device BEFORE sending a test packet, otherwise the packet 673e6646167SDoug Evans * may get swallowed by an active device of an earlier test. 674e6646167SDoug Evans */ 675e6646167SDoug Evans init_rx_desc(&desc[0], NUM_RX_DESCRIPTORS, desc_addr, data_addr); 676e6646167SDoug Evans enable_rx(qts, mod, &desc[0], NUM_RX_DESCRIPTORS, desc_addr, 677e6646167SDoug Evans with_irq ? REG_MIEN_ENRXINTR : 0, 0); 678e6646167SDoug Evans 679a62ee00aSDoug Evans /* 680a62ee00aSDoug Evans * If requested, prod the device to accept a packet. 681a62ee00aSDoug Evans * This isn't necessary, the linux driver doesn't do this. 682a62ee00aSDoug Evans * Test doing/not-doing this for robustness. 683a62ee00aSDoug Evans */ 684a62ee00aSDoug Evans if (pump_rsdr) { 685a62ee00aSDoug Evans emc_write(qts, mod, REG_RSDR, 1); 686a62ee00aSDoug Evans } 687a62ee00aSDoug Evans 688e6646167SDoug Evans /* Send test packet to device's socket. */ 689e6646167SDoug Evans ret = iov_send(fd, iov, 2, 0, sizeof(len) + sizeof(test)); 690e6646167SDoug Evans g_assert_cmpint(ret, == , sizeof(test) + sizeof(len)); 691e6646167SDoug Evans 692e6646167SDoug Evans /* Wait for RX interrupt. */ 693e6646167SDoug Evans if (with_irq) { 694e6646167SDoug Evans g_assert_true(emc_wait_irq(qts, mod, RX_STEP_COUNT, /*is_tx=*/false)); 695e6646167SDoug Evans } else { 696e6646167SDoug Evans g_assert_true(emc_wait_mista(qts, mod, RX_STEP_COUNT, REG_MISTA_RXGD)); 697e6646167SDoug Evans } 698e6646167SDoug Evans 699e6646167SDoug Evans g_assert_cmphex(emc_read(qts, mod, REG_CRXDSA), ==, 700e6646167SDoug Evans desc_addr + sizeof(desc[0])); 701e6646167SDoug Evans 702e6646167SDoug Evans expected_mask = 0xffff; 703e6646167SDoug Evans expected_value = (REG_MISTA_DENI | 704e6646167SDoug Evans REG_MISTA_RXGD | 705e6646167SDoug Evans REG_MISTA_RXINTR); 706e6646167SDoug Evans g_assert_cmphex((emc_read(qts, mod, REG_MISTA) & expected_mask), 707e6646167SDoug Evans ==, expected_value); 708e6646167SDoug Evans 709e6646167SDoug Evans /* Read the descriptor back. */ 710e6646167SDoug Evans emc_read_rx_desc(qts, desc_addr, &result_desc); 711e6646167SDoug Evans /* Descriptor should be owned by cpu now. */ 712e6646167SDoug Evans g_assert((result_desc.status_and_length & RX_DESC_STATUS_OWNER_MASK) == 0); 713e6646167SDoug Evans /* Test the status bits, ignoring the length field. */ 714e6646167SDoug Evans expected_mask = 0xffff << 16; 715e6646167SDoug Evans expected_value = RX_DESC_STATUS_RXGD; 716e6646167SDoug Evans if (with_irq) { 717e6646167SDoug Evans expected_value |= RX_DESC_STATUS_RXINTR; 718e6646167SDoug Evans } 719e6646167SDoug Evans g_assert_cmphex((result_desc.status_and_length & expected_mask), ==, 720e6646167SDoug Evans expected_value); 721e6646167SDoug Evans g_assert_cmpint(RX_DESC_PKT_LEN(result_desc.status_and_length), ==, 722e6646167SDoug Evans RX_DATA_LEN + CRC_LENGTH); 723e6646167SDoug Evans 724e6646167SDoug Evans { 725e6646167SDoug Evans char buffer[RX_DATA_LEN]; 726e6646167SDoug Evans qtest_memread(qts, data_addr, buffer, sizeof(buffer)); 727e6646167SDoug Evans g_assert_cmpstr(buffer, == , "TEST"); 728e6646167SDoug Evans } 729e6646167SDoug Evans } 730e6646167SDoug Evans 731e6646167SDoug Evans static void emc_test_ptle(QTestState *qts, const EMCModule *mod, int fd) 732e6646167SDoug Evans { 733e6646167SDoug Evans NPCM7xxEMCRxDesc desc[NUM_RX_DESCRIPTORS]; 734e6646167SDoug Evans uint32_t desc_addr = DESC_ADDR; 735e6646167SDoug Evans uint32_t data_addr = DATA_ADDR; 736e6646167SDoug Evans int ret; 737e6646167SDoug Evans NPCM7xxEMCRxDesc result_desc; 738e6646167SDoug Evans uint32_t expected_mask, expected_value; 739e6646167SDoug Evans 740e6646167SDoug Evans /* Prepare test data buffer. */ 741e6646167SDoug Evans #define PTLE_DATA_LEN 1600 742e6646167SDoug Evans char test_data[PTLE_DATA_LEN]; 743e6646167SDoug Evans int len = htonl(sizeof(test_data)); 744e6646167SDoug Evans const struct iovec iov[] = { 745e6646167SDoug Evans { 746e6646167SDoug Evans .iov_base = &len, 747e6646167SDoug Evans .iov_len = sizeof(len), 748e6646167SDoug Evans },{ 749e6646167SDoug Evans .iov_base = (char *) test_data, 750e6646167SDoug Evans .iov_len = sizeof(test_data), 751e6646167SDoug Evans }, 752e6646167SDoug Evans }; 753e6646167SDoug Evans memset(test_data, 42, sizeof(test_data)); 754e6646167SDoug Evans 755e6646167SDoug Evans /* 756e6646167SDoug Evans * Reset the device BEFORE sending a test packet, otherwise the packet 757e6646167SDoug Evans * may get swallowed by an active device of an earlier test. 758e6646167SDoug Evans */ 759e6646167SDoug Evans init_rx_desc(&desc[0], NUM_RX_DESCRIPTORS, desc_addr, data_addr); 760e6646167SDoug Evans enable_rx(qts, mod, &desc[0], NUM_RX_DESCRIPTORS, desc_addr, 761e6646167SDoug Evans REG_MIEN_ENRXINTR, REG_MCMDR_ALP); 762e6646167SDoug Evans 763e6646167SDoug Evans /* Send test packet to device's socket. */ 764e6646167SDoug Evans ret = iov_send(fd, iov, 2, 0, sizeof(len) + sizeof(test_data)); 765e6646167SDoug Evans g_assert_cmpint(ret, == , sizeof(test_data) + sizeof(len)); 766e6646167SDoug Evans 767e6646167SDoug Evans /* Wait for RX interrupt. */ 768e6646167SDoug Evans g_assert_true(emc_wait_irq(qts, mod, RX_STEP_COUNT, /*is_tx=*/false)); 769e6646167SDoug Evans 770e6646167SDoug Evans /* Read the descriptor back. */ 771e6646167SDoug Evans emc_read_rx_desc(qts, desc_addr, &result_desc); 772e6646167SDoug Evans /* Descriptor should be owned by cpu now. */ 773e6646167SDoug Evans g_assert((result_desc.status_and_length & RX_DESC_STATUS_OWNER_MASK) == 0); 774e6646167SDoug Evans /* Test the status bits, ignoring the length field. */ 775e6646167SDoug Evans expected_mask = 0xffff << 16; 776e6646167SDoug Evans expected_value = (RX_DESC_STATUS_RXGD | 777e6646167SDoug Evans RX_DESC_STATUS_PTLE | 778e6646167SDoug Evans RX_DESC_STATUS_RXINTR); 779e6646167SDoug Evans g_assert_cmphex((result_desc.status_and_length & expected_mask), ==, 780e6646167SDoug Evans expected_value); 781e6646167SDoug Evans g_assert_cmpint(RX_DESC_PKT_LEN(result_desc.status_and_length), ==, 782e6646167SDoug Evans PTLE_DATA_LEN + CRC_LENGTH); 783e6646167SDoug Evans 784e6646167SDoug Evans { 785e6646167SDoug Evans char buffer[PTLE_DATA_LEN]; 786e6646167SDoug Evans qtest_memread(qts, data_addr, buffer, sizeof(buffer)); 787e6646167SDoug Evans g_assert(memcmp(buffer, test_data, PTLE_DATA_LEN) == 0); 788e6646167SDoug Evans } 789e6646167SDoug Evans } 790e6646167SDoug Evans 791e6646167SDoug Evans static void test_tx(gconstpointer test_data) 792e6646167SDoug Evans { 793e6646167SDoug Evans const TestData *td = test_data; 794e6646167SDoug Evans GString *cmd_line = g_string_new("-machine quanta-gsj"); 795e6646167SDoug Evans int *test_sockets = packet_test_init(emc_module_index(td->module), 796e6646167SDoug Evans cmd_line); 797e6646167SDoug Evans QTestState *qts = qtest_init(cmd_line->str); 798e6646167SDoug Evans 799e6646167SDoug Evans /* 800e6646167SDoug Evans * TODO: For pedantic correctness test_sockets[0] should be closed after 801e6646167SDoug Evans * the fork and before the exec, but that will require some harness 802e6646167SDoug Evans * improvements. 803e6646167SDoug Evans */ 804e6646167SDoug Evans close(test_sockets[1]); 805e6646167SDoug Evans /* Defensive programming */ 806e6646167SDoug Evans test_sockets[1] = -1; 807e6646167SDoug Evans 808e6646167SDoug Evans qtest_irq_intercept_in(qts, "/machine/soc/a9mpcore/gic"); 809e6646167SDoug Evans 810e6646167SDoug Evans emc_send_verify(qts, td->module, test_sockets[0], /*with_irq=*/false); 811e6646167SDoug Evans emc_send_verify(qts, td->module, test_sockets[0], /*with_irq=*/true); 812e6646167SDoug Evans 813e6646167SDoug Evans qtest_quit(qts); 814e6646167SDoug Evans } 815e6646167SDoug Evans 816e6646167SDoug Evans static void test_rx(gconstpointer test_data) 817e6646167SDoug Evans { 818e6646167SDoug Evans const TestData *td = test_data; 819e6646167SDoug Evans GString *cmd_line = g_string_new("-machine quanta-gsj"); 820e6646167SDoug Evans int *test_sockets = packet_test_init(emc_module_index(td->module), 821e6646167SDoug Evans cmd_line); 822e6646167SDoug Evans QTestState *qts = qtest_init(cmd_line->str); 823e6646167SDoug Evans 824e6646167SDoug Evans /* 825e6646167SDoug Evans * TODO: For pedantic correctness test_sockets[0] should be closed after 826e6646167SDoug Evans * the fork and before the exec, but that will require some harness 827e6646167SDoug Evans * improvements. 828e6646167SDoug Evans */ 829e6646167SDoug Evans close(test_sockets[1]); 830e6646167SDoug Evans /* Defensive programming */ 831e6646167SDoug Evans test_sockets[1] = -1; 832e6646167SDoug Evans 833e6646167SDoug Evans qtest_irq_intercept_in(qts, "/machine/soc/a9mpcore/gic"); 834e6646167SDoug Evans 835a62ee00aSDoug Evans emc_recv_verify(qts, td->module, test_sockets[0], /*with_irq=*/false, 836a62ee00aSDoug Evans /*pump_rsdr=*/false); 837a62ee00aSDoug Evans emc_recv_verify(qts, td->module, test_sockets[0], /*with_irq=*/false, 838a62ee00aSDoug Evans /*pump_rsdr=*/true); 839a62ee00aSDoug Evans emc_recv_verify(qts, td->module, test_sockets[0], /*with_irq=*/true, 840a62ee00aSDoug Evans /*pump_rsdr=*/false); 841a62ee00aSDoug Evans emc_recv_verify(qts, td->module, test_sockets[0], /*with_irq=*/true, 842a62ee00aSDoug Evans /*pump_rsdr=*/true); 843e6646167SDoug Evans emc_test_ptle(qts, td->module, test_sockets[0]); 844e6646167SDoug Evans 845e6646167SDoug Evans qtest_quit(qts); 846e6646167SDoug Evans } 847e6646167SDoug Evans 848e6646167SDoug Evans static void emc_add_test(const char *name, const TestData* td, 849e6646167SDoug Evans GTestDataFunc fn) 850e6646167SDoug Evans { 851e6646167SDoug Evans g_autofree char *full_name = g_strdup_printf( 852e6646167SDoug Evans "npcm7xx_emc/emc[%d]/%s", emc_module_index(td->module), name); 853e6646167SDoug Evans qtest_add_data_func(full_name, td, fn); 854e6646167SDoug Evans } 855e6646167SDoug Evans #define add_test(name, td) emc_add_test(#name, td, test_##name) 856e6646167SDoug Evans 857e6646167SDoug Evans int main(int argc, char **argv) 858e6646167SDoug Evans { 859e6646167SDoug Evans TestData test_data_list[ARRAY_SIZE(emc_module_list)]; 860e6646167SDoug Evans 861e6646167SDoug Evans g_test_init(&argc, &argv, NULL); 862e6646167SDoug Evans 863e6646167SDoug Evans for (int i = 0; i < ARRAY_SIZE(emc_module_list); ++i) { 864e6646167SDoug Evans TestData *td = &test_data_list[i]; 865e6646167SDoug Evans 866e6646167SDoug Evans td->module = &emc_module_list[i]; 867e6646167SDoug Evans 868e6646167SDoug Evans add_test(init, td); 869e6646167SDoug Evans add_test(tx, td); 870e6646167SDoug Evans add_test(rx, td); 871e6646167SDoug Evans } 872e6646167SDoug Evans 873e6646167SDoug Evans return g_test_run(); 874e6646167SDoug Evans } 875