components/bt/host/bluedroid/hci/packet_fragmenter.c (ESP-IDF)

Outline

#include <string.h>

#include "common/bt_trace.h"

#include "common/bt_defs.h"

#include "device/controller.h"

#include "hci/hci_internals.h"

#include "hci/hci_layer.h"

#include "hci/packet_fragmenter.h"

#include "osi/hash_map.h"

#include "osi/hash_functions.h"

#include "common/bt_trace.h"

#define APPLY_CONTINUATION_FLAG

#define APPLY_START_FLAG

#define SUB_EVENT

#define GET_BOUNDARY_FLAG

#define HANDLE_MASK

#define START_PACKET_BOUNDARY

#define CONTINUATION_PACKET_BOUNDARY

#define L2CAP_HEADER_SIZE

#define NUMBER_OF_BUCKETS

interface

controller

callbacks

partial_packets

current_fragment_packet

init(const packet_fragmenter_callbacks_t *)

cleanup()

fragment_get_current_packet()

fragment_and_dispatch(BT_HDR *)

reassemble_and_dispatch(BT_HDR *)

interface

packet_fragmenter_get_interface()

Files

SourceVuESP-IDF Framework and ExamplesESP-IDFcomponents/bt/host/bluedroid/hci/packet_fragmenter.c

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/****************************************************************************** * * Copyright (C) 2014 Google, Inc. * * 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 <string.h> #include "common/bt_trace.h" #include "common/bt_defs.h" #include "device/controller.h" #include "hci/hci_internals.h" #include "hci/hci_layer.h" #include "hci/packet_fragmenter.h" #include "osi/hash_map.h" #include "osi/hash_functions.h" #include "common/bt_trace.h" #define APPLY_CONTINUATION_FLAG(handle) (((handle) & 0xCFFF) | 0x1000) #define APPLY_START_FLAG(handle) (((handle) & 0xCFFF) | 0x2000) #define SUB_EVENT(event) ((event) & MSG_SUB_EVT_MASK) #define GET_BOUNDARY_FLAG(handle) (((handle) >> 12) & 0x0003) #define HANDLE_MASK 0x0FFF #define START_PACKET_BOUNDARY 2 #define CONTINUATION_PACKET_BOUNDARY 1 #define L2CAP_HEADER_SIZE 4 // TODO(zachoverflow): find good value for this #define NUMBER_OF_BUCKETS 42 // Our interface and callbacks static const packet_fragmenter_t interface; static const controller_t *controller; static const packet_fragmenter_callbacks_t *callbacks; static hash_map_t *partial_packets; static BT_HDR *current_fragment_packet; static void init(const packet_fragmenter_callbacks_t *result_callbacks) { current_fragment_packet = NULL; callbacks = result_callbacks; partial_packets = hash_map_new(NUMBER_OF_BUCKETS, hash_function_naive, NULL, NULL, NULL); } static void cleanup(void) { if (partial_packets) { hash_map_free(partial_packets); } } static BT_HDR *fragment_get_current_packet(void) { return current_fragment_packet; } static void fragment_and_dispatch(BT_HDR *packet) { uint16_t continuation_handle; uint16_t max_data_size, max_packet_size, remaining_length; uint16_t event = packet->event & MSG_EVT_MASK; uint8_t *stream = packet->data + packet->offset; assert(packet != NULL); // We only fragment ACL packets if (event != MSG_STACK_TO_HC_HCI_ACL) { callbacks->fragmented(packet, true); return; } max_data_size = SUB_EVENT(packet->event) == LOCAL_BR_EDR_CONTROLLER_ID ? controller->get_acl_data_size_classic() : controller->get_acl_data_size_ble(); max_packet_size = max_data_size + HCI_ACL_PREAMBLE_SIZE; if((packet->len > max_packet_size) && (packet->layer_specific == 0) && (event == MSG_STACK_TO_HC_HCI_ACL)) { packet->event = MSG_HC_TO_STACK_L2C_SEG_XMIT; current_fragment_packet = NULL; callbacks->transmit_finished(packet, false); return; } remaining_length = packet->len; STREAM_TO_UINT16(continuation_handle, stream); continuation_handle = APPLY_CONTINUATION_FLAG(continuation_handle); if (remaining_length > max_packet_size) { current_fragment_packet = packet; UINT16_TO_STREAM(stream, max_data_size); packet->len = max_packet_size; callbacks->fragmented(packet, false); packet->offset += max_data_size; remaining_length -= max_data_size; packet->len = remaining_length; // Write the ACL header for the next fragment stream = packet->data + packet->offset; UINT16_TO_STREAM(stream, continuation_handle); UINT16_TO_STREAM(stream, remaining_length - HCI_ACL_PREAMBLE_SIZE); // Apparently L2CAP can set layer_specific to a max number of segments to transmit if (packet->layer_specific) { packet->layer_specific--; if (packet->layer_specific == 0) { packet->event = MSG_HC_TO_STACK_L2C_SEG_XMIT; /* The remain packet will send back to the l2cap layer when controller buffer is not enough current_fragment_packet must be NULL, otherwise hci_host_thread_handler() will connitue handle the remain packet. then the remain packet will be freed. */ current_fragment_packet = NULL; callbacks->transmit_finished(packet, false); return; } } } else { current_fragment_packet = NULL; callbacks->fragmented(packet, true); } } static void reassemble_and_dispatch(BT_HDR *packet) { HCI_TRACE_DEBUG("reassemble_and_dispatch\n"); if ((packet->event & MSG_EVT_MASK) == MSG_HC_TO_STACK_HCI_ACL) { uint8_t *stream = packet->data + packet->offset; uint16_t handle; uint16_t l2cap_length; uint16_t acl_length __attribute__((unused)); STREAM_TO_UINT16(handle, stream); STREAM_TO_UINT16(acl_length, stream); STREAM_TO_UINT16(l2cap_length, stream); assert(acl_length == packet->len - HCI_ACL_PREAMBLE_SIZE); uint8_t boundary_flag = GET_BOUNDARY_FLAG(handle); handle = handle & HANDLE_MASK; BT_HDR *partial_packet = (BT_HDR *)hash_map_get(partial_packets, (void *)(uintptr_t)handle); if (boundary_flag == START_PACKET_BOUNDARY) { if (partial_packet) { HCI_TRACE_WARNING("%s found unfinished packet for handle with start packet. Dropping old.\n", __func__); hash_map_erase(partial_packets, (void *)(uintptr_t)handle); osi_free(partial_packet); } uint16_t full_length = l2cap_length + L2CAP_HEADER_SIZE + HCI_ACL_PREAMBLE_SIZE; if (full_length <= packet->len) { if (full_length < packet->len) { HCI_TRACE_WARNING("%s found l2cap full length %d less than the hci length %d.\n", __func__, l2cap_length, packet->len); } callbacks->reassembled(packet); return; } partial_packet = (BT_HDR *)osi_calloc(full_length + sizeof(BT_HDR)); if (partial_packet == NULL) { HCI_TRACE_WARNING("%s full_length %d no memory.\n", __func__, full_length); assert(0); } partial_packet->event = packet->event; partial_packet->len = full_length; partial_packet->offset = packet->len; memcpy(partial_packet->data, packet->data + packet->offset, packet->len); // Update the ACL data size to indicate the full expected length stream = partial_packet->data; STREAM_SKIP_UINT16(stream); // skip the handle UINT16_TO_STREAM(stream, full_length - HCI_ACL_PREAMBLE_SIZE); hash_map_set(partial_packets, (void *)(uintptr_t)handle, partial_packet); // Free the old packet buffer, since we don't need it anymore osi_free(packet); } else { if (!partial_packet) { HCI_TRACE_ERROR("%s got continuation for unknown packet. Dropping it.\n", __func__); osi_free(packet); return; } packet->offset += HCI_ACL_PREAMBLE_SIZE; // skip ACL preamble packet->len -= HCI_ACL_PREAMBLE_SIZE; uint16_t projected_offset = partial_packet->offset + packet->len; if (projected_offset > partial_packet->len) { // len stores the expected length HCI_TRACE_ERROR("%s got packet which would exceed expected length of %d. Truncating.\n", __func__, partial_packet->len); packet->len = partial_packet->len - partial_packet->offset; projected_offset = partial_packet->len; } memcpy( partial_packet->data + partial_packet->offset, packet->data + packet->offset, packet->len ); // Free the old packet buffer, since we don't need it anymore osi_free(packet); partial_packet->offset = projected_offset; if (partial_packet->offset == partial_packet->len) { hash_map_erase(partial_packets, (void *)(uintptr_t)handle); partial_packet->offset = 0; callbacks->reassembled(partial_packet); } } } else { callbacks->reassembled(packet); } } static const packet_fragmenter_t interface = { init, cleanup, fragment_get_current_packet, fragment_and_dispatch, reassemble_and_dispatch }; const packet_fragmenter_t *packet_fragmenter_get_interface(void) { controller = controller_get_interface(); return &interface; }

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