Mercurial > illumos > onarm
view usr/src/cmd/hal/hald/device_info.c @ 0:c9caec207d52 b86
Initial porting based on b86
| author | Koji Uno <koji.uno@sun.com> |
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| date | Tue, 02 Jun 2009 18:56:50 +0900 |
| parents | |
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/*************************************************************************** * CVSID: $Id$ * * device_store.c : Search for .fdi files and merge on match * * Copyright (C) 2003 David Zeuthen, <david@fubar.dk> * * Licensed under the Academic Free License version 2.1 * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA * **************************************************************************/ #ifdef HAVE_CONFIG_H # include <config.h> #endif #include <stdio.h> #include <stdlib.h> #include <string.h> #include <dirent.h> #include <expat.h> #include <assert.h> #include <dbus/dbus.h> #include <dbus/dbus-glib.h> #include <math.h> #include "hald.h" #include "logger.h" #include "device_info.h" #include "device_store.h" #include "util.h" /** * @defgroup DeviceInfo Device Info File Parsing * @ingroup HalDaemon * @brief Parsing of device info files * @{ */ /** Maximum nesting depth */ #define MAX_DEPTH 32 /** Maximum amount of CDATA */ #define CDATA_BUF_SIZE 1024 /** Max length of property key */ #define MAX_KEY_SIZE 128 /** Possible elements the parser can process */ enum { /** Not processing a known tag */ CURELEM_UNKNOWN = -1, /** Processing a deviceinfo element */ CURELEM_DEVICE_INFO = 0, /** Processing a device element */ CURELEM_DEVICE = 1, /** Processing a match element */ CURELEM_MATCH = 2, /** Processing a merge element */ CURELEM_MERGE = 3, /** Processing an append element */ CURELEM_APPEND = 4, /** Processing a prepend element */ CURELEM_PREPEND = 5, /** Processing a remove element */ CURELEM_REMOVE = 6, /** Processing a clear element */ CURELEM_CLEAR = 7, /** Processing a spawn element */ CURELEM_SPAWN = 8 }; /** What and how to merge */ enum { MERGE_TYPE_UNKNOWN = 0, MERGE_TYPE_STRING = 1, MERGE_TYPE_BOOLEAN = 2, MERGE_TYPE_INT32 = 3, MERGE_TYPE_UINT64 = 4, MERGE_TYPE_DOUBLE = 5, MERGE_TYPE_COPY_PROPERTY = 6, MERGE_TYPE_STRLIST = 7, MERGE_TYPE_REMOVE = 8, MERGE_TYPE_CLEAR = 9, MERGE_TYPE_SPAWN = 10 }; /** Parsing Context */ typedef struct { /** Name of file being parsed */ char *file; /** Parser object */ XML_Parser parser; /** Device we are trying to match*/ HalDevice *device; /** Buffer to put CDATA in */ char cdata_buf[CDATA_BUF_SIZE]; /** Current length of CDATA buffer */ int cdata_buf_len; /** Current depth we are parsing at */ int depth; /** Element currently being processed */ int curelem; /** Stack of elements being processed */ int curelem_stack[MAX_DEPTH]; /** #TRUE if parsing of document have been aborted */ dbus_bool_t aborted; /** Depth of match-fail */ int match_depth_first_fail; /** #TRUE if all matches on prior depths have been OK */ dbus_bool_t match_ok; /** When merging, the key to store the value in */ char merge_key[MAX_KEY_SIZE]; /** Type to merge*/ int merge_type; /** Set to #TRUE if a device is matched */ dbus_bool_t device_matched; } ParsingContext; /** Resolve a udi-property path as used in .fdi files. * * Examples of udi-property paths: * * info.udi * /org/freedesktop/Hal/devices/computer:kernel.name * @block.storage_device:storage.bus * @block.storage_device:@storage.physical_device:ide.channel * * @param source_udi UDI of source device * @param path The given path * @param udi_result Where to store the resulting UDI * @param udi_result_size Size of UDI string * @param prop_result Where to store the resulting property name * @param prop_result_size Size of property string * @return TRUE if and only if the path resolved. */ static gboolean resolve_udiprop_path (const char *path, const char *source_udi, char *udi_result, size_t udi_result_size, char *prop_result, size_t prop_result_size) { int i; gchar **tokens = NULL; gboolean rc; rc = FALSE; /*HAL_INFO (("Looking at '%s' for udi='%s'", path, source_udi));*/ /* Split up path into ':' tokens */ tokens = g_strsplit (path, ":", 64); /* Detect trivial property access, e.g. path='foo.bar' */ if (tokens == NULL || tokens[0] == NULL || tokens[1] == NULL) { strncpy (udi_result, source_udi, udi_result_size); strncpy (prop_result, path, prop_result_size); rc = TRUE; goto out; } /* Start with the source udi */ strncpy (udi_result, source_udi, udi_result_size); for (i = 0; tokens[i] != NULL; i++) { HalDevice *d; gchar *curtoken; /*HAL_INFO (("tokens[%d] = '%s'", i, tokens[i]));*/ d = hal_device_store_find (hald_get_gdl (), udi_result); if (d == NULL) d = hal_device_store_find (hald_get_tdl (), udi_result); if (d == NULL) goto out; curtoken = tokens[i]; /* process all but the last tokens as UDI paths */ if (tokens[i+1] == NULL) { strncpy (prop_result, curtoken, prop_result_size); rc = TRUE; goto out; } /* Check for indirection */ if (curtoken[0] == '@') { const char *udiprop; const char *newudi; udiprop = curtoken + 1; newudi = hal_device_property_get_string (d, udiprop); if (newudi == NULL) goto out; /*HAL_INFO (("new_udi = '%s' (from indirection)", newudi));*/ strncpy (udi_result, newudi, udi_result_size); } else { /*HAL_INFO (("new_udi = '%s'", curtoken));*/ strncpy (udi_result, curtoken, udi_result_size); } } out: /* HAL_INFO (("success = '%s'", rc ? "yes" : "no")); HAL_INFO (("udi_result = '%s'", udi_result)); HAL_INFO (("prop_result = '%s'", prop_result)); */ g_strfreev (tokens); return rc; } /* Compare the value of a property on a hal device object against a string value * and return the result. Note that this works for several types, e.g. both strings * and integers - in the latter case the given right side string will be interpreted * as a number. * * The comparison might not make sense if you are comparing a property which is an integer * against a string in which case this function returns FALSE. Also, if the property doesn't * exist this function will also return FALSE. * * @param d hal device object * @param key Key of the property to compare * @param right_side Value to compare against * @param result Pointer to where to store result * @return TRUE if, and only if, the comparison could take place */ static gboolean match_compare_property (HalDevice *d, const char *key, const char *right_side, dbus_int64_t *result) { gboolean rc; int proptype; rc = FALSE; if (!hal_device_has_property (d, key)) goto out; proptype = hal_device_property_get_type (d, key); switch (proptype) { case HAL_PROPERTY_TYPE_STRING: *result = (dbus_int64_t) strcmp (hal_device_property_get_string (d, key), right_side); rc = TRUE; break; case HAL_PROPERTY_TYPE_INT32: *result = ((dbus_int64_t) hal_device_property_get_int (d, key)) - strtoll (right_side, NULL, 0); rc = TRUE; break; case HAL_PROPERTY_TYPE_UINT64: *result = ((dbus_int64_t) hal_device_property_get_uint64 (d, key)) - ((dbus_int64_t) strtoll (right_side, NULL, 0)); rc = TRUE; break; case HAL_PROPERTY_TYPE_DOUBLE: *result = (dbus_int64_t) ceil (hal_device_property_get_double (d, key) - atof (right_side)); rc = TRUE; break; default: /* explicit fallthrough */ case HAL_PROPERTY_TYPE_BOOLEAN: /* explicit blank since this doesn't make sense */ break; } out: return rc; } /** Called when the match element begins. * * @param pc Parsing context * @param attr Attribute key/value pairs * @return #FALSE if the device in question didn't * match the data in the attributes */ static dbus_bool_t handle_match (ParsingContext * pc, const char **attr) { char udi_to_check[256]; char prop_to_check[256]; const char *key; int num_attrib; HalDevice *d; for (num_attrib = 0; attr[num_attrib] != NULL; num_attrib++); if (num_attrib != 4) return FALSE; if (strcmp (attr[0], "key") != 0) return FALSE; key = attr[1]; /* Resolve key paths like 'someudi/foo/bar/baz:prop.name' '@prop.here.is.an.udi:with.prop.name' */ if (!resolve_udiprop_path (key, pc->device->udi, udi_to_check, sizeof (udi_to_check), prop_to_check, sizeof (prop_to_check))) { HAL_ERROR (("Could not resolve keypath '%s' on udi '%s'", key, pc->device->udi)); return FALSE; } d = hal_device_store_find (hald_get_gdl (), udi_to_check); if (d == NULL) { d = hal_device_store_find (hald_get_tdl (), udi_to_check); } if (d == NULL) { HAL_ERROR (("Could not find device with udi '%s'", udi_to_check)); return FALSE; } if (strcmp (attr[2], "string") == 0) { const char *value; /* match string property */ value = attr[3]; /*HAL_INFO(("Checking that key='%s' is a string that " "equals '%s'", key, value)); */ if (hal_device_property_get_type (d, prop_to_check) != HAL_PROPERTY_TYPE_STRING) return FALSE; if (strcmp (hal_device_property_get_string (d, prop_to_check), value) != 0) return FALSE; /*HAL_INFO (("*** string match for key %s", key));*/ return TRUE; } else if (strcmp (attr[2], "int") == 0) { dbus_int32_t value; /* match integer property */ value = strtol (attr[3], NULL, 0); /** @todo Check error condition */ /*HAL_INFO (("Checking that key='%s' is a int that equals %d", key, value));*/ if (hal_device_property_get_type (d, prop_to_check) != HAL_PROPERTY_TYPE_INT32) return FALSE; if (hal_device_property_get_int (d, prop_to_check) != value) { return FALSE; } return TRUE; } else if (strcmp (attr[2], "uint64") == 0) { dbus_uint64_t value; /* match integer property */ value = strtoull (attr[3], NULL, 0); /** @todo Check error condition */ /*HAL_INFO (("Checking that key='%s' is a int that equals %d", key, value));*/ if (hal_device_property_get_type (d, prop_to_check) != HAL_PROPERTY_TYPE_UINT64) return FALSE; if (hal_device_property_get_uint64 (d, prop_to_check) != value) { return FALSE; } return TRUE; } else if (strcmp (attr[2], "bool") == 0) { dbus_bool_t value; /* match string property */ if (strcmp (attr[3], "false") == 0) value = FALSE; else if (strcmp (attr[3], "true") == 0) value = TRUE; else return FALSE; /*HAL_INFO (("Checking that key='%s' is a bool that equals %s", key, value ? "TRUE" : "FALSE"));*/ if (hal_device_property_get_type (d, prop_to_check) != HAL_PROPERTY_TYPE_BOOLEAN) return FALSE; if (hal_device_property_get_bool (d, prop_to_check) != value) return FALSE; /*HAL_INFO (("*** bool match for key %s", key));*/ return TRUE; } else if (strcmp (attr[2], "exists") == 0) { dbus_bool_t should_exist = TRUE; if (strcmp (attr[3], "false") == 0) should_exist = FALSE; if (should_exist) { if (hal_device_has_property (d, prop_to_check)) return TRUE; else return FALSE; } else { if (hal_device_has_property (d, prop_to_check)) return FALSE; else return TRUE; } } else if (strcmp (attr[2], "empty") == 0) { int type; dbus_bool_t is_empty = TRUE; dbus_bool_t should_be_empty = TRUE; if (strcmp (attr[3], "false") == 0) should_be_empty = FALSE; type = hal_device_property_get_type (d, prop_to_check); switch (type) { case HAL_PROPERTY_TYPE_STRING: if (hal_device_has_property (d, prop_to_check)) if (strlen (hal_device_property_get_string (d, prop_to_check)) > 0) is_empty = FALSE; break; case HAL_PROPERTY_TYPE_STRLIST: if (hal_device_has_property (d, prop_to_check)) if (!hal_device_property_strlist_is_empty(d, prop_to_check)) is_empty = FALSE; break; default: /* explicit fallthrough */ return FALSE; break; } if (should_be_empty) { if (is_empty) return TRUE; else return FALSE; } else { if (is_empty) return FALSE; else return TRUE; } } else if (strcmp (attr[2], "is_ascii") == 0) { dbus_bool_t is_ascii = TRUE; dbus_bool_t should_be_ascii = TRUE; unsigned int i; const char *str; if (strcmp (attr[3], "false") == 0) should_be_ascii = FALSE; if (hal_device_property_get_type (d, prop_to_check) != HAL_PROPERTY_TYPE_STRING) return FALSE; is_ascii = TRUE; str = hal_device_property_get_string (d, prop_to_check); for (i = 0; str[i] != '\0'; i++) { if (((unsigned char) str[i]) > 0x7f) is_ascii = FALSE; } if (should_be_ascii) { if (is_ascii) return TRUE; else return FALSE; } else { if (is_ascii) return FALSE; else return TRUE; } } else if (strcmp (attr[2], "is_absolute_path") == 0) { const char *path = NULL; dbus_bool_t is_absolute_path = FALSE; dbus_bool_t should_be_absolute_path = TRUE; if (strcmp (attr[3], "false") == 0) should_be_absolute_path = FALSE; /*HAL_INFO (("d->udi='%s', prop_to_check='%s'", d->udi, prop_to_check));*/ if (hal_device_property_get_type (d, prop_to_check) != HAL_PROPERTY_TYPE_STRING) return FALSE; if (hal_device_has_property (d, prop_to_check)) { path = hal_device_property_get_string (d, prop_to_check); if (g_path_is_absolute (path)) is_absolute_path = TRUE; } /*HAL_INFO (("is_absolute=%d, should_be=%d, path='%s'", is_absolute_path, should_be_absolute_path, path));*/ if (should_be_absolute_path) { if (is_absolute_path) return TRUE; else return FALSE; } else { if (is_absolute_path) return FALSE; else return TRUE; } } else if (strcmp (attr[2], "contains") == 0) { const char *needle; dbus_bool_t contains = FALSE; needle = attr[3]; if (hal_device_property_get_type (d, prop_to_check) == HAL_PROPERTY_TYPE_STRING) { if (hal_device_has_property (d, prop_to_check)) { const char *haystack; haystack = hal_device_property_get_string (d, prop_to_check); if (needle != NULL && haystack != NULL && strstr (haystack, needle)) { contains = TRUE; } } } else if (hal_device_property_get_type (d, prop_to_check) == HAL_PROPERTY_TYPE_STRLIST && needle != NULL) { GSList *i; GSList *value; value = hal_device_property_get_strlist (d, prop_to_check); for (i = value; i != NULL; i = g_slist_next (i)) { const char *str = i->data; if (strcmp (str, needle) == 0) { contains = TRUE; break; } } } else { return FALSE; } return contains; } else if (strcmp (attr[2], "contains_ncase") == 0) { const char *needle; dbus_bool_t contains_ncase = FALSE; needle = attr[3]; if (hal_device_property_get_type (d, prop_to_check) == HAL_PROPERTY_TYPE_STRING) { if (hal_device_has_property (d, prop_to_check)) { char *needle_lowercase; char *haystack_lowercase; needle_lowercase = g_utf8_strdown (needle, -1); haystack_lowercase = g_utf8_strdown (hal_device_property_get_string (d, prop_to_check), -1); if (needle_lowercase != NULL && haystack_lowercase != NULL && strstr (haystack_lowercase, needle_lowercase)) { contains_ncase = TRUE; } g_free (needle_lowercase); g_free (haystack_lowercase); } } else if (hal_device_property_get_type (d, prop_to_check) == HAL_PROPERTY_TYPE_STRLIST && needle != NULL) { GSList *i; GSList *value; value = hal_device_property_get_strlist (d, prop_to_check); for (i = value; i != NULL; i = g_slist_next (i)) { const char *str = i->data; if (g_ascii_strcasecmp (str, needle) == 0) { contains_ncase = TRUE; break; } } } else { return FALSE; } return contains_ncase; } else if (strcmp (attr[2], "compare_lt") == 0) { dbus_int64_t result; if (!match_compare_property (d, prop_to_check, attr[3], &result)) { return FALSE; } else { return result < 0; } } else if (strcmp (attr[2], "compare_le") == 0) { dbus_int64_t result; if (!match_compare_property (d, prop_to_check, attr[3], &result)) return FALSE; else return result <= 0; } else if (strcmp (attr[2], "compare_gt") == 0) { dbus_int64_t result; if (!match_compare_property (d, prop_to_check, attr[3], &result)) return FALSE; else return result > 0; } else if (strcmp (attr[2], "compare_ge") == 0) { dbus_int64_t result; if (!match_compare_property (d, prop_to_check, attr[3], &result)) return FALSE; else return result >= 0; } return FALSE; } /** Called when the merge element begins. * * @param pc Parsing context * @param attr Attribute key/value pairs */ static void handle_merge (ParsingContext * pc, const char **attr) { int num_attrib; pc->merge_type = MERGE_TYPE_UNKNOWN; for (num_attrib = 0; attr[num_attrib] != NULL; num_attrib++) { ; } if (num_attrib != 4) return; if (strcmp (attr[0], "key") != 0) return; strncpy (pc->merge_key, attr[1], MAX_KEY_SIZE); if (strcmp (attr[2], "type") != 0) return; if (strcmp (attr[3], "string") == 0) { /* match string property */ pc->merge_type = MERGE_TYPE_STRING; return; } else if (strcmp (attr[3], "bool") == 0) { /* match string property */ pc->merge_type = MERGE_TYPE_BOOLEAN; return; } else if (strcmp (attr[3], "int") == 0) { /* match string property */ pc->merge_type = MERGE_TYPE_INT32; return; } else if (strcmp (attr[3], "uint64") == 0) { /* match string property */ pc->merge_type = MERGE_TYPE_UINT64; return; } else if (strcmp (attr[3], "double") == 0) { /* match string property */ pc->merge_type = MERGE_TYPE_DOUBLE; return; } else if (strcmp (attr[3], "strlist") == 0) { /* match string property */ pc->merge_type = MERGE_TYPE_STRLIST; return; } else if (strcmp (attr[3], "copy_property") == 0) { /* copy another property */ pc->merge_type = MERGE_TYPE_COPY_PROPERTY; return; } return; } /** Called when the append or prepend element begins. * * @param pc Parsing context * @param attr Attribute key/value pairs */ static void handle_append_prepend (ParsingContext * pc, const char **attr) { int num_attrib; pc->merge_type = MERGE_TYPE_UNKNOWN; for (num_attrib = 0; attr[num_attrib] != NULL; num_attrib++) { ; } if (num_attrib != 4) return; if (strcmp (attr[0], "key") != 0) return; strncpy (pc->merge_key, attr[1], MAX_KEY_SIZE); if (strcmp (attr[2], "type") != 0) return; if (strcmp (attr[3], "string") == 0) { /* append to a string */ pc->merge_type = MERGE_TYPE_STRING; return; } else if (strcmp (attr[3], "strlist") == 0) { /* append to a string list*/ pc->merge_type = MERGE_TYPE_STRLIST; return; } else if (strcmp (attr[3], "copy_property") == 0) { /* copy another property */ pc->merge_type = MERGE_TYPE_COPY_PROPERTY; return; } return; } /** Called when the spawn element begins. * * @param pc Parsing context * @param attr Attribute key/value pairs */ static void handle_spawn (ParsingContext * pc, const char **attr) { int num_attrib; pc->merge_type = MERGE_TYPE_UNKNOWN; for (num_attrib = 0; attr[num_attrib] != NULL; num_attrib++) { ; } if (num_attrib != 2) return; if (strcmp (attr[0], "udi") != 0) return; strncpy (pc->merge_key, attr[1], MAX_KEY_SIZE); pc->merge_type = MERGE_TYPE_SPAWN; return; } /** Called when the remove element begins. * * @param pc Parsing context * @param attr Attribute key/value pairs */ static void handle_remove (ParsingContext * pc, const char **attr) { int num_attrib; pc->merge_type = MERGE_TYPE_UNKNOWN; for (num_attrib = 0; attr[num_attrib] != NULL; num_attrib++) { ; } if (num_attrib != 2 && num_attrib != 4) return; if (strcmp (attr[0], "key") != 0) return; strncpy (pc->merge_key, attr[1], MAX_KEY_SIZE); if (num_attrib == 4) { if (strcmp (attr[2], "type") != 0) return; if (strcmp (attr[3], "strlist") == 0) { /* remove from strlist */ pc->merge_type = MERGE_TYPE_STRLIST; return; } else { pc->merge_type = MERGE_TYPE_UNKNOWN; return; } } else { pc->merge_type = MERGE_TYPE_REMOVE; } return; } /** Called when the clear element begins. * * @param pc Parsing context * @param attr Attribute key/value pairs */ static void handle_clear (ParsingContext * pc, const char **attr) { int num_attrib; pc->merge_type = MERGE_TYPE_UNKNOWN; for (num_attrib = 0; attr[num_attrib] != NULL; num_attrib++) { ; } if (num_attrib != 4) return; if (strcmp (attr[0], "key") != 0) return; if (strcmp (attr[3], "strlist") != 0) return; strncpy (pc->merge_key, attr[1], MAX_KEY_SIZE); pc->merge_type = MERGE_TYPE_CLEAR; return; } /** Abort parsing of document * * @param pc Parsing context */ static void parsing_abort (ParsingContext * pc) { /* Grr, expat can't abort parsing */ HAL_ERROR (("Aborting parsing of document")); pc->aborted = TRUE; } /** Called by expat when an element begins. * * @param pc Parsing context * @param el Element name * @param attr Attribute key/value pairs */ static void start (ParsingContext * pc, const char *el, const char **attr) { if (pc->aborted) return; pc->cdata_buf_len = 0; pc->merge_type = MERGE_TYPE_UNKNOWN; /* for (i = 0; i < pc->depth; i++) printf(" "); printf("%s", el); for (i = 0; attr[i]; i += 2) { printf(" %s='%s'", attr[i], attr[i + 1]); } printf(" curelem=%d\n", pc->curelem); */ if (strcmp (el, "match") == 0) { if (pc->curelem != CURELEM_DEVICE && pc->curelem != CURELEM_MATCH) { HAL_ERROR (("%s:%d:%d: Element <match> can only be " "inside <device> and <match>", pc->file, XML_GetCurrentLineNumber (pc->parser), XML_GetCurrentColumnNumber (pc->parser))); parsing_abort (pc); } pc->curelem = CURELEM_MATCH; /* don't bother checking if matching at lower depths failed */ if (pc->match_ok) { if (!handle_match (pc, attr)) { /* No match */ pc->match_depth_first_fail = pc->depth; pc->match_ok = FALSE; } } } else if (strcmp (el, "merge") == 0) { if (pc->curelem != CURELEM_DEVICE && pc->curelem != CURELEM_MATCH) { HAL_ERROR (("%s:%d:%d: Element <merge> can only be " "inside <device> and <match>", pc->file, XML_GetCurrentLineNumber (pc->parser), XML_GetCurrentColumnNumber (pc->parser))); parsing_abort (pc); } pc->curelem = CURELEM_MERGE; if (pc->match_ok) { handle_merge (pc, attr); } else { /*HAL_INFO(("No merge!")); */ } } else if (strcmp (el, "append") == 0) { if (pc->curelem != CURELEM_DEVICE && pc->curelem != CURELEM_MATCH) { HAL_ERROR (("%s:%d:%d: Element <append> can only be " "inside <device> and <match>", pc->file, XML_GetCurrentLineNumber (pc->parser), XML_GetCurrentColumnNumber (pc->parser))); parsing_abort (pc); } pc->curelem = CURELEM_APPEND; if (pc->match_ok) { handle_append_prepend (pc, attr); } else { /*HAL_INFO(("No merge!")); */ } } else if (strcmp (el, "prepend") == 0) { if (pc->curelem != CURELEM_DEVICE && pc->curelem != CURELEM_MATCH) { HAL_ERROR (("%s:%d:%d: Element <prepend> can only be " "inside <device> and <match>", pc->file, XML_GetCurrentLineNumber (pc->parser), XML_GetCurrentColumnNumber (pc->parser))); parsing_abort (pc); } pc->curelem = CURELEM_PREPEND; if (pc->match_ok) { handle_append_prepend (pc, attr); } else { /*HAL_INFO(("No merge!")); */ } } else if (strcmp (el, "remove") == 0) { if (pc->curelem != CURELEM_DEVICE && pc->curelem != CURELEM_MATCH) { HAL_ERROR (("%s:%d:%d: Element <remove> can only be " "inside <device> and <match>", pc->file, XML_GetCurrentLineNumber (pc->parser), XML_GetCurrentColumnNumber (pc->parser))); parsing_abort (pc); } pc->curelem = CURELEM_REMOVE; if (pc->match_ok) { handle_remove (pc, attr); } else { /*HAL_INFO(("No merge!")); */ } } else if (strcmp (el, "clear") == 0) { if (pc->curelem != CURELEM_DEVICE && pc->curelem != CURELEM_MATCH) { HAL_ERROR (("%s:%d:%d: Element <remove> can only be " "inside <device> and <match>", pc->file, XML_GetCurrentLineNumber (pc->parser), XML_GetCurrentColumnNumber (pc->parser))); parsing_abort (pc); } pc->curelem = CURELEM_CLEAR; if (pc->match_ok) { handle_clear (pc, attr); } else { /*HAL_INFO(("No merge!")); */ } } else if (strcmp (el, "device") == 0) { if (pc->curelem != CURELEM_DEVICE_INFO) { HAL_ERROR (("%s:%d:%d: Element <device> can only be " "inside <deviceinfo>", pc->file, XML_GetCurrentLineNumber (pc->parser), XML_GetCurrentColumnNumber (pc->parser))); parsing_abort (pc); } pc->curelem = CURELEM_DEVICE; } else if (strcmp (el, "deviceinfo") == 0) { if (pc->curelem != CURELEM_UNKNOWN) { HAL_ERROR (("%s:%d:%d: Element <deviceinfo> must be " "a top-level element", pc->file, XML_GetCurrentLineNumber (pc->parser), XML_GetCurrentColumnNumber (pc->parser))); parsing_abort (pc); } pc->curelem = CURELEM_DEVICE_INFO; } else if (strcmp (el, "spawn") == 0) { if (pc->curelem != CURELEM_MATCH) { HAL_ERROR (("%s:%d:%d: Element <spawn> can only be " "inside <match>", pc->file, XML_GetCurrentLineNumber (pc->parser), XML_GetCurrentColumnNumber (pc->parser))); parsing_abort (pc); } pc->curelem = CURELEM_SPAWN; if (pc->match_ok) { handle_spawn (pc, attr); } } else { HAL_ERROR (("%s:%d:%d: Unknown element <%s>", pc->file, XML_GetCurrentLineNumber (pc->parser), XML_GetCurrentColumnNumber (pc->parser), el)); parsing_abort (pc); } /* Nasty hack */ assert (pc->depth < MAX_DEPTH); pc->depth++; /* store depth */ pc->curelem_stack[pc->depth] = pc->curelem; } static void spawned_device_callouts_add_done (HalDevice *d, gpointer userdata1, gpointer userdata2) { HAL_INFO (("Add callouts completed udi=%s", d->udi)); /* Move from temporary to global device store */ hal_device_store_remove (hald_get_tdl (), d); hal_device_store_add (hald_get_gdl (), d); } /** Called by expat when an element ends. * * @param pc Parsing context * @param el Element name */ static void end (ParsingContext * pc, const char *el) { if (pc->aborted) return; pc->cdata_buf[pc->cdata_buf_len] = '\0'; /* printf(" curelem=%d\n", pc->curelem);*/ if (pc->curelem == CURELEM_MERGE && pc->match_ok) { /* As soon as we are merging, we have matched the device... */ pc->device_matched = TRUE; switch (pc->merge_type) { case MERGE_TYPE_STRING: hal_device_property_set_string (pc->device, pc->merge_key, pc->cdata_buf); break; case MERGE_TYPE_STRLIST: { int type = hal_device_property_get_type (pc->device, pc->merge_key); if (type == HAL_PROPERTY_TYPE_STRLIST || type == HAL_PROPERTY_TYPE_INVALID) { hal_device_property_remove (pc->device, pc->merge_key); hal_device_property_strlist_append (pc->device, pc->merge_key, pc->cdata_buf); } break; } case MERGE_TYPE_INT32: { dbus_int32_t value; /* match integer property */ value = strtol (pc->cdata_buf, NULL, 0); /** @todo FIXME: Check error condition */ hal_device_property_set_int (pc->device, pc->merge_key, value); break; } case MERGE_TYPE_UINT64: { dbus_uint64_t value; /* match integer property */ value = strtoull (pc->cdata_buf, NULL, 0); /** @todo FIXME: Check error condition */ hal_device_property_set_uint64 (pc->device, pc->merge_key, value); break; } case MERGE_TYPE_BOOLEAN: hal_device_property_set_bool (pc->device, pc->merge_key, (strcmp (pc->cdata_buf, "true") == 0) ? TRUE : FALSE); break; case MERGE_TYPE_DOUBLE: hal_device_property_set_double (pc->device, pc->merge_key, atof (pc->cdata_buf)); break; case MERGE_TYPE_COPY_PROPERTY: { char udi_to_merge_from[256]; char prop_to_merge[256]; /* Resolve key paths like 'someudi/foo/bar/baz:prop.name' * '@prop.here.is.an.udi:with.prop.name' */ if (!resolve_udiprop_path (pc->cdata_buf, pc->device->udi, udi_to_merge_from, sizeof (udi_to_merge_from), prop_to_merge, sizeof (prop_to_merge))) { HAL_ERROR (("Could not resolve keypath '%s' on udi '%s'", pc->cdata_buf, pc->device->udi)); } else { HalDevice *d; d = hal_device_store_find (hald_get_gdl (), udi_to_merge_from); if (d == NULL) { d = hal_device_store_find (hald_get_tdl (), udi_to_merge_from); } if (d == NULL) { HAL_ERROR (("Could not find device with udi '%s'", udi_to_merge_from)); } else { hal_device_copy_property (d, prop_to_merge, pc->device, pc->merge_key); } } break; } default: HAL_ERROR (("Unknown merge_type=%d='%c'", pc->merge_type, pc->merge_type)); break; } } else if (pc->curelem == CURELEM_APPEND && pc->match_ok && (hal_device_property_get_type (pc->device, pc->merge_key) == HAL_PROPERTY_TYPE_STRING || hal_device_property_get_type (pc->device, pc->merge_key) == HAL_PROPERTY_TYPE_STRLIST || hal_device_property_get_type (pc->device, pc->merge_key) == HAL_PROPERTY_TYPE_INVALID)) { char buf[256]; char buf2[256]; /* As soon as we are appending, we have matched the device... */ pc->device_matched = TRUE; if (pc->merge_type == MERGE_TYPE_STRLIST) { hal_device_property_strlist_append (pc->device, pc->merge_key, pc->cdata_buf); } else { const char *existing_string; switch (pc->merge_type) { case MERGE_TYPE_STRING: strncpy (buf, pc->cdata_buf, sizeof (buf)); break; case MERGE_TYPE_COPY_PROPERTY: hal_device_property_get_as_string (pc->device, pc->cdata_buf, buf, sizeof (buf)); break; default: HAL_ERROR (("Unknown merge_type=%d='%c'", pc->merge_type, pc->merge_type)); break; } existing_string = hal_device_property_get_string (pc->device, pc->merge_key); if (existing_string != NULL) { strncpy (buf2, existing_string, sizeof (buf2)); strncat (buf2, buf, sizeof (buf2) - strlen(buf2)); } else { strncpy (buf2, buf, sizeof (buf2)); } hal_device_property_set_string (pc->device, pc->merge_key, buf2); } } else if (pc->curelem == CURELEM_PREPEND && pc->match_ok && (hal_device_property_get_type (pc->device, pc->merge_key) == HAL_PROPERTY_TYPE_STRING || hal_device_property_get_type (pc->device, pc->merge_key) == HAL_PROPERTY_TYPE_STRLIST || hal_device_property_get_type (pc->device, pc->merge_key) == HAL_PROPERTY_TYPE_INVALID)) { char buf[256]; char buf2[256]; /* As soon as we are prepending, we have matched the device... */ pc->device_matched = TRUE; if (pc->merge_type == MERGE_TYPE_STRLIST) { hal_device_property_strlist_prepend (pc->device, pc->merge_key, pc->cdata_buf); } else { const char *existing_string; switch (pc->merge_type) { case MERGE_TYPE_STRING: strncpy (buf, pc->cdata_buf, sizeof (buf)); break; case MERGE_TYPE_COPY_PROPERTY: hal_device_property_get_as_string (pc->device, pc->cdata_buf, buf, sizeof (buf)); break; default: HAL_ERROR (("Unknown merge_type=%d='%c'", pc->merge_type, pc->merge_type)); break; } existing_string = hal_device_property_get_string (pc->device, pc->merge_key); if (existing_string != NULL) { strncpy (buf2, buf, sizeof (buf2)); strncat (buf2, existing_string, sizeof (buf2) - strlen(buf2)); } else { strncpy (buf2, buf, sizeof (buf2)); } hal_device_property_set_string (pc->device, pc->merge_key, buf2); } } else if (pc->curelem == CURELEM_REMOVE && pc->match_ok) { if (pc->merge_type == MERGE_TYPE_STRLIST) { /* covers <remove key="foobar" type="strlist">blah</remove> */ hal_device_property_strlist_remove (pc->device, pc->merge_key, pc->cdata_buf); } else { /* only allow <remove key="foobar"/>, not <remove key="foobar">blah</remove> */ if (strlen (pc->cdata_buf) == 0) { hal_device_property_remove (pc->device, pc->merge_key); } } } else if (pc->merge_type == MERGE_TYPE_SPAWN) { HalDevice *spawned; spawned = hal_device_store_find (hald_get_gdl (), pc->merge_key); if (spawned == NULL) spawned = hal_device_store_find (hald_get_tdl (), pc->merge_key); if (spawned == NULL) { HAL_INFO (("Spawning new device object '%s' caused by <spawn> on udi '%s'", pc->merge_key, pc->device->udi)); spawned = hal_device_new (); hal_device_property_set_string (spawned, "info.bus", "unknown"); hal_device_property_set_string (spawned, "info.udi", pc->merge_key); hal_device_property_set_string (spawned, "info.parent", pc->device->udi); hal_device_set_udi (spawned, pc->merge_key); hal_device_store_add (hald_get_tdl (), spawned); di_search_and_merge (spawned, DEVICE_INFO_TYPE_INFORMATION); di_search_and_merge (spawned, DEVICE_INFO_TYPE_POLICY); hal_util_callout_device_add (spawned, spawned_device_callouts_add_done, NULL, NULL); } } else if (pc->curelem == CURELEM_CLEAR && pc->match_ok) { if (pc->merge_type == MERGE_TYPE_CLEAR) { hal_device_property_strlist_clear (pc->device, pc->merge_key); } } pc->cdata_buf_len = 0; pc->depth--; /* maintain curelem */ pc->curelem = pc->curelem_stack[pc->depth]; /* maintain pc->match_ok */ if (pc->depth <= pc->match_depth_first_fail) pc->match_ok = TRUE; } /** Called when there is CDATA * * @param pc Parsing context * @param s Pointer to data * @param len Length of data */ static void cdata (ParsingContext * pc, const char *s, int len) { int bytes_left; int bytes_to_copy; if (pc->aborted) return; bytes_left = CDATA_BUF_SIZE - pc->cdata_buf_len; if (len > bytes_left) { HAL_ERROR (("CDATA in element larger than %d", CDATA_BUF_SIZE)); } bytes_to_copy = len; if (bytes_to_copy > bytes_left) bytes_to_copy = bytes_left; if (bytes_to_copy > 0) memcpy (pc->cdata_buf + pc->cdata_buf_len, s, bytes_to_copy); pc->cdata_buf_len += bytes_to_copy; } /** Process a device information info file. * * @param dir Directory file resides in * @param filename File name * @param device Device to match on * @return #TRUE if file matched device and information * was merged */ static dbus_bool_t process_fdi_file (const char *dir, const char *filename, HalDevice * device) { int rc; char buf[512]; FILE *file; int filesize; size_t read; char *filebuf; dbus_bool_t device_matched; XML_Parser parser; ParsingContext *parsing_context; file = NULL; filebuf = NULL; parser = NULL; parsing_context = NULL; device_matched = FALSE; snprintf (buf, sizeof (buf), "%s/%s", dir, filename); /*HAL_INFO(("analyzing file %s", buf));*/ /* open file and read it into a buffer; it's a small file... */ file = fopen (buf, "r"); if (file == NULL) { HAL_ERROR (("Could not open file %s", buf)); goto out; } fseek (file, 0L, SEEK_END); filesize = (int) ftell (file); rewind (file); filebuf = (char *) malloc (filesize); if (filebuf == NULL) { HAL_ERROR (("Could not allocate %d bytes for file %s", filesize, buf)); goto out; } read = fread (filebuf, sizeof (char), filesize, file); /* initialize parsing context */ parsing_context = (ParsingContext *) malloc (sizeof (ParsingContext)); if (parsing_context == NULL) { HAL_ERROR (("Could not allocate parsing context")); goto out; } /* TODO: reuse parser */ parser = XML_ParserCreate (NULL); if (parser == NULL) { HAL_ERROR (("Could not allocate XML parser")); goto out; } parsing_context->depth = 0; parsing_context->device_matched = FALSE; parsing_context->match_ok = TRUE; parsing_context->curelem = CURELEM_UNKNOWN; parsing_context->aborted = FALSE; parsing_context->file = buf; parsing_context->parser = parser; parsing_context->device = device; parsing_context->match_depth_first_fail = -1; XML_SetElementHandler (parser, (XML_StartElementHandler) start, (XML_EndElementHandler) end); XML_SetCharacterDataHandler (parser, (XML_CharacterDataHandler) cdata); XML_SetUserData (parser, parsing_context); rc = XML_Parse (parser, filebuf, filesize, 1); /*printf("XML_Parse rc=%d\r\n", rc); */ if (rc == 0) { /* error parsing document */ HAL_ERROR (("Error parsing XML document %s at line %d, " "column %d : %s", buf, XML_GetCurrentLineNumber (parser), XML_GetCurrentColumnNumber (parser), XML_ErrorString (XML_GetErrorCode (parser)))); device_matched = FALSE; } else { /* document parsed ok */ device_matched = parsing_context->device_matched; } out: if (filebuf != NULL) free (filebuf); if (file != NULL) fclose (file); if (parser != NULL) XML_ParserFree (parser); if (parsing_context != NULL) free (parsing_context); return device_matched; } static int #ifdef __GLIBC__ my_alphasort(const void *a, const void *b) #else my_alphasort(const struct dirent **a, const struct dirent **b) #endif { return -alphasort (a, b); } /** Scan all directories and subdirectories in the given directory and * process each *.fdi file * * @param d Device to merge information into * @return #TRUE if information was merged */ static dbus_bool_t scan_fdi_files (const char *dir, HalDevice * d) { int i; int num_entries; dbus_bool_t found_fdi_file; struct dirent **name_list; found_fdi_file = 0; /*HAL_INFO(("scan_fdi_files: Processing dir '%s'", dir));*/ num_entries = scandir (dir, &name_list, 0, my_alphasort); if (num_entries == -1) { return FALSE; } for (i = num_entries - 1; i >= 0; i--) { int len; char *filename; gchar *full_path; filename = name_list[i]->d_name; len = strlen (filename); full_path = g_strdup_printf ("%s/%s", dir, filename); /*HAL_INFO (("Full path = %s", full_path));*/ /* Mmm, d_type can be DT_UNKNOWN, use glib to determine * the type */ if (g_file_test (full_path, (G_FILE_TEST_IS_REGULAR))) { /* regular file */ if (len >= 5 && filename[len - 4] == '.' && filename[len - 3] == 'f' && filename[len - 2] == 'd' && filename[len - 1] == 'i') { /*HAL_INFO (("scan_fdi_files: Processing file '%s'", filename));*/ found_fdi_file = process_fdi_file (dir, filename, d); if (found_fdi_file) { HAL_INFO (("*** Matched file %s/%s", dir, filename)); /*break;*/ } } } else if (g_file_test (full_path, (G_FILE_TEST_IS_DIR)) && strcmp (filename, ".") != 0 && strcmp (filename, "..") != 0) { int num_bytes; char *dirname; /* Directory; do the recursion thingy but not * for . and .. */ num_bytes = len + strlen (dir) + 1 + 1; dirname = (char *) malloc (num_bytes); if (dirname == NULL) { HAL_ERROR (("couldn't allocated %d bytes", num_bytes)); break; } snprintf (dirname, num_bytes, "%s/%s", dir, filename); found_fdi_file = scan_fdi_files (dirname, d); free (dirname); /* if (found_fdi_file) break; */ } g_free (full_path); free (name_list[i]); } for (; i >= 0; i--) { free (name_list[i]); } free (name_list); return found_fdi_file; } /** Search the device info file repository for a .fdi file to merge * more information into the device object. * * @param d Device to merge information into * @return #TRUE if information was merged */ dbus_bool_t di_search_and_merge (HalDevice *d, DeviceInfoType type) { static gboolean have_checked_hal_fdi_source = FALSE; static char *hal_fdi_source_preprobe = NULL; static char *hal_fdi_source_information = NULL; static char *hal_fdi_source_policy = NULL; dbus_bool_t ret; char *s1; char *s2; ret = FALSE; if (!have_checked_hal_fdi_source) { hal_fdi_source_preprobe = getenv ("HAL_FDI_SOURCE_PREPROBE"); hal_fdi_source_information = getenv ("HAL_FDI_SOURCE_INFORMATION"); hal_fdi_source_policy = getenv ("HAL_FDI_SOURCE_POLICY"); have_checked_hal_fdi_source = TRUE; } switch (type) { case DEVICE_INFO_TYPE_PREPROBE: if (hal_fdi_source_preprobe != NULL) { s1 = hal_fdi_source_preprobe; s2 = NULL; } else { s1 = PACKAGE_DATA_DIR "/hal/fdi/preprobe"; s2 = PACKAGE_SYSCONF_DIR "/hal/fdi/preprobe"; } break; case DEVICE_INFO_TYPE_INFORMATION: if (hal_fdi_source_information != NULL) { s1 = hal_fdi_source_information; s2 = NULL; } else { s1 = PACKAGE_DATA_DIR "/hal/fdi/information"; s2 = PACKAGE_SYSCONF_DIR "/hal/fdi/information"; } break; case DEVICE_INFO_TYPE_POLICY: if (hal_fdi_source_policy != NULL) { s1 = hal_fdi_source_policy; s2 = NULL; } else { s1 = PACKAGE_DATA_DIR "/hal/fdi/policy"; s2 = PACKAGE_SYSCONF_DIR "/hal/fdi/policy"; } break; default: s1 = NULL; s2 = NULL; HAL_ERROR (("Bogus device information type %d", type)); break; } if (s1 != NULL) ret = scan_fdi_files (s1, d) || ret; if (s2 != NULL) ret = scan_fdi_files (s2, d) || ret; return ret; } /** @} */