153f18b3eSNicholas Piggin /*
253f18b3eSNicholas Piggin * QEMU PowerPC PowerNV ADU unit
353f18b3eSNicholas Piggin *
453f18b3eSNicholas Piggin * The ADU unit actually implements XSCOM, which is the bridge between MMIO
553f18b3eSNicholas Piggin * and PIB. However it also includes control and status registers and other
653f18b3eSNicholas Piggin * functions that are exposed as PIB (xscom) registers.
753f18b3eSNicholas Piggin *
853f18b3eSNicholas Piggin * To keep things simple, pnv_xscom.c remains the XSCOM bridge
953f18b3eSNicholas Piggin * implementation, and pnv_adu.c implements the ADU registers and other
1053f18b3eSNicholas Piggin * functions.
1153f18b3eSNicholas Piggin *
1253f18b3eSNicholas Piggin * Copyright (c) 2024, IBM Corporation.
1353f18b3eSNicholas Piggin *
1453f18b3eSNicholas Piggin * SPDX-License-Identifier: GPL-2.0-or-later
1553f18b3eSNicholas Piggin */
1653f18b3eSNicholas Piggin
1753f18b3eSNicholas Piggin #include "qemu/osdep.h"
1853f18b3eSNicholas Piggin #include "qemu/log.h"
1953f18b3eSNicholas Piggin
2053f18b3eSNicholas Piggin #include "hw/qdev-properties.h"
2153f18b3eSNicholas Piggin #include "hw/ppc/pnv.h"
2253f18b3eSNicholas Piggin #include "hw/ppc/pnv_adu.h"
2353f18b3eSNicholas Piggin #include "hw/ppc/pnv_chip.h"
2424bd283bSNicholas Piggin #include "hw/ppc/pnv_lpc.h"
2553f18b3eSNicholas Piggin #include "hw/ppc/pnv_xscom.h"
2653f18b3eSNicholas Piggin #include "trace.h"
2753f18b3eSNicholas Piggin
2824bd283bSNicholas Piggin #define ADU_LPC_BASE_REG 0x40
2924bd283bSNicholas Piggin #define ADU_LPC_CMD_REG 0x41
3024bd283bSNicholas Piggin #define ADU_LPC_DATA_REG 0x42
3124bd283bSNicholas Piggin #define ADU_LPC_STATUS_REG 0x43
3224bd283bSNicholas Piggin
pnv_adu_xscom_read(void * opaque,hwaddr addr,unsigned width)3353f18b3eSNicholas Piggin static uint64_t pnv_adu_xscom_read(void *opaque, hwaddr addr, unsigned width)
3453f18b3eSNicholas Piggin {
3524bd283bSNicholas Piggin PnvADU *adu = PNV_ADU(opaque);
3653f18b3eSNicholas Piggin uint32_t offset = addr >> 3;
3753f18b3eSNicholas Piggin uint64_t val = 0;
3853f18b3eSNicholas Piggin
3953f18b3eSNicholas Piggin switch (offset) {
4053f18b3eSNicholas Piggin case 0x18: /* Receive status reg */
4153f18b3eSNicholas Piggin case 0x12: /* log register */
4253f18b3eSNicholas Piggin case 0x13: /* error register */
4353f18b3eSNicholas Piggin break;
4424bd283bSNicholas Piggin case ADU_LPC_BASE_REG:
4524bd283bSNicholas Piggin /*
4624bd283bSNicholas Piggin * LPC Address Map in Pervasive ADU Workbook
4724bd283bSNicholas Piggin *
4824bd283bSNicholas Piggin * return PNV10_LPCM_BASE(chip) & PPC_BITMASK(8, 31);
4924bd283bSNicholas Piggin * XXX: implement as class property, or get from LPC?
5024bd283bSNicholas Piggin */
5124bd283bSNicholas Piggin qemu_log_mask(LOG_UNIMP, "ADU: LPC_BASE_REG is not implemented\n");
5224bd283bSNicholas Piggin break;
5324bd283bSNicholas Piggin case ADU_LPC_CMD_REG:
5424bd283bSNicholas Piggin val = adu->lpc_cmd_reg;
5524bd283bSNicholas Piggin break;
5624bd283bSNicholas Piggin case ADU_LPC_DATA_REG:
5724bd283bSNicholas Piggin val = adu->lpc_data_reg;
5824bd283bSNicholas Piggin break;
5924bd283bSNicholas Piggin case ADU_LPC_STATUS_REG:
6024bd283bSNicholas Piggin val = PPC_BIT(0); /* ack / done */
6124bd283bSNicholas Piggin break;
6253f18b3eSNicholas Piggin
6353f18b3eSNicholas Piggin default:
6453f18b3eSNicholas Piggin qemu_log_mask(LOG_UNIMP, "ADU Unimplemented read register: Ox%08x\n",
6553f18b3eSNicholas Piggin offset);
6653f18b3eSNicholas Piggin }
6753f18b3eSNicholas Piggin
6853f18b3eSNicholas Piggin trace_pnv_adu_xscom_read(addr, val);
6953f18b3eSNicholas Piggin
7053f18b3eSNicholas Piggin return val;
7153f18b3eSNicholas Piggin }
7253f18b3eSNicholas Piggin
lpc_cmd_read(PnvADU * adu)7324bd283bSNicholas Piggin static bool lpc_cmd_read(PnvADU *adu)
7424bd283bSNicholas Piggin {
7524bd283bSNicholas Piggin return !!(adu->lpc_cmd_reg & PPC_BIT(0));
7624bd283bSNicholas Piggin }
7724bd283bSNicholas Piggin
lpc_cmd_write(PnvADU * adu)7824bd283bSNicholas Piggin static bool lpc_cmd_write(PnvADU *adu)
7924bd283bSNicholas Piggin {
8024bd283bSNicholas Piggin return !lpc_cmd_read(adu);
8124bd283bSNicholas Piggin }
8224bd283bSNicholas Piggin
lpc_cmd_addr(PnvADU * adu)8324bd283bSNicholas Piggin static uint32_t lpc_cmd_addr(PnvADU *adu)
8424bd283bSNicholas Piggin {
8524bd283bSNicholas Piggin return (adu->lpc_cmd_reg & PPC_BITMASK(32, 63)) >> PPC_BIT_NR(63);
8624bd283bSNicholas Piggin }
8724bd283bSNicholas Piggin
lpc_cmd_size(PnvADU * adu)8824bd283bSNicholas Piggin static uint32_t lpc_cmd_size(PnvADU *adu)
8924bd283bSNicholas Piggin {
9024bd283bSNicholas Piggin return (adu->lpc_cmd_reg & PPC_BITMASK(5, 11)) >> PPC_BIT_NR(11);
9124bd283bSNicholas Piggin }
9224bd283bSNicholas Piggin
pnv_adu_xscom_write(void * opaque,hwaddr addr,uint64_t val,unsigned width)9353f18b3eSNicholas Piggin static void pnv_adu_xscom_write(void *opaque, hwaddr addr, uint64_t val,
9453f18b3eSNicholas Piggin unsigned width)
9553f18b3eSNicholas Piggin {
9624bd283bSNicholas Piggin PnvADU *adu = PNV_ADU(opaque);
9753f18b3eSNicholas Piggin uint32_t offset = addr >> 3;
9853f18b3eSNicholas Piggin
9953f18b3eSNicholas Piggin trace_pnv_adu_xscom_write(addr, val);
10053f18b3eSNicholas Piggin
10153f18b3eSNicholas Piggin switch (offset) {
10253f18b3eSNicholas Piggin case 0x18: /* Receive status reg */
10353f18b3eSNicholas Piggin case 0x12: /* log register */
10453f18b3eSNicholas Piggin case 0x13: /* error register */
10553f18b3eSNicholas Piggin break;
10653f18b3eSNicholas Piggin
10724bd283bSNicholas Piggin case ADU_LPC_BASE_REG:
10824bd283bSNicholas Piggin qemu_log_mask(LOG_UNIMP,
10924bd283bSNicholas Piggin "ADU: Changing LPC_BASE_REG is not implemented\n");
11024bd283bSNicholas Piggin break;
11124bd283bSNicholas Piggin
11224bd283bSNicholas Piggin case ADU_LPC_CMD_REG:
11324bd283bSNicholas Piggin adu->lpc_cmd_reg = val;
11424bd283bSNicholas Piggin if (lpc_cmd_read(adu)) {
11524bd283bSNicholas Piggin uint32_t lpc_addr = lpc_cmd_addr(adu);
11624bd283bSNicholas Piggin uint32_t lpc_size = lpc_cmd_size(adu);
11724bd283bSNicholas Piggin uint64_t data = 0;
11824bd283bSNicholas Piggin
119*a1657041SNicholas Piggin if (!is_power_of_2(lpc_size) || lpc_size > sizeof(data)) {
120*a1657041SNicholas Piggin qemu_log_mask(LOG_GUEST_ERROR, "ADU: Unsupported LPC access "
121*a1657041SNicholas Piggin "size:%" PRId32 "\n", lpc_size);
122*a1657041SNicholas Piggin break;
123*a1657041SNicholas Piggin }
124*a1657041SNicholas Piggin
12524bd283bSNicholas Piggin pnv_lpc_opb_read(adu->lpc, lpc_addr, (void *)&data, lpc_size);
12624bd283bSNicholas Piggin
12724bd283bSNicholas Piggin /*
12824bd283bSNicholas Piggin * ADU access is performed within 8-byte aligned sectors. Smaller
12924bd283bSNicholas Piggin * access sizes don't get formatted to the least significant byte,
13024bd283bSNicholas Piggin * but rather appear in the data reg at the same offset as the
13124bd283bSNicholas Piggin * address in memory. This shifts them into that position.
13224bd283bSNicholas Piggin */
13324bd283bSNicholas Piggin adu->lpc_data_reg = be64_to_cpu(data) >> ((lpc_addr & 7) * 8);
13424bd283bSNicholas Piggin }
13524bd283bSNicholas Piggin break;
13624bd283bSNicholas Piggin
13724bd283bSNicholas Piggin case ADU_LPC_DATA_REG:
13824bd283bSNicholas Piggin adu->lpc_data_reg = val;
13924bd283bSNicholas Piggin if (lpc_cmd_write(adu)) {
14024bd283bSNicholas Piggin uint32_t lpc_addr = lpc_cmd_addr(adu);
14124bd283bSNicholas Piggin uint32_t lpc_size = lpc_cmd_size(adu);
14224bd283bSNicholas Piggin uint64_t data;
14324bd283bSNicholas Piggin
144*a1657041SNicholas Piggin if (!is_power_of_2(lpc_size) || lpc_size > sizeof(data)) {
145*a1657041SNicholas Piggin qemu_log_mask(LOG_GUEST_ERROR, "ADU: Unsupported LPC access "
146*a1657041SNicholas Piggin "size:%" PRId32 "\n", lpc_size);
147*a1657041SNicholas Piggin break;
148*a1657041SNicholas Piggin }
149*a1657041SNicholas Piggin
15024bd283bSNicholas Piggin data = cpu_to_be64(val) >> ((lpc_addr & 7) * 8); /* See above */
15124bd283bSNicholas Piggin pnv_lpc_opb_write(adu->lpc, lpc_addr, (void *)&data, lpc_size);
15224bd283bSNicholas Piggin }
15324bd283bSNicholas Piggin break;
15424bd283bSNicholas Piggin
15524bd283bSNicholas Piggin case ADU_LPC_STATUS_REG:
15624bd283bSNicholas Piggin qemu_log_mask(LOG_UNIMP,
15724bd283bSNicholas Piggin "ADU: Changing LPC_STATUS_REG is not implemented\n");
15824bd283bSNicholas Piggin break;
15924bd283bSNicholas Piggin
16053f18b3eSNicholas Piggin default:
16153f18b3eSNicholas Piggin qemu_log_mask(LOG_UNIMP, "ADU Unimplemented write register: Ox%08x\n",
16253f18b3eSNicholas Piggin offset);
16353f18b3eSNicholas Piggin }
16453f18b3eSNicholas Piggin }
16553f18b3eSNicholas Piggin
16653f18b3eSNicholas Piggin const MemoryRegionOps pnv_adu_xscom_ops = {
16753f18b3eSNicholas Piggin .read = pnv_adu_xscom_read,
16853f18b3eSNicholas Piggin .write = pnv_adu_xscom_write,
16953f18b3eSNicholas Piggin .valid.min_access_size = 8,
17053f18b3eSNicholas Piggin .valid.max_access_size = 8,
17153f18b3eSNicholas Piggin .impl.min_access_size = 8,
17253f18b3eSNicholas Piggin .impl.max_access_size = 8,
17353f18b3eSNicholas Piggin .endianness = DEVICE_BIG_ENDIAN,
17453f18b3eSNicholas Piggin };
17553f18b3eSNicholas Piggin
pnv_adu_realize(DeviceState * dev,Error ** errp)17653f18b3eSNicholas Piggin static void pnv_adu_realize(DeviceState *dev, Error **errp)
17753f18b3eSNicholas Piggin {
17853f18b3eSNicholas Piggin PnvADU *adu = PNV_ADU(dev);
17953f18b3eSNicholas Piggin
18024bd283bSNicholas Piggin assert(adu->lpc);
18124bd283bSNicholas Piggin
18253f18b3eSNicholas Piggin /* XScom regions for ADU registers */
18353f18b3eSNicholas Piggin pnv_xscom_region_init(&adu->xscom_regs, OBJECT(dev),
18453f18b3eSNicholas Piggin &pnv_adu_xscom_ops, adu, "xscom-adu",
18553f18b3eSNicholas Piggin PNV9_XSCOM_ADU_SIZE);
18653f18b3eSNicholas Piggin }
18753f18b3eSNicholas Piggin
18824bd283bSNicholas Piggin static Property pnv_adu_properties[] = {
18924bd283bSNicholas Piggin DEFINE_PROP_LINK("lpc", PnvADU, lpc, TYPE_PNV_LPC, PnvLpcController *),
19024bd283bSNicholas Piggin DEFINE_PROP_END_OF_LIST(),
19124bd283bSNicholas Piggin };
19224bd283bSNicholas Piggin
pnv_adu_class_init(ObjectClass * klass,void * data)19353f18b3eSNicholas Piggin static void pnv_adu_class_init(ObjectClass *klass, void *data)
19453f18b3eSNicholas Piggin {
19553f18b3eSNicholas Piggin DeviceClass *dc = DEVICE_CLASS(klass);
19653f18b3eSNicholas Piggin
19753f18b3eSNicholas Piggin dc->realize = pnv_adu_realize;
19853f18b3eSNicholas Piggin dc->desc = "PowerNV ADU";
19924bd283bSNicholas Piggin device_class_set_props(dc, pnv_adu_properties);
20053f18b3eSNicholas Piggin dc->user_creatable = false;
20153f18b3eSNicholas Piggin }
20253f18b3eSNicholas Piggin
20353f18b3eSNicholas Piggin static const TypeInfo pnv_adu_type_info = {
20453f18b3eSNicholas Piggin .name = TYPE_PNV_ADU,
20553f18b3eSNicholas Piggin .parent = TYPE_DEVICE,
20653f18b3eSNicholas Piggin .instance_size = sizeof(PnvADU),
20753f18b3eSNicholas Piggin .class_init = pnv_adu_class_init,
20853f18b3eSNicholas Piggin .interfaces = (InterfaceInfo[]) {
20953f18b3eSNicholas Piggin { TYPE_PNV_XSCOM_INTERFACE },
21053f18b3eSNicholas Piggin { } },
21153f18b3eSNicholas Piggin };
21253f18b3eSNicholas Piggin
pnv_adu_register_types(void)21353f18b3eSNicholas Piggin static void pnv_adu_register_types(void)
21453f18b3eSNicholas Piggin {
21553f18b3eSNicholas Piggin type_register_static(&pnv_adu_type_info);
21653f18b3eSNicholas Piggin }
21753f18b3eSNicholas Piggin
21853f18b3eSNicholas Piggin type_init(pnv_adu_register_types);
219