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-rw-r--r--ucs2-interface/ucs-xml/UcsXml_Private.c510
1 files changed, 510 insertions, 0 deletions
diff --git a/ucs2-interface/ucs-xml/UcsXml_Private.c b/ucs2-interface/ucs-xml/UcsXml_Private.c
new file mode 100644
index 0000000..b447bce
--- /dev/null
+++ b/ucs2-interface/ucs-xml/UcsXml_Private.c
@@ -0,0 +1,510 @@
+/*------------------------------------------------------------------------------------------------*/
+/* Unicens XML Parser */
+/* Copyright 2017, Microchip Technology Inc. and its subsidiaries. */
+/* */
+/* Redistribution and use in source and binary forms, with or without */
+/* modification, are permitted provided that the following conditions are met: */
+/* */
+/* 1. Redistributions of source code must retain the above copyright notice, this */
+/* list of conditions and the following disclaimer. */
+/* */
+/* 2. Redistributions in binary form must reproduce the above copyright notice, */
+/* this list of conditions and the following disclaimer in the documentation */
+/* and/or other materials provided with the distribution. */
+/* */
+/* 3. Neither the name of the copyright holder nor the names of its */
+/* contributors may be used to endorse or promote products derived from */
+/* this software without specific prior written permission. */
+/* */
+/* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" */
+/* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE */
+/* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE */
+/* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE */
+/* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL */
+/* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR */
+/* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER */
+/* CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, */
+/* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE */
+/* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */
+/*------------------------------------------------------------------------------------------------*/
+
+#include <stdlib.h>
+#include <string.h>
+#include <assert.h>
+#include "UcsXml_Private.h"
+
+static const char* USB_PHY_STANDARD = "Standard";
+static const char* USB_PHY_HSIC = "HSIC";
+
+static const char* CLOCK_8FS = "8Fs";
+static const char* CLOCK_16FS = "16Fs";
+static const char* CLOCK_32FS = "32Fs";
+static const char* CLOCK_64FS = "64Fs";
+static const char* CLOCK_128FS = "128Fs";
+static const char* CLOCK_256FS = "256Fs";
+static const char* CLOCK_512FS = "512Fs";
+static const char* CLOCK_1024FS = "1024Fs";
+static const char* CLOCK_2048FS = "2048Fs";
+static const char* CLOCK_3072FS = "3072Fs";
+static const char* CLOCK_4096FS = "4096Fs";
+static const char* CLOCK_6144FS = "6144Fs";
+static const char* CLOCK_8192FS = "8192Fs";
+static const char* CLOCK_WILDCARD = "Wildcard";
+
+static const char* STRM_ALIGN_L16 = "Left16Bit";
+static const char* STRM_ALIGN_L24 = "Left24Bit";
+static const char* STRM_ALIGN_R16 = "Right16Bit";
+static const char* STRM_ALIGN_R24 = "Right24Bit";
+static const char* STRM_ALIGN_SEQUENTIAL = "Seq";
+
+static const char* I2S_PIN_SRXA0 = "SRXA0";
+static const char* I2S_PIN_SRXA1 = "SRXA1";
+static const char* I2S_PIN_SRXB0 = "SRXB0";
+static const char* I2S_PIN_SRXB1 = "SRXB1";
+
+static const char* MUTE_OFF = "NoMuting";
+static const char* MUTE_SIGNAL = "MuteSignal";
+/*
+static const char* VAL_TRUE = "true";
+static const char* VAL_FALSE = "false";
+ */
+
+#define ASSERT_FALSE() { assert(false); return false; }
+#define CHECK_POINTER(PTR) if (NULL == PTR) { ASSERT_FALSE(); }
+
+static int32_t Str2Int(const char *val)
+{
+ return strtol( val, NULL, 0 );
+}
+
+void *MCalloc(struct UcsXmlObjectList *list, uint32_t nElem, uint32_t elemSize)
+{
+ void *obj;
+ struct UcsXmlObjectList *tail = list;
+ if (NULL == list || 0 == nElem || 0 == elemSize) return NULL;
+
+ obj = calloc(nElem, elemSize);
+ if (NULL == obj)
+ {
+ assert(false);
+ return NULL;
+ }
+ if (NULL == list->obj)
+ {
+ list->obj = obj;
+ return obj;
+ }
+ while(tail->next) tail = tail->next;
+ tail->next = calloc(1, sizeof(struct UcsXmlObjectList));
+ if (NULL == tail->next)
+ {
+ assert(false);
+ free(obj);
+ return NULL;
+ }
+ tail->next->obj = obj;
+ return obj;
+}
+
+void FreeObjList(struct UcsXmlObjectList *cur)
+{
+ struct UcsXmlObjectList *root = cur;
+ while(cur)
+ {
+ struct UcsXmlObjectList *next = cur->next;
+ assert(NULL != cur->obj);
+ if (cur->obj)
+ free(cur->obj);
+ if (cur != root)
+ free(cur);
+ cur = next;
+ }
+}
+
+bool GetMostSocket(Ucs_Xrm_MostSocket_t **mostSoc, struct MostSocketParameters *param)
+{
+ Ucs_Xrm_MostSocket_t *soc = NULL;
+ CHECK_POINTER(mostSoc);
+ CHECK_POINTER(param);
+ CHECK_POINTER(param->list);
+ soc = MCalloc(param->list, 1, sizeof(Ucs_Xrm_MostSocket_t));
+ CHECK_POINTER(soc);
+ *mostSoc = soc;
+ soc->resource_type = UCS_XRM_RC_TYPE_MOST_SOCKET;
+ soc->most_port_handle = 0x0D00;
+ soc->bandwidth = param->bandwidth;
+ soc->direction = param->isSource ? UCS_SOCKET_DIR_INPUT : UCS_SOCKET_DIR_OUTPUT;
+ switch(param->dataType)
+ {
+ case SYNC_DATA:
+ soc->data_type = UCS_MOST_SCKT_SYNC_DATA;
+ break;
+ case AV_PACKETIZED:
+ soc->data_type = UCS_MOST_SCKT_AV_PACKETIZED;
+ break;
+ case QOS_IP:
+ soc->data_type = UCS_MOST_SCKT_QOS_IP;
+ break;
+ case DISC_FRAME_PHASE:
+ soc->data_type = UCS_MOST_SCKT_DISC_FRAME_PHASE;
+ break;
+ default:
+ ASSERT_FALSE();
+ }
+ return true;
+}
+
+bool GetUsbPort(Ucs_Xrm_UsbPort_t **usbPort, struct UsbPortParameters *param)
+{
+ Ucs_Xrm_UsbPort_t *port = NULL;
+ CHECK_POINTER(usbPort);
+ CHECK_POINTER(param);
+ CHECK_POINTER(param->list);
+ CHECK_POINTER(param->deviceInterfaces);
+ CHECK_POINTER(param->streamInCount);
+ CHECK_POINTER(param->streamOutCount);
+ CHECK_POINTER(param->physicalLayer);
+ port = MCalloc(param->list, 1, sizeof(Ucs_Xrm_UsbPort_t));
+ CHECK_POINTER(port);
+ *usbPort = port;
+ port->resource_type = UCS_XRM_RC_TYPE_USB_PORT;
+ port->index = 0;
+ port->devices_interfaces = (uint16_t)Str2Int(param->deviceInterfaces);
+ port->streaming_if_ep_in_count = (uint8_t)Str2Int(param->streamInCount);
+ port->streaming_if_ep_out_count = (uint8_t)Str2Int(param->streamOutCount);
+ if (0 == strcmp(USB_PHY_STANDARD, param->physicalLayer))
+ port->physical_layer = UCS_USB_PHY_LAYER_STANDARD;
+ else if (0 == strcmp(USB_PHY_HSIC, param->physicalLayer))
+ port->physical_layer = UCS_USB_PHY_LAYER_HSCI;
+ else ASSERT_FALSE();
+ return true;
+}
+
+bool GetUsbPortDefaultCreated(Ucs_Xrm_ResObject_t **usbPort, struct UcsXmlObjectList *list)
+{
+ Ucs_Xrm_DefaultCreatedPort_t *p;
+ CHECK_POINTER(usbPort);
+ CHECK_POINTER(list);
+ p = MCalloc(list, 1, sizeof(Ucs_Xrm_DefaultCreatedPort_t));
+ CHECK_POINTER(p);
+ p->resource_type = UCS_XRM_RC_TYPE_DC_PORT;
+ p->port_type = UCS_XRM_PORT_TYPE_USB;
+ p->index = 0;
+ *usbPort = (Ucs_Xrm_ResObject_t *)p;
+ return true;
+}
+
+bool GetUsbSocket(Ucs_Xrm_UsbSocket_t **usbSoc, struct UsbSocketParameters *param)
+{
+ Ucs_Xrm_UsbSocket_t *soc = NULL;
+ CHECK_POINTER(usbSoc);
+ CHECK_POINTER(param);
+ CHECK_POINTER(param->list);
+ CHECK_POINTER(param->endpointAddress);
+ CHECK_POINTER(param->framesPerTrans);
+ CHECK_POINTER(param->usbPort);
+ soc = MCalloc(param->list, 1, sizeof(Ucs_Xrm_UsbSocket_t));
+ CHECK_POINTER(soc);
+ *usbSoc = soc;
+ soc->resource_type = UCS_XRM_RC_TYPE_USB_SOCKET;
+ soc->direction = param->isSource ? UCS_SOCKET_DIR_INPUT : UCS_SOCKET_DIR_OUTPUT;
+ switch(param->dataType)
+ {
+ case SYNC_DATA:
+ soc->data_type = UCS_USB_SCKT_SYNC_DATA;
+ break;
+ case AV_PACKETIZED:
+ soc->data_type = UCS_USB_SCKT_AV_PACKETIZED;
+ break;
+ case IPC_PACKET:
+ soc->data_type = UCS_USB_SCKT_IPC_PACKET;
+ break;
+ default:
+ ASSERT_FALSE();
+ }
+ soc->end_point_addr = (uint8_t)Str2Int(param->endpointAddress);
+ soc->frames_per_transfer = (uint16_t)Str2Int(param->framesPerTrans);
+ soc->usb_port_obj_ptr = param->usbPort;
+ return true;
+}
+
+bool GetMlbPort(Ucs_Xrm_MlbPort_t **mlbPort, struct MlbPortParameters *param)
+{
+ Ucs_Xrm_MlbPort_t *port = NULL;
+ CHECK_POINTER(mlbPort);
+ CHECK_POINTER(param);
+ CHECK_POINTER(param->list);
+ CHECK_POINTER(param->clockConfig);
+ port = MCalloc(param->list, 1, sizeof(Ucs_Xrm_MlbPort_t));
+ CHECK_POINTER(port);
+ *mlbPort = port;
+ port->resource_type = UCS_XRM_RC_TYPE_MLB_PORT;
+ port->index = 0;
+ if (0 == strcmp(param->clockConfig, CLOCK_256FS))
+ port->clock_config = UCS_MLB_CLK_CFG_256_FS;
+ else if (0 == strcmp(param->clockConfig, CLOCK_512FS))
+ port->clock_config = UCS_MLB_CLK_CFG_512_FS;
+ else if (0 == strcmp(param->clockConfig, CLOCK_1024FS))
+ port->clock_config = UCS_MLB_CLK_CFG_1024_FS;
+ else if (0 == strcmp(param->clockConfig, CLOCK_2048FS))
+ port->clock_config = UCS_MLB_CLK_CFG_2048_FS;
+ else if (0 == strcmp(param->clockConfig, CLOCK_3072FS))
+ port->clock_config = UCS_MLB_CLK_CFG_3072_FS;
+ else if (0 == strcmp(param->clockConfig, CLOCK_4096FS))
+ port->clock_config = UCS_MLB_CLK_CFG_4096_FS;
+ else if (0 == strcmp(param->clockConfig, CLOCK_6144FS))
+ port->clock_config = UCS_MLB_CLK_CFG_6144_FS;
+ else if (0 == strcmp(param->clockConfig, CLOCK_8192FS))
+ port->clock_config = UCS_MLB_CLK_CFG_8192_FS;
+ else ASSERT_FALSE();
+ return true;
+}
+
+bool GetMlbPortDefaultCreated(Ucs_Xrm_ResObject_t **mlbPort, struct UcsXmlObjectList *list)
+{
+ Ucs_Xrm_DefaultCreatedPort_t *p;
+ CHECK_POINTER(mlbPort);
+ CHECK_POINTER(list)
+ p = MCalloc(list, 1, sizeof(Ucs_Xrm_DefaultCreatedPort_t));
+ CHECK_POINTER(p);
+ p->resource_type = UCS_XRM_RC_TYPE_DC_PORT;
+ p->port_type = UCS_XRM_PORT_TYPE_MLB;
+ p->index = 0;
+ *mlbPort = (Ucs_Xrm_ResObject_t *)p;
+ return true;
+}
+
+bool GetMlbSocket(Ucs_Xrm_MlbSocket_t **mlbSoc, struct MlbSocketParameters *param)
+{
+ Ucs_Xrm_MlbSocket_t *soc = NULL;
+ CHECK_POINTER(mlbSoc);
+ CHECK_POINTER(param);
+ CHECK_POINTER(param->list);
+ CHECK_POINTER(param->channelAddress);
+ CHECK_POINTER(param->mlbPort);
+ soc = MCalloc(param->list, 1, sizeof(Ucs_Xrm_MlbSocket_t));
+ CHECK_POINTER(soc);
+ *mlbSoc = soc;
+ soc->resource_type = UCS_XRM_RC_TYPE_MLB_SOCKET;
+ soc->direction = param->isSource ? UCS_SOCKET_DIR_INPUT : UCS_SOCKET_DIR_OUTPUT;
+ soc->bandwidth = param->bandwidth;
+ switch(param->dataType)
+ {
+ case SYNC_DATA:
+ soc->data_type = UCS_MLB_SCKT_SYNC_DATA;
+ break;
+ case AV_PACKETIZED:
+ soc->data_type = UCS_MLB_SCKT_AV_PACKETIZED;
+ break;
+ case QOS_IP:
+ soc->data_type = UCS_MLB_SCKT_QOS_IP;
+ break;
+ case DISC_FRAME_PHASE:
+ soc->data_type = UCS_MLB_SCKT_DISC_FRAME_PHASE;
+ break;
+ case IPC_PACKET:
+ soc->data_type = UCS_MLB_SCKT_IPC_PACKET;
+ break;
+ default:
+ ASSERT_FALSE();
+ }
+ soc->channel_address = (uint16_t)Str2Int(param->channelAddress);
+ soc->mlb_port_obj_ptr = param->mlbPort;
+ return true;
+}
+
+bool GetStrmPort(Ucs_Xrm_StrmPort_t **strmPort, struct StrmPortParameters *param)
+{
+ Ucs_Xrm_StrmPort_t *port = NULL;
+ CHECK_POINTER(strmPort);
+ CHECK_POINTER(param);
+ CHECK_POINTER(param->list);
+ CHECK_POINTER(param->clockConfig);
+ port = MCalloc(param->list, 1, sizeof(Ucs_Xrm_StrmPort_t));
+ CHECK_POINTER(port);
+ *strmPort = port;
+ port->resource_type = UCS_XRM_RC_TYPE_STRM_PORT;
+ port->index = param->index;
+ if (0 == port->index)
+ {
+ if (0 == strcmp(param->clockConfig, CLOCK_8FS))
+ port->clock_config = UCS_STREAM_PORT_CLK_CFG_8FS;
+ else if (0 == strcmp(param->clockConfig, CLOCK_16FS))
+ port->clock_config = UCS_STREAM_PORT_CLK_CFG_16FS;
+ else if (0 == strcmp(param->clockConfig, CLOCK_32FS))
+ port->clock_config = UCS_STREAM_PORT_CLK_CFG_32FS;
+ else if (0 == strcmp(param->clockConfig, CLOCK_64FS))
+ port->clock_config = UCS_STREAM_PORT_CLK_CFG_64FS;
+ else if (0 == strcmp(param->clockConfig, CLOCK_128FS))
+ port->clock_config = UCS_STREAM_PORT_CLK_CFG_128FS;
+ else if (0 == strcmp(param->clockConfig, CLOCK_256FS))
+ port->clock_config = UCS_STREAM_PORT_CLK_CFG_256FS;
+ else if (0 == strcmp(param->clockConfig, CLOCK_512FS))
+ port->clock_config = UCS_STREAM_PORT_CLK_CFG_512FS;
+ else if (0 == strcmp(param->clockConfig, CLOCK_WILDCARD))
+ port->clock_config = UCS_STREAM_PORT_CLK_CFG_WILD;
+ else ASSERT_FALSE();
+ } else {
+ port->clock_config = UCS_STREAM_PORT_CLK_CFG_WILD;
+ }
+
+ if (0 == strcmp(param->dataAlignment, STRM_ALIGN_L16))
+ port->data_alignment = UCS_STREAM_PORT_ALGN_LEFT16BIT;
+ else if (0 == strcmp(param->dataAlignment, STRM_ALIGN_L24))
+ port->data_alignment = UCS_STREAM_PORT_ALGN_LEFT24BIT;
+ else if (0 == strcmp(param->dataAlignment, STRM_ALIGN_R16))
+ port->data_alignment = UCS_STREAM_PORT_ALGN_RIGHT16BIT;
+ else if (0 == strcmp(param->dataAlignment, STRM_ALIGN_R24))
+ port->data_alignment = UCS_STREAM_PORT_ALGN_RIGHT24BIT;
+ else if (0 == strcmp(param->dataAlignment, STRM_ALIGN_SEQUENTIAL))
+ port->data_alignment = UCS_STREAM_PORT_ALGN_SEQ;
+ else ASSERT_FALSE();
+ return true;
+}
+
+bool GetStrmSocket(Ucs_Xrm_StrmSocket_t **strmSoc, struct StrmSocketParameters *param)
+{
+ Ucs_Xrm_StrmSocket_t *soc = NULL;
+ CHECK_POINTER(strmSoc);
+ CHECK_POINTER(param);
+ CHECK_POINTER(param->list);
+ CHECK_POINTER(param->streamPin);
+ CHECK_POINTER(param->streamPortA);
+ CHECK_POINTER(param->streamPortB);
+ soc = MCalloc(param->list, 1, sizeof(Ucs_Xrm_StrmSocket_t));
+ CHECK_POINTER(soc);
+ *strmSoc = soc;
+ soc->resource_type = UCS_XRM_RC_TYPE_STRM_SOCKET;
+ soc->direction = param->isSource ? UCS_SOCKET_DIR_INPUT : UCS_SOCKET_DIR_OUTPUT;
+ switch(param->dataType)
+ {
+ case SYNC_DATA:
+ soc->data_type = UCS_STREAM_PORT_SCKT_SYNC_DATA;
+ break;
+ default:
+ ASSERT_FALSE();
+ }
+ soc->bandwidth = param->bandwidth;
+ if (0 == strcmp(param->streamPin, I2S_PIN_SRXA0))
+ {
+ soc->stream_pin_id = UCS_STREAM_PORT_PIN_ID_SRXA0;
+ soc->stream_port_obj_ptr = param->streamPortA;
+ return true;
+ }
+ else if (0 == strcmp(param->streamPin, I2S_PIN_SRXA1))
+ {
+ soc->stream_pin_id = UCS_STREAM_PORT_PIN_ID_SRXA1;
+ soc->stream_port_obj_ptr = param->streamPortA;
+ return true;
+ }
+ else if (0 == strcmp(param->streamPin, I2S_PIN_SRXB0))
+ {
+ soc->stream_pin_id = UCS_STREAM_PORT_PIN_ID_SRXB0;
+ soc->stream_port_obj_ptr = param->streamPortB;
+ return true;
+ }
+ else if (0 == strcmp(param->streamPin, I2S_PIN_SRXB1))
+ {
+ soc->stream_pin_id = UCS_STREAM_PORT_PIN_ID_SRXB1;
+ soc->stream_port_obj_ptr = param->streamPortB;
+ return true;
+ }
+ else ASSERT_FALSE();
+ return true;
+}
+
+bool GetSplitter(Ucs_Xrm_Splitter_t **splitter, struct SplitterParameters *param)
+{
+ Ucs_Xrm_Splitter_t *split = NULL;
+ CHECK_POINTER(splitter);
+ CHECK_POINTER(param);
+ CHECK_POINTER(param->list);
+ split = MCalloc(param->list, 1, sizeof(Ucs_Xrm_Splitter_t));
+ CHECK_POINTER(split);
+ *splitter = split;
+ split->most_port_handle = 0x0D00;
+ split->resource_type = UCS_XRM_RC_TYPE_SPLITTER;
+ split->bytes_per_frame = param->bytesPerFrame;
+ split->socket_in_obj_ptr = param->inSoc;
+ return true;
+}
+
+bool GetCombiner(Ucs_Xrm_Combiner_t **combiner, struct CombinerParameters *param)
+{
+ Ucs_Xrm_Combiner_t *comb = NULL;
+ CHECK_POINTER(combiner);
+ CHECK_POINTER(param);
+ CHECK_POINTER(param->list);
+ comb = MCalloc(param->list, 1, sizeof(Ucs_Xrm_Combiner_t));
+ CHECK_POINTER(comb);
+ *combiner = comb;
+ comb->most_port_handle = 0x0D00;
+ comb->resource_type = UCS_XRM_RC_TYPE_COMBINER;
+ comb->bytes_per_frame = param->bytesPerFrame;
+ comb->port_socket_obj_ptr = param->outSoc;
+ return true;
+}
+
+bool GetSyncCon(Ucs_Xrm_SyncCon_t **syncCon, struct SyncConParameters *param)
+{
+ Ucs_Xrm_SyncCon_t *con = NULL;
+ CHECK_POINTER(syncCon);
+ CHECK_POINTER(param);
+ CHECK_POINTER(param->list);
+ CHECK_POINTER(param->muteMode);
+ CHECK_POINTER(param->inSoc);
+ CHECK_POINTER(param->outSoc);
+ con = MCalloc(param->list, 1, sizeof(Ucs_Xrm_SyncCon_t));
+ CHECK_POINTER(con);
+ *syncCon = con;
+ con->resource_type = UCS_XRM_RC_TYPE_SYNC_CON;
+ if (0 == strcmp(param->muteMode, MUTE_OFF))
+ con->mute_mode = UCS_SYNC_MUTE_MODE_NO_MUTING;
+ else if (0 == strcmp(param->muteMode, MUTE_SIGNAL))
+ con->mute_mode = UCS_SYNC_MUTE_MODE_MUTE_SIGNAL;
+ else ASSERT_FALSE();
+ if (param->optional_offset)
+ con->offset = (uint16_t)Str2Int(param->optional_offset);
+ else
+ con->offset = 0;
+ con->socket_in_obj_ptr = param->inSoc;
+ con->socket_out_obj_ptr = param->outSoc;
+ return true;
+}
+
+bool GetAvpCon(Ucs_Xrm_AvpCon_t **avpCon, struct AvpConParameters *param)
+{
+ Ucs_Xrm_AvpCon_t *con = NULL;
+ CHECK_POINTER(avpCon);
+ CHECK_POINTER(param);
+ CHECK_POINTER(param->list);
+ CHECK_POINTER(param->inSoc);
+ CHECK_POINTER(param->outSoc);
+ con = MCalloc(param->list, 1, sizeof(Ucs_Xrm_AvpCon_t));
+ CHECK_POINTER(con);
+ *avpCon = con;
+ con->resource_type = UCS_XRM_RC_TYPE_AVP_CON;
+ con->socket_in_obj_ptr = param->inSoc;
+ con->socket_out_obj_ptr = param->outSoc;
+ if (param->optional_isocPacketSize)
+ {
+ int32_t pSize = Str2Int(param->optional_isocPacketSize);
+ switch(pSize)
+ {
+ case 188:
+ con->isoc_packet_size = UCS_ISOC_PCKT_SIZE_188;
+ break;
+ case 196:
+ con->isoc_packet_size = UCS_ISOC_PCKT_SIZE_196;
+ break;
+ case 206:
+ con->isoc_packet_size = UCS_ISOC_PCKT_SIZE_206;
+ break;
+ default:
+ ASSERT_FALSE();
+ }
+ } else {
+ con->isoc_packet_size = UCS_ISOC_PCKT_SIZE_188;
+ }
+ return true;
+} \ No newline at end of file