/***********************************************************************/ /* */ /* Objective Caml */ /* */ /* Xavier Leroy, projet Cristal, INRIA Rocquencourt */ /* */ /* Copyright 2000 Institut National de Recherche en Informatique et */ /* en Automatique. All rights reserved. This file is distributed */ /* under the terms of the GNU Library General Public License, with */ /* the special exception on linking described in file ../LICENSE. */ /* */ /***********************************************************************/ /* $Id$ */ /* Dynamic loading of C primitives. */ #include #include #include #include #include #include "config.h" #ifdef HAS_UNISTD #include #endif #include "alloc.h" #include "dynlink.h" #include "fail.h" #include "mlvalues.h" #include "memory.h" #include "misc.h" #include "osdeps.h" #include "prims.h" #ifndef NATIVE_CODE /* The table of primitives */ struct ext_table caml_prim_table; #ifdef DEBUG /* The names of primitives (for instrtrace.c) */ struct ext_table caml_prim_name_table; #endif /* The table of shared libraries currently opened */ static struct ext_table shared_libs; /* The search path for shared libraries */ struct ext_table caml_shared_libs_path; /* Look up the given primitive name in the built-in primitive table, then in the opened shared libraries (shared_libs) */ static c_primitive lookup_primitive(char * name) { int i; void * res; for (i = 0; caml_names_of_builtin_cprim[i] != NULL; i++) { if (strcmp(name, caml_names_of_builtin_cprim[i]) == 0) return caml_builtin_cprim[i]; } for (i = 0; i < shared_libs.size; i++) { res = caml_dlsym(shared_libs.contents[i], name); if (res != NULL) return (c_primitive) res; } return NULL; } /* Parse the OCAML_STDLIB_DIR/ld.conf file and add the directories listed there to the search path */ #define LD_CONF_NAME "ld.conf" static char * parse_ld_conf(void) { char * stdlib, * ldconfname, * config, * p, * q; struct stat st; int ldconf, nread; stdlib = getenv("OCAMLLIB"); if (stdlib == NULL) stdlib = getenv("CAMLLIB"); if (stdlib == NULL) stdlib = OCAML_STDLIB_DIR; ldconfname = caml_stat_alloc(strlen(stdlib) + 2 + sizeof(LD_CONF_NAME)); strcpy(ldconfname, stdlib); strcat(ldconfname, "/" LD_CONF_NAME); if (stat(ldconfname, &st) == -1) { caml_stat_free(ldconfname); return NULL; } ldconf = open(ldconfname, O_RDONLY, 0); if (ldconf == -1) caml_fatal_error_arg("Fatal error: cannot read loader config file %s\n", ldconfname); config = caml_stat_alloc(st.st_size + 1); nread = read(ldconf, config, st.st_size); if (nread == -1) caml_fatal_error_arg ("Fatal error: error while reading loader config file %s\n", ldconfname); config[nread] = 0; q = config; for (p = config; *p != 0; p++) { if (*p == '\n') { *p = 0; caml_ext_table_add(&caml_shared_libs_path, q); q = p + 1; } } if (q < p) caml_ext_table_add(&caml_shared_libs_path, q); close(ldconf); caml_stat_free(ldconfname); return config; } /* Open the given shared library and add it to shared_libs. Abort on error. */ static void open_shared_lib(char * name) { char * realname; void * handle; realname = caml_search_dll_in_path(&caml_shared_libs_path, name); caml_gc_message(0x100, "Loading shared library %s\n", (unsigned long) realname); handle = caml_dlopen(realname); if (handle == NULL) caml_fatal_error_arg2("Fatal error: cannot load shared library %s\n", name, "Reason: %s\n", caml_dlerror()); caml_ext_table_add(&shared_libs, handle); caml_stat_free(realname); } /* Build the table of primitives, given a search path and a list of shared libraries (both 0-separated in a char array). Abort the runtime system on error. */ void caml_build_primitive_table(char * lib_path, char * libs, char * req_prims) { char * tofree1, * tofree2; char * p; /* Initialize the search path for dynamic libraries: - directories specified on the command line with the -I option - directories specified in the CAML_LD_LIBRARY_PATH - directories specified in the executable - directories specified in the file /ld.conf */ tofree1 = caml_decompose_path(&caml_shared_libs_path, getenv("CAML_LD_LIBRARY_PATH")); if (lib_path != NULL) for (p = lib_path; *p != 0; p += strlen(p) + 1) caml_ext_table_add(&caml_shared_libs_path, p); tofree2 = parse_ld_conf(); /* Open the shared libraries */ caml_ext_table_init(&shared_libs, 8); if (libs != NULL) for (p = libs; *p != 0; p += strlen(p) + 1) open_shared_lib(p); /* Build the primitive table */ caml_ext_table_init(&caml_prim_table, 0x180); #ifdef DEBUG caml_ext_table_init(&caml_prim_name_table, 0x180); #endif for (p = req_prims; *p != 0; p += strlen(p) + 1) { c_primitive prim = lookup_primitive(p); if (prim == NULL) caml_fatal_error_arg("Fatal error: unknown C primitive `%s'\n", p); caml_ext_table_add(&caml_prim_table, (void *) prim); #ifdef DEBUG caml_ext_table_add(&caml_prim_name_table, strdup(p)); #endif } /* Clean up */ caml_stat_free(tofree1); caml_stat_free(tofree2); caml_ext_table_free(&caml_shared_libs_path, 0); } /* Build the table of primitives as a copy of the builtin primitive table. Used for executables generated by ocamlc -output-obj. */ void caml_build_primitive_table_builtin(void) { int i; caml_ext_table_init(&caml_prim_table, 0x180); for (i = 0; caml_builtin_cprim[i] != 0; i++) caml_ext_table_add(&caml_prim_table, (void *) caml_builtin_cprim[i]); } #endif /* NATIVE_CODE */ /** dlopen interface for the bytecode linker **/ #define Handle_val(v) (*((void **) (v))) CAMLprim value caml_dynlink_open_lib(value filename) { void * handle; value result; handle = caml_dlopen(String_val(filename)); if (handle == NULL) caml_failwith(caml_dlerror()); result = caml_alloc_small(1, Abstract_tag); Handle_val(result) = handle; return result; } CAMLprim value caml_dynlink_close_lib(value handle) { caml_dlclose(Handle_val(handle)); return Val_unit; } /*#include */ CAMLprim value caml_dynlink_lookup_symbol(value handle, value symbolname) { void * symb; value result; symb = caml_dlsym(Handle_val(handle), String_val(symbolname)); /* printf("%s = 0x%lx\n", String_val(symbolname), symb); fflush(stdout); */ if (symb == NULL) return Val_unit /*caml_failwith(caml_dlerror())*/; result = caml_alloc_small(1, Abstract_tag); Handle_val(result) = symb; return result; } #ifndef NATIVE_CODE CAMLprim value caml_dynlink_add_primitive(value handle) { return Val_int(caml_ext_table_add(&caml_prim_table, Handle_val(handle))); } CAMLprim value caml_dynlink_get_current_libs(value unit) { CAMLparam0(); CAMLlocal1(res); int i; res = caml_alloc_tuple(shared_libs.size); for (i = 0; i < shared_libs.size; i++) { value v = caml_alloc_small(1, Abstract_tag); Handle_val(v) = shared_libs.contents[i]; Store_field(res, i, v); } CAMLreturn(res); } #else value caml_dynlink_add_primitive(value handle) { caml_invalid_argument("dynlink_add_primitive"); return Val_unit; /* not reached */ } value caml_dynlink_get_current_libs(value unit) { caml_invalid_argument("dynlink_get_current_libs"); return Val_unit; /* not reached */ } #endif /* NATIVE_CODE */