add tuh_midi_descriptor_cb()
This commit is contained in:
hathach
@@ -661,6 +661,7 @@ typedef struct TU_ATTR_PACKED
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uint16_t wTotalLength ; ///< Total number of bytes returned for the class-specific AudioControl interface descriptor. Includes the combined length of this descriptor header and all Clock Source, Unit and Terminal descriptors.
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uint8_t bmControls ; ///< See: audio_cs_ac_interface_control_pos_t.
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} audio_desc_cs_ac_interface_t;
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TU_VERIFY_STATIC(sizeof(audio_desc_cs_ac_interface_t) == 9, "size is not correct");
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/// AUDIO Clock Source Descriptor (4.7.2.1)
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typedef struct TU_ATTR_PACKED
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@@ -628,10 +628,6 @@ static uint8_t audiod_get_audio_fct_idx(audiod_function_t *audio);
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#if (CFG_TUD_AUDIO_ENABLE_EP_IN && (CFG_TUD_AUDIO_EP_IN_FLOW_CONTROL || CFG_TUD_AUDIO_ENABLE_ENCODING)) || (CFG_TUD_AUDIO_ENABLE_EP_OUT && CFG_TUD_AUDIO_ENABLE_DECODING)
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static void audiod_parse_for_AS_params(audiod_function_t *audio, uint8_t const *p_desc, uint8_t const *p_desc_end, uint8_t const as_itf);
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static inline uint8_t tu_desc_subtype(void const *desc) {
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return ((uint8_t const *) desc)[2];
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}
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#endif
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#if CFG_TUD_AUDIO_ENABLE_EP_IN && CFG_TUD_AUDIO_EP_IN_FLOW_CONTROL
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@@ -150,27 +150,6 @@ typedef midi_desc_out_jack_n_t(1) midi_desc_out_jack_1in_t; // 1 input
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typedef midi_desc_out_jack_1in_t midi_desc_out_jack_t; // backward compatible
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TU_VERIFY_STATIC(sizeof(midi_desc_out_jack_1in_t) == 7 + 2 * 1, "size is not correct");
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/// MIDI Element Descriptor
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typedef struct TU_ATTR_PACKED {
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uint8_t bLength ; ///< Size of this descriptor in bytes.
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uint8_t bDescriptorType ; ///< Descriptor Type, must be Class-Specific
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uint8_t bDescriptorSubType ; ///< Descriptor SubType
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uint8_t bElementID;
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uint8_t bNrInputPins;
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uint8_t baSourceID;
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uint8_t baSourcePin;
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uint8_t bNrOutputPins;
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uint8_t bInTerminalLink;
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uint8_t bOutTerminalLink;
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uint8_t bElCapsSize;
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uint16_t bmElementCaps;
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uint8_t iElement;
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} midi_desc_element_t;
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TU_VERIFY_STATIC(sizeof(midi_desc_element_t) == 14, "size is not correct");
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/// MIDI Element Descriptor with multiple pins
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#define midi_desc_element_n_t(input_num) \
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struct TU_ATTR_PACKED { \
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@@ -194,123 +194,108 @@ bool midih_open(uint8_t rhport, uint8_t dev_addr, tusb_desc_interface_t const *d
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midih_interface_t *p_midi = find_new_midi();
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TU_VERIFY(p_midi != NULL);
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TU_VERIFY(TUSB_CLASS_AUDIO == desc_itf->bInterfaceClass);
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// There can be just a MIDI interface or an audio and a MIDI interface. Only open the MIDI interface
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// There can be just a MIDI or an Audio + MIDI interface
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// const uint8_t* p_start = ((uint8_t const*) desc_itf);
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const uint8_t* p_end = ((uint8_t const*) desc_itf) + max_len;
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uint8_t const *p_desc = (uint8_t const *) desc_itf;
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uint16_t len_parsed = 0;
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if (AUDIO_SUBCLASS_CONTROL == desc_itf->bInterfaceSubClass) {
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// This driver does not support audio streaming. However, if this is the audio control interface
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// there might be a MIDI interface following it. Search through every descriptor until a MIDI
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// interface is found or the end of the descriptor is found
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while (len_parsed < max_len &&
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(desc_itf->bInterfaceClass != TUSB_CLASS_AUDIO || desc_itf->bInterfaceSubClass != AUDIO_SUBCLASS_MIDI_STREAMING)) {
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len_parsed += desc_itf->bLength;
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p_desc = tu_desc_next(p_desc);
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desc_itf = (tusb_desc_interface_t const *)p_desc;
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}
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tuh_midi_descriptor_cb_t desc_cb = { 0 };
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desc_cb.jack_num = 0;
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// If there is Audio Control Interface + Audio Header descriptor, skip it
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if (AUDIO_SUBCLASS_CONTROL == desc_itf->bInterfaceSubClass) {
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TU_VERIFY(max_len > 2*sizeof(tusb_desc_interface_t) + sizeof(audio_desc_cs_ac_interface_t));
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p_desc = tu_desc_next(p_desc);
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TU_VERIFY(tu_desc_type(p_desc) == TUSB_DESC_CS_INTERFACE &&
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tu_desc_subtype(p_desc) == AUDIO_CS_AC_INTERFACE_HEADER);
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p_desc = tu_desc_next(p_desc);
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desc_itf = (tusb_desc_interface_t const *)p_desc;
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TU_VERIFY(TUSB_CLASS_AUDIO == desc_itf->bInterfaceClass);
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}
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TU_VERIFY(AUDIO_SUBCLASS_MIDI_STREAMING == desc_itf->bInterfaceSubClass);
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desc_cb.desc_interface = desc_itf;
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len_parsed += desc_itf->bLength;
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TU_LOG_DRV("MIDI opening Interface %u (addr = %u)\r\n", desc_itf->bInterfaceNumber, dev_addr);
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p_midi->itf_num = desc_itf->bInterfaceNumber;
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// CS Header descriptor
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p_desc = tu_desc_next(p_desc);
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midi_desc_header_t const *p_mdh = (midi_desc_header_t const *) p_desc;
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TU_VERIFY(p_mdh->bDescriptorType == TUSB_DESC_CS_INTERFACE &&
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p_mdh->bDescriptorSubType == MIDI_CS_INTERFACE_HEADER);
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TU_LOG_DRV(" Interface Header descriptor\r\n");
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// p_desc = tu_desc_next(p_desc);
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uint8_t prev_ep_addr = 0; // the CS endpoint descriptor is associated with the previous endpoint descriptor
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tusb_desc_endpoint_t const* in_desc = NULL;
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tusb_desc_endpoint_t const* out_desc = NULL;
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while (len_parsed < max_len) {
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TU_VERIFY((p_mdh->bDescriptorType == TUSB_DESC_CS_INTERFACE) ||
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(p_mdh->bDescriptorType == TUSB_DESC_CS_ENDPOINT && p_mdh->bDescriptorSubType == MIDI_CS_ENDPOINT_GENERAL) ||
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p_mdh->bDescriptorType == TUSB_DESC_ENDPOINT);
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bool found_new_interface = false;
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while ((p_desc < p_end) && (tu_desc_next(p_desc) <= p_end) && !found_new_interface) {
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switch (tu_desc_type(p_desc)) {
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case TUSB_DESC_INTERFACE:
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found_new_interface = true;
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break;
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if (p_mdh->bDescriptorType == TUSB_DESC_CS_INTERFACE) {
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// The USB host doesn't really need this information unless it uses
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// the string descriptor for a jack or Element
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case TUSB_DESC_CS_INTERFACE:
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switch (tu_desc_subtype(p_desc)) {
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case MIDI_CS_INTERFACE_HEADER:
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TU_LOG_DRV(" Interface Header descriptor\r\n");
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desc_cb.desc_header = p_desc;
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break;
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// assume it is an input jack
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midi_desc_in_jack_t const *p_mdij = (midi_desc_in_jack_t const *) p_desc;
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if (p_mdij->bDescriptorSubType == MIDI_CS_INTERFACE_HEADER) {
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TU_LOG_DRV(" Interface Header descriptor\r\n");
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} else if (p_mdij->bDescriptorSubType == MIDI_CS_INTERFACE_IN_JACK) {
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// Then it is an in jack.
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TU_LOG_DRV(" IN Jack %s descriptor \r\n", p_mdij->bJackType == MIDI_JACK_EXTERNAL ? "External" : "Embedded");
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} else if (p_mdij->bDescriptorSubType == MIDI_CS_INTERFACE_OUT_JACK) {
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// then it is an out jack
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TU_LOG_DRV(" OUT Jack %s descriptor\r\n", p_mdij->bJackType == MIDI_JACK_EXTERNAL ? "External" : "Embedded");
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} else if (p_mdij->bDescriptorSubType == MIDI_CS_INTERFACE_ELEMENT) {
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// the it is an element;
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TU_LOG_DRV("Found element\r\n");
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} else {
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TU_LOG_DRV(" Unknown CS Interface sub-type %u\r\n", p_mdij->bDescriptorSubType);
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TU_VERIFY(false);// unknown CS Interface sub-type
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case MIDI_CS_INTERFACE_IN_JACK:
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case MIDI_CS_INTERFACE_OUT_JACK: {
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TU_LOG_DRV(" Jack %s %s descriptor \r\n",
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tu_desc_subtype(p_desc) == MIDI_CS_INTERFACE_IN_JACK ? "IN" : "OUT",
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p_desc[3] == MIDI_JACK_EXTERNAL ? "External" : "Embedded");
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desc_cb.desc_jack[desc_cb.jack_num++] = p_desc;
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break;
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}
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case MIDI_CS_INTERFACE_ELEMENT:
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TU_LOG_DRV(" Element descriptor\r\n");
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desc_cb.desc_element = p_desc;
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break;
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default:
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TU_LOG_DRV(" Unknown CS Interface sub-type %u\r\n", tu_desc_subtype(p_desc));
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break;
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}
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break;
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case TUSB_DESC_ENDPOINT: {
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tusb_desc_endpoint_t const *p_ep = (tusb_desc_endpoint_t const *) p_desc;
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p_desc = tu_desc_next(p_desc); // next to CS endpoint
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TU_VERIFY(p_desc < p_end && tu_desc_next(p_desc) <= p_end);
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midi_desc_cs_endpoint_t const *p_csep = (midi_desc_cs_endpoint_t const *) p_desc;
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TU_LOG_DRV(" Endpoint and CS_Endpoint descriptor %02x\r\n", p_ep->bEndpointAddress);
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if (tu_edpt_dir(p_ep->bEndpointAddress) == TUSB_DIR_OUT) {
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p_midi->ep_out = p_ep->bEndpointAddress;
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p_midi->num_cables_tx = p_csep->bNumEmbMIDIJack;
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desc_cb.desc_epout = p_ep;
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TU_ASSERT(tuh_edpt_open(dev_addr, p_ep));
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tu_edpt_stream_open(&p_midi->ep_stream.tx, p_ep);
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} else {
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p_midi->ep_in = p_ep->bEndpointAddress;
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p_midi->num_cables_rx = p_csep->bNumEmbMIDIJack;
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desc_cb.desc_epin = p_ep;
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TU_ASSERT(tuh_edpt_open(dev_addr, p_ep));
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tu_edpt_stream_open(&p_midi->ep_stream.rx, p_ep);
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}
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break;
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}
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len_parsed += p_mdij->bLength;
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} else if (p_mdh->bDescriptorType == TUSB_DESC_CS_ENDPOINT) {
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TU_LOG_DRV(" CS_ENDPOINT descriptor\r\n");
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TU_VERIFY(prev_ep_addr != 0);
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// parse out the mapping between the device's embedded jacks and the endpoints
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// Each embedded IN jack is associated with an OUT endpoint
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midi_desc_cs_endpoint_t const *p_csep = (midi_desc_cs_endpoint_t const *) p_mdh;
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if (tu_edpt_dir(prev_ep_addr) == TUSB_DIR_OUT) {
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TU_VERIFY(p_midi->ep_out == prev_ep_addr);
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TU_VERIFY(p_midi->num_cables_tx == 0);
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p_midi->num_cables_tx = p_csep->bNumEmbMIDIJack;
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} else {
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TU_VERIFY(p_midi->ep_in == prev_ep_addr);
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TU_VERIFY(p_midi->num_cables_rx == 0);
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p_midi->num_cables_rx = p_csep->bNumEmbMIDIJack;
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}
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len_parsed += p_csep->bLength;
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prev_ep_addr = 0;
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} else if (p_mdh->bDescriptorType == TUSB_DESC_ENDPOINT) {
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// parse out the bulk endpoint info
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tusb_desc_endpoint_t const *p_ep = (tusb_desc_endpoint_t const *) p_mdh;
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TU_LOG_DRV(" Endpoint descriptor %02x\r\n", p_ep->bEndpointAddress);
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if (tu_edpt_dir(p_ep->bEndpointAddress) == TUSB_DIR_OUT) {
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TU_VERIFY(p_midi->ep_out == 0);
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TU_VERIFY(p_midi->num_cables_tx == 0);
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p_midi->ep_out = p_ep->bEndpointAddress;
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prev_ep_addr = p_midi->ep_out;
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out_desc = p_ep;
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} else {
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TU_VERIFY(p_midi->ep_in == 0);
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TU_VERIFY(p_midi->num_cables_rx == 0);
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p_midi->ep_in = p_ep->bEndpointAddress;
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prev_ep_addr = p_midi->ep_in;
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in_desc = p_ep;
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}
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len_parsed += p_mdh->bLength;
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default: break; // skip unknown descriptor
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}
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p_desc = tu_desc_next(p_desc);
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p_mdh = (midi_desc_header_t const *) p_desc;
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}
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TU_VERIFY((p_midi->ep_out != 0 && p_midi->num_cables_tx != 0) ||
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(p_midi->ep_in != 0 && p_midi->num_cables_rx != 0));
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desc_cb.desc_interface_len = (uint16_t) ((uintptr_t)p_desc - (uintptr_t) desc_itf);
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if (in_desc) {
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TU_ASSERT(tuh_edpt_open(dev_addr, in_desc));
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tu_edpt_stream_open(&p_midi->ep_stream.rx, in_desc);
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}
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if (out_desc) {
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TU_ASSERT(tuh_edpt_open(dev_addr, out_desc));
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tu_edpt_stream_open(&p_midi->ep_stream.tx, out_desc);
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}
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p_midi->dev_addr = dev_addr;
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// if (tuh_midi_interface_descriptor_cb) {
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// tuh_midi_interface_descriptor_cb(dev_addr, desc_itf, );
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// }
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if (tuh_midi_descriptor_cb) {
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tuh_midi_descriptor_cb(dev_addr, &desc_cb);
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}
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return true;
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}
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@@ -62,6 +62,18 @@
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//--------------------------------------------------------------------+
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// Application API
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//--------------------------------------------------------------------+
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typedef struct {
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const tusb_desc_interface_t* desc_interface; // start of whole midi interface descriptor
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uint16_t desc_interface_len;
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const uint8_t* desc_header;
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const uint8_t* desc_element;
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const tusb_desc_endpoint_t* desc_epin; // endpoint IN descriptor, CS_ENDPOINT is right after
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const tusb_desc_endpoint_t* desc_epout; // endpoint OUT descriptor, CS_ENDPOINT is right after
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uint8_t jack_num;
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const uint8_t* desc_jack[16]; // list of jack descriptors (embedded + external)
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} tuh_midi_descriptor_cb_t;
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// Check if MIDI interface is mounted
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bool tuh_midi_mounted(uint8_t dev_addr);
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@@ -134,7 +146,7 @@ uint32_t tuh_midi_stream_read (uint8_t dev_addr, uint8_t *p_cable_num, uint8_t *
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// Invoked when MIDI interface is detected in enumeration. Application can copy/parse descriptor if needed.
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// Note: may be fired before tuh_midi_mount_cb(), therefore midi interface is not mounted/ready.
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// TU_ATTR_WEAK void tuh_midi_interface_descriptor_cb(uint8_t dev_addr, const uint8_t* desc_itf, uint16_t desc_len);
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TU_ATTR_WEAK void tuh_midi_descriptor_cb(uint8_t dev_addr, tuh_midi_descriptor_cb_t const* desc_cb);
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// Invoked when device with MIDI interface is mounted.
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TU_ATTR_WEAK void tuh_midi_mount_cb(uint8_t dev_addr, uint8_t num_cables_rx, uint16_t num_cables_tx);
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@@ -281,7 +281,8 @@ typedef enum {
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// TODO remove
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enum {
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DESC_OFFSET_LEN = 0,
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DESC_OFFSET_TYPE = 1
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DESC_OFFSET_TYPE = 1,
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DESC_OFFSET_SUBTYPE = 2
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};
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enum {
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@@ -570,14 +571,19 @@ TU_ATTR_ALWAYS_INLINE static inline uint8_t const * tu_desc_next(void const* des
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return desc8 + desc8[DESC_OFFSET_LEN];
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}
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// get descriptor length
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TU_ATTR_ALWAYS_INLINE static inline uint8_t tu_desc_len(void const* desc) {
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return ((uint8_t const*) desc)[DESC_OFFSET_LEN];
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}
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// get descriptor type
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TU_ATTR_ALWAYS_INLINE static inline uint8_t tu_desc_type(void const* desc) {
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return ((uint8_t const*) desc)[DESC_OFFSET_TYPE];
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}
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// get descriptor length
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TU_ATTR_ALWAYS_INLINE static inline uint8_t tu_desc_len(void const* desc) {
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return ((uint8_t const*) desc)[DESC_OFFSET_LEN];
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// get descriptor subtype
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TU_ATTR_ALWAYS_INLINE static inline uint8_t tu_desc_subtype(void const* desc) {
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return ((uint8_t const*) desc)[DESC_OFFSET_SUBTYPE];
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}
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// find descriptor that match byte1 (type)
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12
src/tusb.c
12
src/tusb.c
@@ -142,7 +142,9 @@ void tusb_int_handler(uint8_t rhport, bool in_isr) {
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uint8_t const* tu_desc_find(uint8_t const* desc, uint8_t const* end, uint8_t byte1) {
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while (desc + 1 < end) {
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if (desc[1] == byte1) return desc;
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if (desc[1] == byte1) {
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return desc;
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}
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desc += desc[DESC_OFFSET_LEN];
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}
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return NULL;
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@@ -150,7 +152,9 @@ uint8_t const* tu_desc_find(uint8_t const* desc, uint8_t const* end, uint8_t byt
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uint8_t const* tu_desc_find2(uint8_t const* desc, uint8_t const* end, uint8_t byte1, uint8_t byte2) {
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while (desc + 2 < end) {
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if (desc[1] == byte1 && desc[2] == byte2) return desc;
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if (desc[1] == byte1 && desc[2] == byte2) {
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return desc;
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}
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desc += desc[DESC_OFFSET_LEN];
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}
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return NULL;
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@@ -158,7 +162,9 @@ uint8_t const* tu_desc_find2(uint8_t const* desc, uint8_t const* end, uint8_t by
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uint8_t const* tu_desc_find3(uint8_t const* desc, uint8_t const* end, uint8_t byte1, uint8_t byte2, uint8_t byte3) {
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while (desc + 3 < end) {
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if (desc[1] == byte1 && desc[2] == byte2 && desc[3] == byte3) return desc;
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if (desc[1] == byte1 && desc[2] == byte2 && desc[3] == byte3) {
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return desc;
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}
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desc += desc[DESC_OFFSET_LEN];
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}
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return NULL;
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