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/* * Copyright (c) 2010-2011 Qlogic Corporation * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ /* * File : qla_misc.c * Author : David C Somayajulu, Qlogic Corporation, Aliso Viejo, CA 92656. */ #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sys/dev/qlxgb/qla_misc.c 229924 2012-01-10 07:45:00Z dim $"); #include "qla_os.h" #include "qla_reg.h" #include "qla_hw.h" #include "qla_def.h" #include "qla_reg.h" #include "qla_inline.h" #include "qla_glbl.h" #include "qla_dbg.h" /* * structure encapsulating the value to read/write to offchip memory */ typedef struct _offchip_mem_val { uint32_t data_lo; uint32_t data_hi; uint32_t data_ulo; uint32_t data_uhi; } offchip_mem_val_t; #define Q8_ADDR_UNDEFINED 0xFFFFFFFF /* * The index to this table is Bits 20-27 of the indirect register address */ static uint32_t indirect_to_base_map[] = { Q8_ADDR_UNDEFINED, /* 0x00 */ 0x77300000, /* 0x01 */ 0x29500000, /* 0x02 */ 0x2A500000, /* 0x03 */ Q8_ADDR_UNDEFINED, /* 0x04 */ 0x0D000000, /* 0x05 */ 0x1B100000, /* 0x06 */ 0x0E600000, /* 0x07 */ 0x0E000000, /* 0x08 */ 0x0E100000, /* 0x09 */ 0x0E200000, /* 0x0A */ 0x0E300000, /* 0x0B */ 0x42000000, /* 0x0C */ 0x41700000, /* 0x0D */ 0x42100000, /* 0x0E */ 0x34B00000, /* 0x0F */ 0x40500000, /* 0x10 */ 0x34000000, /* 0x11 */ 0x34100000, /* 0x12 */ 0x34200000, /* 0x13 */ 0x34300000, /* 0x14 */ 0x34500000, /* 0x15 */ 0x34400000, /* 0x16 */ 0x3C000000, /* 0x17 */ 0x3C100000, /* 0x18 */ 0x3C200000, /* 0x19 */ 0x3C300000, /* 0x1A */ Q8_ADDR_UNDEFINED, /* 0x1B */ 0x3C400000, /* 0x1C */ 0x41000000, /* 0x1D */ Q8_ADDR_UNDEFINED, /* 0x1E */ 0x0D100000, /* 0x1F */ Q8_ADDR_UNDEFINED, /* 0x20 */ 0x77300000, /* 0x21 */ 0x41600000, /* 0x22 */ Q8_ADDR_UNDEFINED, /* 0x23 */ Q8_ADDR_UNDEFINED, /* 0x24 */ Q8_ADDR_UNDEFINED, /* 0x25 */ Q8_ADDR_UNDEFINED, /* 0x26 */ Q8_ADDR_UNDEFINED, /* 0x27 */ 0x41700000, /* 0x28 */ Q8_ADDR_UNDEFINED, /* 0x29 */ 0x08900000, /* 0x2A */ 0x70A00000, /* 0x2B */ 0x70B00000, /* 0x2C */ 0x70C00000, /* 0x2D */ 0x08D00000, /* 0x2E */ 0x08E00000, /* 0x2F */ 0x70F00000, /* 0x30 */ 0x40500000, /* 0x31 */ 0x42000000, /* 0x32 */ 0x42100000, /* 0x33 */ Q8_ADDR_UNDEFINED, /* 0x34 */ 0x08800000, /* 0x35 */ 0x09100000, /* 0x36 */ 0x71200000, /* 0x37 */ 0x40600000, /* 0x38 */ Q8_ADDR_UNDEFINED, /* 0x39 */ 0x71800000, /* 0x3A */ 0x19900000, /* 0x3B */ 0x1A900000, /* 0x3C */ Q8_ADDR_UNDEFINED, /* 0x3D */ 0x34600000, /* 0x3E */ Q8_ADDR_UNDEFINED, /* 0x3F */ }; /* * Address Translation Table for CRB to offsets from PCI BAR0 */ typedef struct _crb_to_pci { uint32_t crb_addr; uint32_t pci_addr; } crb_to_pci_t; static crb_to_pci_t crbinit_to_pciaddr[] = { {(0x088 << 20), (0x035 << 20)}, {(0x089 << 20), (0x02A << 20)}, {(0x08D << 20), (0x02E << 20)}, {(0x08E << 20), (0x02F << 20)}, {(0x0C6 << 20), (0x023 << 20)}, {(0x0C7 << 20), (0x024 << 20)}, {(0x0C8 << 20), (0x025 << 20)}, {(0x0D0 << 20), (0x005 << 20)}, {(0x0D1 << 20), (0x01F << 20)}, {(0x0E0 << 20), (0x008 << 20)}, {(0x0E1 << 20), (0x009 << 20)}, {(0x0E2 << 20), (0x00A << 20)}, {(0x0E3 << 20), (0x00B << 20)}, {(0x0E6 << 20), (0x007 << 20)}, {(0x199 << 20), (0x03B << 20)}, {(0x1B1 << 20), (0x006 << 20)}, {(0x295 << 20), (0x002 << 20)}, {(0x29A << 20), (0x000 << 20)}, {(0x2A5 << 20), (0x003 << 20)}, {(0x340 << 20), (0x011 << 20)}, {(0x341 << 20), (0x012 << 20)}, {(0x342 << 20), (0x013 << 20)}, {(0x343 << 20), (0x014 << 20)}, {(0x344 << 20), (0x016 << 20)}, {(0x345 << 20), (0x015 << 20)}, {(0x3C0 << 20), (0x017 << 20)}, {(0x3C1 << 20), (0x018 << 20)}, {(0x3C2 << 20), (0x019 << 20)}, {(0x3C3 << 20), (0x01A << 20)}, {(0x3C4 << 20), (0x01C << 20)}, {(0x3C5 << 20), (0x01B << 20)}, {(0x405 << 20), (0x031 << 20)}, {(0x406 << 20), (0x038 << 20)}, {(0x410 << 20), (0x01D << 20)}, {(0x416 << 20), (0x022 << 20)}, {(0x417 << 20), (0x028 << 20)}, {(0x420 << 20), (0x032 << 20)}, {(0x421 << 20), (0x033 << 20)}, {(0x700 << 20), (0x00C << 20)}, {(0x701 << 20), (0x00D << 20)}, {(0x702 << 20), (0x00E << 20)}, {(0x703 << 20), (0x00F << 20)}, {(0x704 << 20), (0x010 << 20)}, {(0x70A << 20), (0x02B << 20)}, {(0x70B << 20), (0x02C << 20)}, {(0x70C << 20), (0x02D << 20)}, {(0x70F << 20), (0x030 << 20)}, {(0x718 << 20), (0x03A << 20)}, {(0x758 << 20), (0x026 << 20)}, {(0x759 << 20), (0x027 << 20)}, {(0x773 << 20), (0x001 << 20)} }; #define Q8_INVALID_ADDRESS (-1) #define Q8_ADDR_MASK (0xFFF << 20) typedef struct _addr_val { uint32_t addr; uint32_t value; uint32_t pci_addr; uint32_t ind_addr; } addr_val_t; /* * Name: qla_rdwr_indreg32 * Function: Read/Write an Indirect Register */ int qla_rdwr_indreg32(qla_host_t *ha, uint32_t addr, uint32_t *val, uint32_t rd) { uint32_t offset; int count = 100; offset = (addr & 0xFFF00000) >> 20; if (offset > 0x3F) { device_printf(ha->pci_dev, "%s: invalid addr 0x%08x\n", __func__, addr); return -1; } offset = indirect_to_base_map[offset]; if (offset == Q8_ADDR_UNDEFINED) { device_printf(ha->pci_dev, "%s: undefined map 0x%08x\n", __func__, addr); return -1; } offset = offset | (addr & 0x000F0000); if (qla_sem_lock(ha, Q8_SEM7_LOCK, 0, 0)) { device_printf(ha->pci_dev, "%s: SEM7_LOCK failed\n", __func__); return (-1); } WRITE_OFFSET32(ha, Q8_CRB_WINDOW_2M, offset); while (offset != (READ_OFFSET32(ha, Q8_CRB_WINDOW_2M))) { count--; if (!count) { qla_sem_unlock(ha, Q8_SEM7_UNLOCK); return -1; } qla_mdelay(__func__, 1); } if (rd) { *val = READ_OFFSET32(ha, ((addr & 0xFFFF) | 0x1E0000)); } else { WRITE_OFFSET32(ha, ((addr & 0xFFFF) | 0x1E0000), *val); } qla_sem_unlock(ha, Q8_SEM7_UNLOCK); return 0; } /* * Name: qla_rdwr_offchip_mem * Function: Read/Write OffChip Memory */ static int qla_rdwr_offchip_mem(qla_host_t *ha, uint64_t addr, offchip_mem_val_t *val, uint32_t rd) { uint32_t count = 100; uint32_t data; WRITE_OFFSET32(ha, Q8_MIU_TEST_AGT_ADDR_LO, (uint32_t)addr); WRITE_OFFSET32(ha, Q8_MIU_TEST_AGT_ADDR_HI, (uint32_t)(addr >> 32)); if (!rd) { WRITE_OFFSET32(ha, Q8_MIU_TEST_AGT_WRDATA_LO, val->data_lo); WRITE_OFFSET32(ha, Q8_MIU_TEST_AGT_WRDATA_HI, val->data_hi); WRITE_OFFSET32(ha, Q8_MIU_TEST_AGT_WRDATA_ULO, val->data_ulo); WRITE_OFFSET32(ha, Q8_MIU_TEST_AGT_WRDATA_UHI, val->data_uhi); WRITE_OFFSET32(ha, Q8_MIU_TEST_AGT_CTRL, 0x07); /* Write */ } else { WRITE_OFFSET32(ha, Q8_MIU_TEST_AGT_CTRL, 0x03); /* Read */ } while (count--) { data = READ_OFFSET32(ha, Q8_MIU_TEST_AGT_CTRL); if (!(data & BIT_3)) { if (rd) { val->data_lo = READ_OFFSET32(ha, \ Q8_MIU_TEST_AGT_RDDATA_LO); val->data_hi = READ_OFFSET32(ha, \ Q8_MIU_TEST_AGT_RDDATA_HI); val->data_ulo = READ_OFFSET32(ha, \ Q8_MIU_TEST_AGT_RDDATA_ULO); val->data_uhi = READ_OFFSET32(ha, \ Q8_MIU_TEST_AGT_RDDATA_UHI); } return 0; } else qla_mdelay(__func__, 1); } device_printf(ha->pci_dev, "%s: failed[0x%08x]\n", __func__, data); return (-1); } /* * Name: qla_rd_flash32 * Function: Read Flash Memory */ int qla_rd_flash32(qla_host_t *ha, uint32_t addr, uint32_t *data) { uint32_t val; uint32_t count = 100; if (qla_sem_lock(ha, Q8_SEM2_LOCK, 0, 0)) { device_printf(ha->pci_dev, "%s: SEM2_LOCK failed\n", __func__); return (-1); } WRITE_OFFSET32(ha, Q8_ROM_LOCKID, 0xa5a5a5a5); val = addr; qla_rdwr_indreg32(ha, Q8_ROM_ADDRESS, &val, 0); val = 0; qla_rdwr_indreg32(ha, Q8_ROM_DUMMY_BYTE_COUNT, &val, 0); val = 3; qla_rdwr_indreg32(ha, Q8_ROM_ADDR_BYTE_COUNT, &val, 0); QLA_USEC_DELAY(100); val = ROM_OPCODE_FAST_RD; qla_rdwr_indreg32(ha, Q8_ROM_INSTR_OPCODE, &val, 0); while (!((val = READ_OFFSET32(ha, Q8_ROM_STATUS)) & BIT_1)) { count--; if (!count) { qla_sem_unlock(ha, Q8_SEM7_UNLOCK); return -1; } } val = 0; qla_rdwr_indreg32(ha, Q8_ROM_DUMMY_BYTE_COUNT, &val, 0); qla_rdwr_indreg32(ha, Q8_ROM_ADDR_BYTE_COUNT, &val, 0); QLA_USEC_DELAY(100); qla_rdwr_indreg32(ha, Q8_ROM_RD_DATA, data, 1); qla_sem_unlock(ha, Q8_SEM2_UNLOCK); return 0; } /* * Name: qla_int_to_pci_addr_map * Function: Convert's Internal(CRB) Address to Indirect Address */ static uint32_t qla_int_to_pci_addr_map(qla_host_t *ha, uint32_t int_addr) { uint32_t crb_to_pci_table_size, i; uint32_t addr; crb_to_pci_table_size = sizeof(crbinit_to_pciaddr)/sizeof(crb_to_pci_t); addr = int_addr & Q8_ADDR_MASK; for (i = 0; i < crb_to_pci_table_size; i++) { if (crbinit_to_pciaddr[i].crb_addr == addr) { addr = (int_addr & ~Q8_ADDR_MASK) | crbinit_to_pciaddr[i].pci_addr; return (addr); } } return (Q8_INVALID_ADDRESS); } /* * Name: qla_filter_pci_addr * Function: Filter's out Indirect Addresses which are not writeable */ static uint32_t qla_filter_pci_addr(qla_host_t *ha, uint32_t addr) { if ((addr == Q8_INVALID_ADDRESS) || (addr == 0x00112040) || (addr == 0x00112048) || ((addr & 0xFFFF0FFF) == 0x001100C4) || ((addr & 0xFFFF0FFF) == 0x001100C8) || ((addr & 0x0FF00000) == 0x00200000) || (addr == 0x022021FC) || (addr == 0x0330001C) || (addr == 0x03300024) || (addr == 0x033000A8) || (addr == 0x033000C8) || (addr == 0x033000BC) || ((addr & 0x0FF00000) == 0x03A00000) || (addr == 0x03B0001C)) return (Q8_INVALID_ADDRESS); else return (addr); } /* * Name: qla_crb_init * Function: CRB Initialization - first step in the initialization after reset * Essentially reads the address/value pairs from address = 0x00 and * writes the value into address in the addr/value pair. */ static int qla_crb_init(qla_host_t *ha) { uint32_t val, sig; uint32_t offset, count, i; addr_val_t *addr_val_map, *avmap; qla_rd_flash32(ha, 0, &sig); QL_DPRINT2((ha->pci_dev, "%s: val[0] = 0x%08x\n", __func__, sig)); qla_rd_flash32(ha, 4, &val); QL_DPRINT2((ha->pci_dev, "%s: val[4] = 0x%08x\n", __func__, val)); count = val >> 16; offset = val & 0xFFFF; offset = offset << 2; QL_DPRINT2((ha->pci_dev, "%s: [sig,val]=[0x%08x, 0x%08x] %d pairs\n", __func__, sig, val, count)); addr_val_map = avmap = malloc((sizeof(addr_val_t) * count), M_QLA8XXXBUF, M_NOWAIT); if (addr_val_map == NULL) { device_printf(ha->pci_dev, "%s: malloc failed\n", __func__); return (-1); } memset(avmap, 0, (sizeof(addr_val_t) * count)); count = count << 1; for (i = 0; i < count; ) { qla_rd_flash32(ha, (offset + (i * 4)), &avmap->value); i++; qla_rd_flash32(ha, (offset + (i * 4)), &avmap->addr); i++; avmap->pci_addr = qla_int_to_pci_addr_map(ha, avmap->addr); avmap->ind_addr = qla_filter_pci_addr(ha, avmap->pci_addr); QL_DPRINT2((ha->pci_dev, "%s: [0x%02x][0x%08x:0x%08x:0x%08x] 0x%08x\n", __func__, (i >> 1), avmap->addr, avmap->pci_addr, avmap->ind_addr, avmap->value)); if (avmap->ind_addr != Q8_INVALID_ADDRESS) { qla_rdwr_indreg32(ha, avmap->ind_addr, &avmap->value,0); qla_mdelay(__func__, 1); } avmap++; } free (addr_val_map, M_QLA8XXXBUF); return (0); } /* * Name: qla_init_peg_regs * Function: Protocol Engine Register Initialization */ static void qla_init_peg_regs(qla_host_t *ha) { WRITE_OFFSET32(ha, Q8_PEG_D_RESET1, 0x001E); WRITE_OFFSET32(ha, Q8_PEG_D_RESET2, 0x0008); WRITE_OFFSET32(ha, Q8_PEG_I_RESET, 0x0008); WRITE_OFFSET32(ha, Q8_PEG_0_CLR1, 0x0000); WRITE_OFFSET32(ha, Q8_PEG_0_CLR2, 0x0000); WRITE_OFFSET32(ha, Q8_PEG_1_CLR1, 0x0000); WRITE_OFFSET32(ha, Q8_PEG_1_CLR2, 0x0000); WRITE_OFFSET32(ha, Q8_PEG_2_CLR1, 0x0000); WRITE_OFFSET32(ha, Q8_PEG_2_CLR2, 0x0000); WRITE_OFFSET32(ha, Q8_PEG_3_CLR1, 0x0000); WRITE_OFFSET32(ha, Q8_PEG_3_CLR2, 0x0000); WRITE_OFFSET32(ha, Q8_PEG_4_CLR1, 0x0000); WRITE_OFFSET32(ha, Q8_PEG_4_CLR2, 0x0000); } /* * Name: qla_load_fw_from_flash * Function: Reads the Bootloader from Flash and Loads into Offchip Memory */ static void qla_load_fw_from_flash(qla_host_t *ha) { uint64_t mem_off = 0x10000; uint32_t flash_off = 0x10000; uint32_t count; offchip_mem_val_t val; /* only bootloader needs to be loaded into memory */ for (count = 0; count < 0x20000 ; ) { qla_rd_flash32(ha, flash_off, &val.data_lo); count = count + 4; flash_off = flash_off + 4; qla_rd_flash32(ha, flash_off, &val.data_hi); count = count + 4; flash_off = flash_off + 4; qla_rd_flash32(ha, flash_off, &val.data_ulo); count = count + 4; flash_off = flash_off + 4; qla_rd_flash32(ha, flash_off, &val.data_uhi); count = count + 4; flash_off = flash_off + 4; qla_rdwr_offchip_mem(ha, mem_off, &val, 0); mem_off = mem_off + 16; } return; } /* * Name: qla_init_from_flash * Function: Performs Initialization which consists of the following sequence * - reset * - CRB Init * - Peg Init * - Read the Bootloader from Flash and Load into Offchip Memory * - Kick start the bootloader which loads the rest of the firmware * and performs the remaining steps in the initialization process. */ static int qla_init_from_flash(qla_host_t *ha) { uint32_t delay = 300; uint32_t data; qla_hw_reset(ha); qla_mdelay(__func__, 100); qla_crb_init(ha); qla_mdelay(__func__, 10); qla_init_peg_regs(ha); qla_mdelay(__func__, 10); qla_load_fw_from_flash(ha); WRITE_OFFSET32(ha, Q8_CMDPEG_STATE, 0x00000000); WRITE_OFFSET32(ha, Q8_PEG_0_RESET, 0x00001020); WRITE_OFFSET32(ha, Q8_ASIC_RESET, 0x0080001E); qla_mdelay(__func__, 100); do { data = READ_OFFSET32(ha, Q8_CMDPEG_STATE); QL_DPRINT2((ha->pci_dev, "%s: func[%d] cmdpegstate 0x%08x\n", __func__, ha->pci_func, data)); if (data == CMDPEG_PHAN_INIT_COMPLETE) { QL_DPRINT2((ha->pci_dev, "%s: func[%d] init complete\n", __func__, ha->pci_func)); return(0); } qla_mdelay(__func__, 100); } while (delay--); device_printf(ha->pci_dev, "%s: func[%d] Q8_PEG_HALT_STATUS1[0x%08x] STATUS2[0x%08x]" " HEARTBEAT[0x%08x] RCVPEG_STATE[0x%08x]" " CMDPEG_STATE[0x%08x]\n", __func__, ha->pci_func, (READ_OFFSET32(ha, Q8_PEG_HALT_STATUS1)), (READ_OFFSET32(ha, Q8_PEG_HALT_STATUS2)), (READ_OFFSET32(ha, Q8_FIRMWARE_HEARTBEAT)), (READ_OFFSET32(ha, Q8_RCVPEG_STATE)), data); return (-1); } /* * Name: qla_init_hw * Function: Initializes P3+ hardware. */ int qla_init_hw(qla_host_t *ha) { device_t dev; int ret = 0; uint32_t val, delay = 300; dev = ha->pci_dev; QL_DPRINT1((dev, "%s: enter\n", __func__)); qla_mdelay(__func__, 100); if (ha->pci_func & 0x1) { while ((ha->pci_func & 0x1) && delay--) { val = READ_OFFSET32(ha, Q8_CMDPEG_STATE); if (val == CMDPEG_PHAN_INIT_COMPLETE) { QL_DPRINT2((dev, "%s: func = %d init complete\n", __func__, ha->pci_func)); qla_mdelay(__func__, 100); goto qla_init_exit; } qla_mdelay(__func__, 100); } return (-1); } val = READ_OFFSET32(ha, Q8_CMDPEG_STATE); if (val != CMDPEG_PHAN_INIT_COMPLETE) { ret = qla_init_from_flash(ha); qla_mdelay(__func__, 100); } qla_init_exit: ha->fw_ver_major = READ_OFFSET32(ha, Q8_FW_VER_MAJOR); ha->fw_ver_minor = READ_OFFSET32(ha, Q8_FW_VER_MINOR); ha->fw_ver_sub = READ_OFFSET32(ha, Q8_FW_VER_SUB); ha->fw_ver_build = READ_OFFSET32(ha, Q8_FW_VER_BUILD); return (ret); }