/* * LuCI Template - Parser implementation * * Copyright (C) 2009-2012 Jo-Philipp Wich * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "template_parser.h" #include "template_utils.h" #include "template_lmo.h" /* leading and trailing code for different types */ const char *gen_code[9][2] = { { NULL, NULL }, { "write(\"", "\")" }, { NULL, NULL }, { "write(tostring(", " or \"\"))" }, { "include(\"", "\")" }, { "write(\"", "\")" }, { "write(\"", "\")" }, { NULL, " " }, { NULL, NULL }, }; /* Simple strstr() like function that takes len arguments for both haystack and needle. */ static char *strfind(char *haystack, int hslen, const char *needle, int ndlen) { int match = 0; int i, j; for( i = 0; i < hslen; i++ ) { if( haystack[i] == needle[0] ) { match = ((ndlen == 1) || ((i + ndlen) <= hslen)); for( j = 1; (j < ndlen) && ((i + j) < hslen); j++ ) { if( haystack[i+j] != needle[j] ) { match = 0; break; } } if( match ) return &haystack[i]; } } return NULL; } struct template_parser * template_open(const char *file) { struct stat s; struct template_parser *parser; if (!(parser = malloc(sizeof(*parser)))) goto err; memset(parser, 0, sizeof(*parser)); parser->fd = -1; parser->file = file; if (stat(file, &s)) goto err; if ((parser->fd = open(file, O_RDONLY)) < 0) goto err; parser->size = s.st_size; parser->data = mmap(NULL, parser->size, PROT_READ, MAP_PRIVATE, parser->fd, 0); if (parser->data != MAP_FAILED) { parser->off = parser->data; parser->cur_chunk.type = T_TYPE_INIT; parser->cur_chunk.s = parser->data; parser->cur_chunk.e = parser->data; return parser; } err: template_close(parser); return NULL; } void template_close(struct template_parser *parser) { if (!parser) return; if (parser->gc != NULL) free(parser->gc); if ((parser->data != NULL) && (parser->data != MAP_FAILED)) munmap(parser->data, parser->size); if (parser->fd >= 0) close(parser->fd); free(parser); } void template_text(struct template_parser *parser, const char *e) { const char *s = parser->off; if (s < (parser->data + parser->size)) { if (parser->strip_after) { while ((s <= e) && isspace(*s)) s++; } parser->cur_chunk.type = T_TYPE_TEXT; } else { parser->cur_chunk.type = T_TYPE_EOF; } parser->cur_chunk.line = parser->line; parser->cur_chunk.s = s; parser->cur_chunk.e = e; } void template_code(struct template_parser *parser, const char *e) { const char *s = parser->off; parser->strip_before = 0; parser->strip_after = 0; if (*s == '-') { parser->strip_before = 1; for (s++; (s <= e) && (*s == ' ' || *s == '\t'); s++); } if (*(e-1) == '-') { parser->strip_after = 1; for (e--; (e >= s) && (*e == ' ' || *e == '\t'); e--); } switch (*s) { /* comment */ case '#': s++; parser->cur_chunk.type = T_TYPE_COMMENT; break; /* include */ case '+': s++; parser->cur_chunk.type = T_TYPE_INCLUDE; break; /* translate */ case ':': s++; parser->cur_chunk.type = T_TYPE_I18N; break; /* translate raw */ case '_': s++; parser->cur_chunk.type = T_TYPE_I18N_RAW; break; /* expr */ case '=': s++; parser->cur_chunk.type = T_TYPE_EXPR; break; /* code */ default: parser->cur_chunk.type = T_TYPE_CODE; break; } parser->cur_chunk.line = parser->line; parser->cur_chunk.s = s; parser->cur_chunk.e = e; } static const char * template_format_chunk(struct template_parser *parser, size_t *sz) { const char *s, *p; const char *head, *tail; struct template_chunk *c = &parser->prv_chunk; struct template_buffer *buf; *sz = 0; s = parser->gc = NULL; if (parser->strip_before && c->type == T_TYPE_TEXT) { while ((c->e > c->s) && isspace(*(c->e - 1))) c->e--; } /* empty chunk */ if (c->s == c->e) { if (c->type == T_TYPE_EOF) { *sz = 0; s = NULL; } else { *sz = 1; s = " "; } } /* format chunk */ else if ((buf = buf_init(c->e - c->s)) != NULL) { if ((head = gen_code[c->type][0]) != NULL) buf_append(buf, head, strlen(head)); switch (c->type) { case T_TYPE_TEXT: luastr_escape(buf, c->s, c->e - c->s, 0); break; case T_TYPE_EXPR: buf_append(buf, c->s, c->e - c->s); for (p = c->s; p < c->e; p++) parser->line += (*p == '\n'); break; case T_TYPE_INCLUDE: luastr_escape(buf, c->s, c->e - c->s, 0); break; case T_TYPE_I18N: luastr_translate(buf, c->s, c->e - c->s, 1); break; case T_TYPE_I18N_RAW: luastr_translate(buf, c->s, c->e - c->s, 0); break; case T_TYPE_CODE: buf_append(buf, c->s, c->e - c->s); for (p = c->s; p < c->e; p++) parser->line += (*p == '\n'); break; } if ((tail = gen_code[c->type][1]) != NULL) buf_append(buf, tail, strlen(tail)); *sz = buf_length(buf); s = parser->gc = buf_destroy(buf); if (!*sz) { *sz = 1; s = " "; } } return s; } const char *template_reader(lua_State *L, void *ud, size_t *sz) { struct template_parser *parser = ud; int rem = parser->size - (parser->off - parser->data); char *tag; parser->prv_chunk = parser->cur_chunk; /* free previous string */ if (parser->gc) { free(parser->gc); parser->gc = NULL; } /* before tag */ if (!parser->in_expr) { if ((tag = strfind(parser->off, rem, "<%", 2)) != NULL) { template_text(parser, tag); parser->off = tag + 2; parser->in_expr = 1; } else { template_text(parser, parser->data + parser->size); parser->off = parser->data + parser->size; } } /* inside tag */ else { if ((tag = strfind(parser->off, rem, "%>", 2)) != NULL) { template_code(parser, tag); parser->off = tag + 2; parser->in_expr = 0; } else { /* unexpected EOF */ template_code(parser, parser->data + parser->size); *sz = 1; return "\033"; } } return template_format_chunk(parser, sz); } int template_error(lua_State *L, struct template_parser *parser) { const char *err = luaL_checkstring(L, -1); const char *off = parser->prv_chunk.s; const char *ptr; char msg[1024]; int line = 0; int chunkline = 0; if ((ptr = strfind((char *)err, strlen(err), "]:", 2)) != NULL) { chunkline = atoi(ptr + 2) - parser->prv_chunk.line; while (*ptr) { if (*ptr++ == ' ') { err = ptr; break; } } } if (strfind((char *)err, strlen(err), "'char(27)'", 10) != NULL) { off = parser->data + parser->size; err = "'%>' expected before end of file"; chunkline = 0; } for (ptr = parser->data; ptr < off; ptr++) if (*ptr == '\n') line++; snprintf(msg, sizeof(msg), "Syntax error in %s:%d: %s", parser->file, line + chunkline, err ? err : "(unknown error)"); lua_pushnil(L); lua_pushinteger(L, line + chunkline); lua_pushstring(L, msg); return 3; }