/* -*- mode: C; c-file-style: "k&r"; tab-width 4; indent-tabs-mode: t; -*- */ /* * Copyright (C) 2014 Rob Clark * * 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. * * Authors: * Rob Clark */ #include #include #include #include #include #include #include "rnnutil.h" static struct rnndomain * finddom(struct rnn *rnn, uint32_t regbase) { if (rnndec_checkaddr(rnn->vc, rnn->dom[0], regbase, 0)) return rnn->dom[0]; return rnn->dom[1]; } void _rnn_init(struct rnn *rnn, int nocolor) { rnn_init(); rnn->db = rnn_newdb(); rnn->vc_nocolor = rnndec_newcontext(rnn->db); rnn->vc_nocolor->colors = &envy_null_colors; if (nocolor) { rnn->vc = rnn->vc_nocolor; } else { rnn->vc = rnndec_newcontext(rnn->db); rnn->vc->colors = &envy_def_colors; } } struct rnn * rnn_new(int nocolor) { struct rnn *rnn = calloc(sizeof(*rnn), 1); if (!rnn) return NULL; _rnn_init(rnn, nocolor); return rnn; } static void init(struct rnn *rnn, char *file, char *domain) { /* prepare rnn stuff for lookup */ rnn_parsefile(rnn->db, file); rnn_prepdb(rnn->db); rnn->dom[0] = rnn_finddomain(rnn->db, domain); if ((strcmp(domain, "A2XX") == 0) || (strcmp(domain, "A3XX") == 0)) { rnn->dom[1] = rnn_finddomain(rnn->db, "AXXX"); } else { rnn->dom[1] = rnn->dom[0]; } if (!rnn->dom[0] && rnn->dom[1]) { fprintf(stderr, "Could not find domain %s in %s\n", domain, file); } rnn->variant = domain; rnndec_varadd(rnn->vc, "chip", domain); if (rnn->vc != rnn->vc_nocolor) rnndec_varadd(rnn->vc_nocolor, "chip", domain); if (rnn->db->estatus) errx(rnn->db->estatus, "failed to parse register database"); } void rnn_load_file(struct rnn *rnn, char *file, char *domain) { init(rnn, file, domain); } void rnn_load(struct rnn *rnn, const char *gpuname) { if (strstr(gpuname, "a2")) { init(rnn, "adreno/a2xx.xml", "A2XX"); } else if (strstr(gpuname, "a3")) { init(rnn, "adreno/a3xx.xml", "A3XX"); } else if (strstr(gpuname, "a4")) { init(rnn, "adreno/a4xx.xml", "A4XX"); } else if (strstr(gpuname, "a5")) { init(rnn, "adreno/a5xx.xml", "A5XX"); } else if (strstr(gpuname, "a6")) { init(rnn, "adreno/a6xx.xml", "A6XX"); } } uint32_t rnn_regbase(struct rnn *rnn, const char *name) { uint32_t regbase = rnndec_decodereg(rnn->vc_nocolor, rnn->dom[0], name); if (!regbase) regbase = rnndec_decodereg(rnn->vc_nocolor, rnn->dom[1], name); return regbase; } const char * rnn_regname(struct rnn *rnn, uint32_t regbase, int color) { static char buf[128]; struct rnndecaddrinfo *info; info = rnndec_decodeaddr(color ? rnn->vc : rnn->vc_nocolor, finddom(rnn, regbase), regbase, 0); if (info) { strcpy(buf, info->name); free(info->name); free(info); return buf; } return NULL; } struct rnndecaddrinfo * rnn_reginfo(struct rnn *rnn, uint32_t regbase) { return rnndec_decodeaddr(rnn->vc, finddom(rnn, regbase), regbase, 0); } const char * rnn_enumname(struct rnn *rnn, const char *name, uint32_t val) { return rnndec_decode_enum(rnn->vc, name, val); } static struct rnndelem * regelem(struct rnndomain *domain, const char *name) { int i; for (i = 0; i < domain->subelemsnum; i++) { struct rnndelem *elem = domain->subelems[i]; if (!strcmp(elem->name, name)) return elem; } return NULL; } /* Lookup rnndelem by name: */ struct rnndelem * rnn_regelem(struct rnn *rnn, const char *name) { struct rnndelem *elem = regelem(rnn->dom[0], name); if (elem) return elem; return regelem(rnn->dom[1], name); } static struct rnndelem * regoff(struct rnndomain *domain, uint32_t offset) { int i; for (i = 0; i < domain->subelemsnum; i++) { struct rnndelem *elem = domain->subelems[i]; if (elem->offset == offset) return elem; } return NULL; } /* Lookup rnndelem by offset: */ struct rnndelem * rnn_regoff(struct rnn *rnn, uint32_t offset) { struct rnndelem *elem = regoff(rnn->dom[0], offset); if (elem) return elem; return regoff(rnn->dom[1], offset); } enum rnnttype rnn_decodelem(struct rnn *rnn, struct rnntypeinfo *info, uint64_t regval, union rnndecval *val) { val->u = regval; switch (info->type) { case RNN_TTYPE_INLINE_ENUM: case RNN_TTYPE_ENUM: case RNN_TTYPE_HEX: case RNN_TTYPE_INT: case RNN_TTYPE_UINT: case RNN_TTYPE_FLOAT: case RNN_TTYPE_BOOLEAN: return info->type; case RNN_TTYPE_FIXED: case RNN_TTYPE_UFIXED: /* TODO */ default: return RNN_TTYPE_INVALID; } }