Signed-off-by: Rémi Bernon rbernon@codeweavers.com --- dlls/hidparse.sys/main.c | 90 +++++++++++++++++----------------------- 1 file changed, 39 insertions(+), 51 deletions(-)
diff --git a/dlls/hidparse.sys/main.c b/dlls/hidparse.sys/main.c index d1191a20789..8440d93e34e 100644 --- a/dlls/hidparse.sys/main.c +++ b/dlls/hidparse.sys/main.c @@ -135,7 +135,12 @@ static void debug_print_preparsed( struct hid_preparsed_data *data )
struct hid_parser_state { - HIDP_CAPS caps; + USAGE usage; + USAGE usage_page; + USHORT input_report_byte_length; + USHORT output_report_byte_length; + USHORT feature_report_byte_length; + USHORT number_link_collection_nodes;
USAGE usages_page[256]; USAGE usages_min[256]; @@ -155,10 +160,10 @@ struct hid_parser_state struct hid_value_caps *values[3]; ULONG values_size[3];
- ULONG bit_size[3][256]; - USHORT *byte_size[3]; /* pointers to caps */ - USHORT *value_idx[3]; /* pointers to caps */ - USHORT *data_idx[3]; /* pointers to caps */ + ULONG bit_size[3][256]; + USHORT byte_length[3]; + USHORT caps_count[3]; + USHORT data_count[3]; };
static BOOL array_reserve( struct hid_value_caps **array, DWORD *array_size, DWORD index ) @@ -274,7 +279,7 @@ static BOOL parse_new_collection( struct hid_parser_state *state ) return FALSE; }
- if (!array_reserve( &state->collections, &state->collections_size, state->caps.NumberLinkCollectionNodes )) + if (!array_reserve( &state->collections, &state->collections_size, state->number_link_collection_nodes )) { ERR( "HID parser collections overflow!\n" ); return FALSE; @@ -286,16 +291,16 @@ static BOOL parse_new_collection( struct hid_parser_state *state ) state->items.usage_min = state->usages_min[0]; state->items.usage_max = state->usages_max[0];
- state->collections[state->caps.NumberLinkCollectionNodes] = state->items; - state->items.link_collection = state->caps.NumberLinkCollectionNodes; + state->collections[state->number_link_collection_nodes] = state->items; + state->items.link_collection = state->number_link_collection_nodes; state->items.link_usage_page = state->items.usage_page; state->items.link_usage = state->items.usage_min; - if (!state->caps.NumberLinkCollectionNodes) + if (!state->number_link_collection_nodes) { - state->caps.UsagePage = state->items.usage_page; - state->caps.Usage = state->items.usage_min; + state->usage_page = state->items.usage_page; + state->usage = state->items.usage_min; } - state->caps.NumberLinkCollectionNodes++; + state->number_link_collection_nodes++;
reset_local_items( state ); return TRUE; @@ -320,15 +325,15 @@ static BOOL parse_new_value_caps( struct hid_parser_state *state, HIDP_REPORT_TY struct hid_value_caps *value; USAGE usage_page = state->items.usage_page; DWORD usages_size = max( 1, state->usages_size ); - USHORT *byte_size = state->byte_size[type]; - USHORT *value_idx = state->value_idx[type]; - USHORT *data_idx = state->data_idx[type]; + USHORT *byte_length = &state->byte_length[type]; + USHORT *caps_count = &state->caps_count[type]; + USHORT *data_count = &state->data_count[type]; ULONG start_bit, *bit_size = &state->bit_size[type][state->items.report_id]; BOOL is_array;
if (!*bit_size) *bit_size = 8; *bit_size += state->items.bit_size * state->items.report_count; - *byte_size = max( *byte_size, (*bit_size + 7) / 8 ); + *byte_length = max( *byte_length, (*bit_size + 7) / 8 ); start_bit = *bit_size;
if (!state->items.report_count) @@ -337,12 +342,12 @@ static BOOL parse_new_value_caps( struct hid_parser_state *state, HIDP_REPORT_TY return TRUE; }
- if (!array_reserve( &state->values[type], &state->values_size[type], *value_idx + usages_size )) + if (!array_reserve( &state->values[type], &state->values_size[type], *caps_count + usages_size )) { ERR( "HID parser values overflow!\n" ); return FALSE; } - value = state->values[type] + *value_idx; + value = state->values[type] + *caps_count;
if (!(is_array = HID_VALUE_CAPS_IS_ARRAY( &state->items ))) state->items.report_count -= usages_size - 1; else start_bit -= state->items.report_count * state->items.bit_size; @@ -361,11 +366,11 @@ static BOOL parse_new_value_caps( struct hid_parser_state *state, HIDP_REPORT_TY state->items.usage_page = state->usages_page[usages_size]; state->items.usage_min = state->usages_min[usages_size]; state->items.usage_max = state->usages_max[usages_size]; - state->items.data_index_min = *data_idx; - state->items.data_index_max = *data_idx + state->items.usage_max - state->items.usage_min; - if (state->items.usage_max || state->items.usage_min) *data_idx = state->items.data_index_max + 1; + state->items.data_index_min = *data_count; + state->items.data_index_max = *data_count + state->items.usage_max - state->items.usage_min; + if (state->items.usage_max || state->items.usage_min) *data_count = state->items.data_index_max + 1; *value++ = state->items; - *value_idx += 1; + *caps_count += 1; if (!is_array) state->items.report_count = 1; }
@@ -374,22 +379,6 @@ static BOOL parse_new_value_caps( struct hid_parser_state *state, HIDP_REPORT_TY return TRUE; }
-static void init_parser_state( struct hid_parser_state *state ) -{ - memset( state, 0, sizeof(*state) ); - state->byte_size[HidP_Input] = &state->caps.InputReportByteLength; - state->byte_size[HidP_Output] = &state->caps.OutputReportByteLength; - state->byte_size[HidP_Feature] = &state->caps.FeatureReportByteLength; - - state->value_idx[HidP_Input] = &state->caps.NumberInputValueCaps; - state->value_idx[HidP_Output] = &state->caps.NumberOutputValueCaps; - state->value_idx[HidP_Feature] = &state->caps.NumberFeatureValueCaps; - - state->data_idx[HidP_Input] = &state->caps.NumberInputDataIndices; - state->data_idx[HidP_Output] = &state->caps.NumberOutputDataIndices; - state->data_idx[HidP_Feature] = &state->caps.NumberFeatureDataIndices; -} - static void free_parser_state( struct hid_parser_state *state ) { if (state->global_idx) ERR( "%u unpopped device caps on the stack\n", state->global_idx ); @@ -408,29 +397,29 @@ static struct hid_preparsed_data *build_preparsed_data( struct hid_parser_state struct hid_value_caps *caps; DWORD caps_len, size;
- caps_len = state->caps.NumberInputValueCaps + state->caps.NumberOutputValueCaps + - state->caps.NumberFeatureValueCaps + state->caps.NumberLinkCollectionNodes; + caps_len = state->caps_count[HidP_Input] + state->caps_count[HidP_Output] + + state->caps_count[HidP_Feature] + state->number_link_collection_nodes; size = FIELD_OFFSET( struct hid_preparsed_data, value_caps[caps_len] );
if (!(data = ExAllocatePool( pool_type, size ))) return NULL; memset( data, 0, size ); data->magic = HID_MAGIC; data->size = size; - data->usage = state->caps.Usage; - data->usage_page = state->caps.UsagePage; + data->usage = state->usage; + data->usage_page = state->usage_page; data->input_caps_start = 0; - data->input_caps_count = state->caps.NumberInputValueCaps; + data->input_caps_count = state->caps_count[HidP_Input]; data->input_caps_end = data->input_caps_start + data->input_caps_count; - data->input_report_byte_length = state->caps.InputReportByteLength; + data->input_report_byte_length = state->byte_length[HidP_Input]; data->output_caps_start = data->input_caps_end; - data->output_caps_count = state->caps.NumberOutputValueCaps; + data->output_caps_count = state->caps_count[HidP_Output]; data->output_caps_end = data->output_caps_start + data->output_caps_count; - data->output_report_byte_length = state->caps.OutputReportByteLength; + data->output_report_byte_length = state->byte_length[HidP_Output]; data->feature_caps_start = data->output_caps_end; - data->feature_caps_count = state->caps.NumberFeatureValueCaps; + data->feature_caps_count = state->caps_count[HidP_Feature]; data->feature_caps_end = data->feature_caps_start + data->feature_caps_count; - data->feature_report_byte_length = state->caps.FeatureReportByteLength; - data->number_link_collection_nodes = state->caps.NumberLinkCollectionNodes; + data->feature_report_byte_length = state->byte_length[HidP_Feature]; + data->number_link_collection_nodes = state->number_link_collection_nodes;
caps = HID_INPUT_VALUE_CAPS( data ); memcpy( caps, state->values[0], data->input_caps_count * sizeof(*caps) ); @@ -464,8 +453,7 @@ struct hid_preparsed_data *parse_descriptor( BYTE *descriptor, unsigned int leng } }
- if (!(state = malloc( sizeof(*state) ))) return NULL; - init_parser_state( state ); + if (!(state = calloc( 1, sizeof(*state) ))) return NULL;
for (ptr = descriptor, end = descriptor + length; ptr != end; ptr += size + 1) {