/* * Copyright © 2014 Broadcom * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice (including the next * paragraph) shall be included in all copies or substantial portions of the * Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS * IN THE SOFTWARE. */ /** * @file * * Validates the QPU instruction sequence after register allocation and * scheduling. */ #include #include #include #include "v3d_compiler.h" #include "qpu/qpu_disasm.h" struct v3d_qpu_validate_state { struct v3d_compile *c; const struct v3d_qpu_instr *last; int ip; int last_sfu_write; int last_branch_ip; int last_thrsw_ip; /* Set when we've found the last-THRSW signal, or if we were started * in single-segment mode. */ bool last_thrsw_found; /* Set when we've found the THRSW after the last THRSW */ bool thrend_found; int thrsw_count; }; static void fail_instr(struct v3d_qpu_validate_state *state, const char *msg) { struct v3d_compile *c = state->c; fprintf(stderr, "v3d_qpu_validate at ip %d: %s:\n", state->ip, msg); int dump_ip = 0; vir_for_each_inst_inorder(inst, c) { v3d_qpu_dump(c->devinfo, &inst->qpu); if (dump_ip++ == state->ip) fprintf(stderr, " *** ERROR ***"); fprintf(stderr, "\n"); } fprintf(stderr, "\n"); abort(); } static bool in_branch_delay_slots(struct v3d_qpu_validate_state *state) { return (state->ip - state->last_branch_ip) < 3; } static bool in_thrsw_delay_slots(struct v3d_qpu_validate_state *state) { return (state->ip - state->last_thrsw_ip) < 3; } static bool qpu_magic_waddr_matches(const struct v3d_qpu_instr *inst, bool (*predicate)(enum v3d_qpu_waddr waddr)) { if (inst->type == V3D_QPU_INSTR_TYPE_ALU) return false; if (inst->alu.add.op != V3D_QPU_A_NOP && inst->alu.add.magic_write && predicate(inst->alu.add.waddr)) return true; if (inst->alu.mul.op != V3D_QPU_M_NOP && inst->alu.mul.magic_write && predicate(inst->alu.mul.waddr)) return true; return false; } static void qpu_validate_inst(struct v3d_qpu_validate_state *state, struct qinst *qinst) { const struct v3d_device_info *devinfo = state->c->devinfo; const struct v3d_qpu_instr *inst = &qinst->qpu; if (inst->type != V3D_QPU_INSTR_TYPE_ALU) return; /* LDVARY writes r5 two instructions later and LDUNIF writes * r5 one instruction later, which is illegal to have * together. */ if (state->last && state->last->sig.ldvary && (inst->sig.ldunif || inst->sig.ldunifa)) { fail_instr(state, "LDUNIF after a LDVARY"); } /* GFXH-1633 */ bool last_reads_ldunif = (state->last && (state->last->sig.ldunif || state->last->sig.ldunifrf)); bool last_reads_ldunifa = (state->last && (state->last->sig.ldunifa || state->last->sig.ldunifarf)); bool reads_ldunif = inst->sig.ldunif || inst->sig.ldunifrf; bool reads_ldunifa = inst->sig.ldunifa || inst->sig.ldunifarf; if ((last_reads_ldunif && reads_ldunifa) || (last_reads_ldunifa && reads_ldunif)) { fail_instr(state, "LDUNIF and LDUNIFA can't be next to each other"); } int tmu_writes = 0; int sfu_writes = 0; int vpm_writes = 0; int tlb_writes = 0; int tsy_writes = 0; if (inst->alu.add.op != V3D_QPU_A_NOP) { if (inst->alu.add.magic_write) { if (v3d_qpu_magic_waddr_is_tmu(inst->alu.add.waddr)) tmu_writes++; if (v3d_qpu_magic_waddr_is_sfu(inst->alu.add.waddr)) sfu_writes++; if (v3d_qpu_magic_waddr_is_vpm(inst->alu.add.waddr)) vpm_writes++; if (v3d_qpu_magic_waddr_is_tlb(inst->alu.add.waddr)) tlb_writes++; if (v3d_qpu_magic_waddr_is_tsy(inst->alu.add.waddr)) tsy_writes++; } } if (inst->alu.mul.op != V3D_QPU_M_NOP) { if (inst->alu.mul.magic_write) { if (v3d_qpu_magic_waddr_is_tmu(inst->alu.mul.waddr)) tmu_writes++; if (v3d_qpu_magic_waddr_is_sfu(inst->alu.mul.waddr)) sfu_writes++; if (v3d_qpu_magic_waddr_is_vpm(inst->alu.mul.waddr)) vpm_writes++; if (v3d_qpu_magic_waddr_is_tlb(inst->alu.mul.waddr)) tlb_writes++; if (v3d_qpu_magic_waddr_is_tsy(inst->alu.mul.waddr)) tsy_writes++; } } if (in_thrsw_delay_slots(state)) { /* There's no way you want to start SFU during the THRSW delay * slots, since the result would land in the other thread. */ if (sfu_writes) { fail_instr(state, "SFU write started during THRSW delay slots "); } if (inst->sig.ldvary) fail_instr(state, "LDVARY during THRSW delay slots"); } (void)qpu_magic_waddr_matches; /* XXX */ /* SFU r4 results come back two instructions later. No doing * r4 read/writes or other SFU lookups until it's done. */ if (state->ip - state->last_sfu_write < 2) { if (v3d_qpu_uses_mux(inst, V3D_QPU_MUX_R4)) fail_instr(state, "R4 read too soon after SFU"); if (v3d_qpu_writes_r4(devinfo, inst)) fail_instr(state, "R4 write too soon after SFU"); if (sfu_writes) fail_instr(state, "SFU write too soon after SFU"); } /* XXX: The docs say VPM can happen with the others, but the simulator * disagrees. */ if (tmu_writes + sfu_writes + vpm_writes + tlb_writes + tsy_writes + inst->sig.ldtmu + inst->sig.ldtlb + inst->sig.ldvpm + inst->sig.ldtlbu > 1) { fail_instr(state, "Only one of [TMU, SFU, TSY, TLB read, VPM] allowed"); } if (sfu_writes) state->last_sfu_write = state->ip; if (inst->sig.thrsw) { if (in_branch_delay_slots(state)) fail_instr(state, "THRSW in a branch delay slot."); if (state->last_thrsw_found) state->thrend_found = true; if (state->last_thrsw_ip == state->ip - 1) { /* If it's the second THRSW in a row, then it's just a * last-thrsw signal. */ if (state->last_thrsw_found) fail_instr(state, "Two last-THRSW signals"); state->last_thrsw_found = true; } else { if (in_thrsw_delay_slots(state)) { fail_instr(state, "THRSW too close to another THRSW."); } state->thrsw_count++; state->last_thrsw_ip = state->ip; } } if (state->thrend_found && state->last_thrsw_ip - state->ip <= 2 && inst->type == V3D_QPU_INSTR_TYPE_ALU) { if ((inst->alu.add.op != V3D_QPU_A_NOP && !inst->alu.add.magic_write)) { fail_instr(state, "RF write after THREND"); } if ((inst->alu.mul.op != V3D_QPU_M_NOP && !inst->alu.mul.magic_write)) { fail_instr(state, "RF write after THREND"); } if (v3d_qpu_sig_writes_address(devinfo, &inst->sig) && !inst->sig_magic) { fail_instr(state, "RF write after THREND"); } /* GFXH-1625: No TMUWT in the last instruction */ if (state->last_thrsw_ip - state->ip == 2 && inst->alu.add.op == V3D_QPU_A_TMUWT) fail_instr(state, "TMUWT in last instruction"); } if (inst->type == V3D_QPU_INSTR_TYPE_BRANCH) { if (in_branch_delay_slots(state)) fail_instr(state, "branch in a branch delay slot."); if (in_thrsw_delay_slots(state)) fail_instr(state, "branch in a THRSW delay slot."); state->last_branch_ip = state->ip; } } static void qpu_validate_block(struct v3d_qpu_validate_state *state, struct qblock *block) { vir_for_each_inst(qinst, block) { qpu_validate_inst(state, qinst); state->last = &qinst->qpu; state->ip++; } } /** * Checks for the instruction restrictions from page 37 ("Summary of * Instruction Restrictions"). */ void qpu_validate(struct v3d_compile *c) { /* We don't want to do validation in release builds, but we want to * keep compiling the validation code to make sure it doesn't get * broken. */ #ifndef DEBUG return; #endif struct v3d_qpu_validate_state state = { .c = c, .last_sfu_write = -10, .last_thrsw_ip = -10, .last_branch_ip = -10, .ip = 0, .last_thrsw_found = !c->last_thrsw, }; vir_for_each_block(block, c) { qpu_validate_block(&state, block); } if (state.thrsw_count > 1 && !state.last_thrsw_found) { fail_instr(&state, "thread switch found without last-THRSW in program"); } if (!state.thrend_found) fail_instr(&state, "No program-end THRSW found"); }