/* * Inter-Thread Communication Unit emulation. * * Copyright (c) 2016 Imagination Technologies * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, see . */ #include "qemu/osdep.h" #include "qapi/error.h" #include "hw/hw.h" #include "hw/sysbus.h" #include "sysemu/sysemu.h" #include "hw/misc/mips_itu.h" #define ITC_TAG_ADDRSPACE_SZ (ITC_ADDRESSMAP_NUM * 8) /* Initialize as 4kB area to fit all 32 cells with default 128B grain. Storage may be resized by the software. */ #define ITC_STORAGE_ADDRSPACE_SZ 0x1000 #define ITC_FIFO_NUM_MAX 16 #define ITC_SEMAPH_NUM_MAX 16 #define ITC_AM1_NUMENTRIES_OFS 20 #define ITC_CELL_PV_MAX_VAL 0xFFFF #define ITC_CELL_TAG_FIFO_DEPTH 28 #define ITC_CELL_TAG_FIFO_PTR 18 #define ITC_CELL_TAG_FIFO 17 #define ITC_CELL_TAG_T 16 #define ITC_CELL_TAG_F 1 #define ITC_CELL_TAG_E 0 #define ITC_AM0_BASE_ADDRESS_MASK 0xFFFFFC00ULL #define ITC_AM0_EN_MASK 0x1 #define ITC_AM1_ADDR_MASK_MASK 0x1FC00 #define ITC_AM1_ENTRY_GRAIN_MASK 0x7 typedef enum ITCView { ITCVIEW_BYPASS = 0, ITCVIEW_CONTROL = 1, ITCVIEW_EF_SYNC = 2, ITCVIEW_EF_TRY = 3, ITCVIEW_PV_SYNC = 4, ITCVIEW_PV_TRY = 5 } ITCView; MemoryRegion *mips_itu_get_tag_region(MIPSITUState *itu) { return &itu->tag_io; } static uint64_t itc_tag_read(void *opaque, hwaddr addr, unsigned size) { MIPSITUState *tag = (MIPSITUState *)opaque; uint64_t index = addr >> 3; uint64_t ret = 0; switch (index) { case 0 ... ITC_ADDRESSMAP_NUM: ret = tag->ITCAddressMap[index]; break; default: qemu_log_mask(LOG_GUEST_ERROR, "Read 0x%" PRIx64 "\n", addr); break; } return ret; } static void itc_reconfigure(MIPSITUState *tag) { uint64_t *am = &tag->ITCAddressMap[0]; MemoryRegion *mr = &tag->storage_io; hwaddr address = am[0] & ITC_AM0_BASE_ADDRESS_MASK; uint64_t size = (1 << 10) + (am[1] & ITC_AM1_ADDR_MASK_MASK); bool is_enabled = (am[0] & ITC_AM0_EN_MASK) != 0; memory_region_transaction_begin(); if (!(size & (size - 1))) { memory_region_set_size(mr, size); } memory_region_set_address(mr, address); memory_region_set_enabled(mr, is_enabled); memory_region_transaction_commit(); } static void itc_tag_write(void *opaque, hwaddr addr, uint64_t data, unsigned size) { MIPSITUState *tag = (MIPSITUState *)opaque; uint64_t *am = &tag->ITCAddressMap[0]; uint64_t am_old, mask; uint64_t index = addr >> 3; switch (index) { case 0: mask = ITC_AM0_BASE_ADDRESS_MASK | ITC_AM0_EN_MASK; break; case 1: mask = ITC_AM1_ADDR_MASK_MASK | ITC_AM1_ENTRY_GRAIN_MASK; break; default: qemu_log_mask(LOG_GUEST_ERROR, "Bad write 0x%" PRIx64 "\n", addr); return; } am_old = am[index]; am[index] = (data & mask) | (am_old & ~mask); if (am_old != am[index]) { itc_reconfigure(tag); } } static const MemoryRegionOps itc_tag_ops = { .read = itc_tag_read, .write = itc_tag_write, .impl = { .max_access_size = 8, }, .endianness = DEVICE_NATIVE_ENDIAN, }; static inline uint32_t get_num_cells(MIPSITUState *s) { return s->num_fifo + s->num_semaphores; } static inline ITCView get_itc_view(hwaddr addr) { return (addr >> 3) & 0xf; } static inline int get_cell_stride_shift(const MIPSITUState *s) { /* Minimum interval (for EntryGain = 0) is 128 B */ return 7 + (s->ITCAddressMap[1] & ITC_AM1_ENTRY_GRAIN_MASK); } static inline ITCStorageCell *get_cell(MIPSITUState *s, hwaddr addr) { uint32_t cell_idx = addr >> get_cell_stride_shift(s); uint32_t num_cells = get_num_cells(s); if (cell_idx >= num_cells) { cell_idx = num_cells - 1; } return &s->cell[cell_idx]; } static void wake_blocked_threads(ITCStorageCell *c) { CPUState *cs; CPU_FOREACH(cs) { if (cs->halted && (c->blocked_threads & (1ULL << cs->cpu_index))) { cpu_interrupt(cs, CPU_INTERRUPT_WAKE); } } c->blocked_threads = 0; } static void QEMU_NORETURN block_thread_and_exit(ITCStorageCell *c) { c->blocked_threads |= 1ULL << current_cpu->cpu_index; cpu_restore_state(current_cpu, current_cpu->mem_io_pc); current_cpu->halted = 1; current_cpu->exception_index = EXCP_HLT; cpu_loop_exit(current_cpu); } /* ITC Bypass View */ static inline uint64_t view_bypass_read(ITCStorageCell *c) { if (c->tag.FIFO) { return c->data[c->fifo_out]; } else { return c->data[0]; } } static inline void view_bypass_write(ITCStorageCell *c, uint64_t val) { if (c->tag.FIFO && (c->tag.FIFOPtr > 0)) { int idx = (c->fifo_out + c->tag.FIFOPtr - 1) % ITC_CELL_DEPTH; c->data[idx] = val; } /* ignore a write to the semaphore cell */ } /* ITC Control View */ static inline uint64_t view_control_read(ITCStorageCell *c) { return ((uint64_t)c->tag.FIFODepth << ITC_CELL_TAG_FIFO_DEPTH) | (c->tag.FIFOPtr << ITC_CELL_TAG_FIFO_PTR) | (c->tag.FIFO << ITC_CELL_TAG_FIFO) | (c->tag.T << ITC_CELL_TAG_T) | (c->tag.E << ITC_CELL_TAG_E) | (c->tag.F << ITC_CELL_TAG_F); } static inline void view_control_write(ITCStorageCell *c, uint64_t val) { c->tag.T = (val >> ITC_CELL_TAG_T) & 1; c->tag.E = (val >> ITC_CELL_TAG_E) & 1; c->tag.F = (val >> ITC_CELL_TAG_F) & 1; if (c->tag.E) { c->tag.FIFOPtr = 0; } } /* ITC Empty/Full View */ static uint64_t view_ef_common_read(ITCStorageCell *c, bool blocking) { uint64_t ret = 0; if (!c->tag.FIFO) { return 0; } c->tag.F = 0; if (blocking && c->tag.E) { block_thread_and_exit(c); } if (c->blocked_threads) { wake_blocked_threads(c); } if (c->tag.FIFOPtr > 0) { ret = c->data[c->fifo_out]; c->fifo_out = (c->fifo_out + 1) % ITC_CELL_DEPTH; c->tag.FIFOPtr--; } if (c->tag.FIFOPtr == 0) { c->tag.E = 1; } return ret; } static uint64_t view_ef_sync_read(ITCStorageCell *c) { return view_ef_common_read(c, true); } static uint64_t view_ef_try_read(ITCStorageCell *c) { return view_ef_common_read(c, false); } static inline void view_ef_common_write(ITCStorageCell *c, uint64_t val, bool blocking) { if (!c->tag.FIFO) { return; } c->tag.E = 0; if (blocking && c->tag.F) { block_thread_and_exit(c); } if (c->blocked_threads) { wake_blocked_threads(c); } if (c->tag.FIFOPtr < ITC_CELL_DEPTH) { int idx = (c->fifo_out + c->tag.FIFOPtr) % ITC_CELL_DEPTH; c->data[idx] = val; c->tag.FIFOPtr++; } if (c->tag.FIFOPtr == ITC_CELL_DEPTH) { c->tag.F = 1; } } static void view_ef_sync_write(ITCStorageCell *c, uint64_t val) { view_ef_common_write(c, val, true); } static void view_ef_try_write(ITCStorageCell *c, uint64_t val) { view_ef_common_write(c, val, false); } /* ITC P/V View */ static uint64_t view_pv_common_read(ITCStorageCell *c, bool blocking) { uint64_t ret = c->data[0]; if (c->tag.FIFO) { return 0; } if (c->data[0] > 0) { c->data[0]--; } else if (blocking) { block_thread_and_exit(c); } return ret; } static uint64_t view_pv_sync_read(ITCStorageCell *c) { return view_pv_common_read(c, true); } static uint64_t view_pv_try_read(ITCStorageCell *c) { return view_pv_common_read(c, false); } static inline void view_pv_common_write(ITCStorageCell *c) { if (c->tag.FIFO) { return; } if (c->data[0] < ITC_CELL_PV_MAX_VAL) { c->data[0]++; } if (c->blocked_threads) { wake_blocked_threads(c); } } static void view_pv_sync_write(ITCStorageCell *c) { view_pv_common_write(c); } static void view_pv_try_write(ITCStorageCell *c) { view_pv_common_write(c); } static uint64_t itc_storage_read(void *opaque, hwaddr addr, unsigned size) { MIPSITUState *s = (MIPSITUState *)opaque; ITCStorageCell *cell = get_cell(s, addr); ITCView view = get_itc_view(addr); uint64_t ret = -1; switch (view) { case ITCVIEW_BYPASS: ret = view_bypass_read(cell); break; case ITCVIEW_CONTROL: ret = view_control_read(cell); break; case ITCVIEW_EF_SYNC: ret = view_ef_sync_read(cell); break; case ITCVIEW_EF_TRY: ret = view_ef_try_read(cell); break; case ITCVIEW_PV_SYNC: ret = view_pv_sync_read(cell); break; case ITCVIEW_PV_TRY: ret = view_pv_try_read(cell); break; default: qemu_log_mask(LOG_GUEST_ERROR, "itc_storage_read: Bad ITC View %d\n", (int)view); break; } return ret; } static void itc_storage_write(void *opaque, hwaddr addr, uint64_t data, unsigned size) { MIPSITUState *s = (MIPSITUState *)opaque; ITCStorageCell *cell = get_cell(s, addr); ITCView view = get_itc_view(addr); switch (view) { case ITCVIEW_BYPASS: view_bypass_write(cell, data); break; case ITCVIEW_CONTROL: view_control_write(cell, data); break; case ITCVIEW_EF_SYNC: view_ef_sync_write(cell, data); break; case ITCVIEW_EF_TRY: view_ef_try_write(cell, data); break; case ITCVIEW_PV_SYNC: view_pv_sync_write(cell); break; case ITCVIEW_PV_TRY: view_pv_try_write(cell); break; default: qemu_log_mask(LOG_GUEST_ERROR, "itc_storage_write: Bad ITC View %d\n", (int)view); break; } } static const MemoryRegionOps itc_storage_ops = { .read = itc_storage_read, .write = itc_storage_write, .endianness = DEVICE_NATIVE_ENDIAN, }; static void itc_reset_cells(MIPSITUState *s) { int i; memset(s->cell, 0, get_num_cells(s) * sizeof(s->cell[0])); for (i = 0; i < s->num_fifo; i++) { s->cell[i].tag.E = 1; s->cell[i].tag.FIFO = 1; s->cell[i].tag.FIFODepth = ITC_CELL_DEPTH_SHIFT; } } static void mips_itu_init(Object *obj) { SysBusDevice *sbd = SYS_BUS_DEVICE(obj); MIPSITUState *s = MIPS_ITU(obj); memory_region_init_io(&s->storage_io, OBJECT(s), &itc_storage_ops, s, "mips-itc-storage", ITC_STORAGE_ADDRSPACE_SZ); sysbus_init_mmio(sbd, &s->storage_io); memory_region_init_io(&s->tag_io, OBJECT(s), &itc_tag_ops, s, "mips-itc-tag", ITC_TAG_ADDRSPACE_SZ); } static void mips_itu_realize(DeviceState *dev, Error **errp) { MIPSITUState *s = MIPS_ITU(dev); if (s->num_fifo > ITC_FIFO_NUM_MAX) { error_setg(errp, "Exceed maximum number of FIFO cells: %d", s->num_fifo); return; } if (s->num_semaphores > ITC_SEMAPH_NUM_MAX) { error_setg(errp, "Exceed maximum number of Semaphore cells: %d", s->num_semaphores); return; } s->cell = g_new(ITCStorageCell, get_num_cells(s)); } static void mips_itu_reset(DeviceState *dev) { MIPSITUState *s = MIPS_ITU(dev); s->ITCAddressMap[0] = 0; s->ITCAddressMap[1] = ((ITC_STORAGE_ADDRSPACE_SZ - 1) & ITC_AM1_ADDR_MASK_MASK) | (get_num_cells(s) << ITC_AM1_NUMENTRIES_OFS); itc_reconfigure(s); itc_reset_cells(s); } static Property mips_itu_properties[] = { DEFINE_PROP_INT32("num-fifo", MIPSITUState, num_fifo, ITC_FIFO_NUM_MAX), DEFINE_PROP_INT32("num-semaphores", MIPSITUState, num_semaphores, ITC_SEMAPH_NUM_MAX), DEFINE_PROP_END_OF_LIST(), }; static void mips_itu_class_init(ObjectClass *klass, void *data) { DeviceClass *dc = DEVICE_CLASS(klass); dc->props = mips_itu_properties; dc->realize = mips_itu_realize; dc->reset = mips_itu_reset; } static const TypeInfo mips_itu_info = { .name = TYPE_MIPS_ITU, .parent = TYPE_SYS_BUS_DEVICE, .instance_size = sizeof(MIPSITUState), .instance_init = mips_itu_init, .class_init = mips_itu_class_init, }; static void mips_itu_register_types(void) { type_register_static(&mips_itu_info); } type_init(mips_itu_register_types)