2023-04-22 23:17:55 +00:00
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#include "usbd_core.h"
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#include "usbd_cdc.h"
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/*!< endpoint address */
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2023-04-28 20:25:48 +00:00
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/* Transmissions Device->Host (otherwise known as "IN" in these constants */
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/* Need to be >= 0x80 to be considered a transmission. See */
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/* https://github.com/sakumisu/CherryUSB/blob/d7c0add7ef58cfa711cf152c088a7e1c65fa5886/core/usbd_core.c#L1230 */
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/*
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* Endpoint Address
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* Bits 0..3b Endpoint Number.
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* Bits 4..6b Reserved. Set to Zero
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* Bits 7 Direction 0 = Out, 1 = In (Ignored for Control Endpoints)
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*
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* So, each endpoint needs to have a unique number in 0..3, so a total of 16
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* endpoints. Bit 7 is directional. So 0x00-0x0F is outbound, and 0x80-0x8f is
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* inbound, and everything must be unique in the last nibble. At least that is
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* my understanding at this point.
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*/
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#define CDC_IN_EP 0x81
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#define CDC_OUT_EP 0x02
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#define CDC_INT_EP 0x85
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#define CDC_IN_DBG_EP 0x83
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#define CDC_OUT_DBG_EP 0x04
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#define CDC_INT_DBG_EP 0x86
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2023-04-28 20:25:48 +00:00
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#define USBD_VID 0x10B0 /* Vendor Id */
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#define USBD_PID 0xDEAD /* Product Id */
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#define USBD_MAX_POWER 100
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#define USBD_LANGID_STRING 1033 /* US English */
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/*!< config descriptor size */
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#define USB_CONFIG_SIZE (9 + CDC_ACM_DESCRIPTOR_LEN * 2)
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/* USB Device descriptors. If you don't know what you're doing, read this
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* first: https://beyondlogic.org/usbnutshell/usb5.shtml
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*
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* We have one and only one Device Descriptor that describes the physical device
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* But what linux is calling a "device" has nothing to do with that. I believe
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* this varies by the type of USB device. For USB CDC ACM, we are looking at
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* each "Interface association" as its own Linux device (as determined by
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* /dev/ttyACMx).
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*
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* From Device Descriptor, we'll have any number of "configurations", which
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* typically describes different power profiles, etc. Typically there is only
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* one configuration, but it doesn't need to be that way.
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*
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* Within the configuraiton, we have various interfaces. Using the macro
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* CDC_ACM_DESCRIPTOR_INIT provided by CherryUSB will provide us with:
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*
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* * Interface Association to describe two interfaces ("in" and "out")
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* * Interface for outbound traffic
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* * Interface for inbound traffic
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*
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* I believe that the CDC_INT_* constants above refer to the interface association
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*
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* To actually communicate, we need to setup endpoints, which are associated
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* with the interfaces above. So the full heirarchy is:
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*
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* Device -1:n- Configuration -1:n- Interface -1:n- Endpoint
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*
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* Where for typical, CDC ACM usage is:
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*
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* Device -1:1- Configuration -1:n- Interface (2 per what Linux calls device) -1:1- Endpoint
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*
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*/
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2023-04-22 23:17:55 +00:00
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/*!< global descriptor */
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static const uint8_t cdc_descriptor[] = {
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USB_DEVICE_DESCRIPTOR_INIT(USB_2_0, 0xEF, 0x02, 0x01, USBD_VID, USBD_PID, 0x0100, 0x01),
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USB_CONFIG_DESCRIPTOR_INIT(USB_CONFIG_SIZE, 0x04, 0x01, USB_CONFIG_BUS_POWERED, USBD_MAX_POWER),
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/* ^ - Number of interfaces. We need a seperate in and out channel for each virtual */
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/* So for each /dev/ttyACMx, add 2 to this number */
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/* */
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/* The last paramater is the string index for this interface. Linux does not */
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/* seem to report that anywhere, but maybe Windows does? */
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CDC_ACM_DESCRIPTOR_INIT(0x00, CDC_INT_EP, CDC_OUT_EP, CDC_IN_EP, 0x02),
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CDC_ACM_DESCRIPTOR_INIT(0x02, CDC_INT_DBG_EP, CDC_OUT_DBG_EP, CDC_IN_DBG_EP, 0x02),
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///////////////////////////////////////
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/// string0 descriptor
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///////////////////////////////////////
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USB_LANGID_INIT(USBD_LANGID_STRING),
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///////////////////////////////////////
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/// string1 descriptor
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///////////////////////////////////////
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0x16, /* bLength */
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USB_DESCRIPTOR_TYPE_STRING, /* bDescriptorType */
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'E', 0x00, /* wcChar0 */
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'm', 0x00, /* wcChar1 */
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'i', 0x00, /* wcChar2 */
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'l', 0x00, /* wcChar3 */
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' ', 0x00, /* wcChar4 */
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'L', 0x00, /* wcChar5 */
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'e', 0x00, /* wcChar6 */
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'r', 0x00, /* wcChar7 */
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'c', 0x00, /* wcChar8 */
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'h', 0x00, /* wcChar9 */
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///////////////////////////////////////
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/// string2 descriptor
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///////////////////////////////////////
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0x22, /* bLength */
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USB_DESCRIPTOR_TYPE_STRING, /* bDescriptorType */
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'B', 0x00, /* wcChar0 */
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'L', 0x00, /* wcChar1 */
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'6', 0x00, /* wcChar2 */
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'1', 0x00, /* wcChar3 */
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'6', 0x00, /* wcChar4 */
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' ', 0x00, /* wcChar5 */
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'B', 0x00, /* wcChar6 */
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'a', 0x00, /* wcChar7 */
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'r', 0x00, /* wcChar8 */
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'e', 0x00, /* wcChar9 */
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' ', 0x00, /* wcChar10 */
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'M', 0x00, /* wcChar11 */
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'e', 0x00, /* wcChar12 */
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't', 0x00, /* wcChar13 */
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'a', 0x00, /* wcChar14 */
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'l', 0x00, /* wcChar15 */
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///////////////////////////////////////
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/// string3 descriptor
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///////////////////////////////////////
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0x16, /* bLength */
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USB_DESCRIPTOR_TYPE_STRING, /* bDescriptorType */
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'2', 0x00, /* wcChar0 */
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'0', 0x00, /* wcChar1 */
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'2', 0x00, /* wcChar2 */
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'3', 0x00, /* wcChar3 */
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'-', 0x00, /* wcChar4 */
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'0', 0x00, /* wcChar5 */
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'4', 0x00, /* wcChar6 */
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'-', 0x00, /* wcChar7 */
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'1', 0x00, /* wcChar8 */
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'9', 0x00, /* wcChar9 */
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///////////////////////////////////////
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/// string4 descriptor
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///////////////////////////////////////
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0x14, /* bLength */
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USB_DESCRIPTOR_TYPE_STRING, /* bDescriptorType */
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'D', 0x00, /* wcChar0 */
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'E', 0x00, /* wcChar1 */
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'B', 0x00, /* wcChar2 */
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'U', 0x00, /* wcChar3 */
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'G', 0x00, /* wcChar4 */
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' ', 0x00, /* wcChar5 */
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'L', 0x00, /* wcChar6 */
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'O', 0x00, /* wcChar7 */
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'G', 0x00, /* wcChar8 */
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#ifdef CONFIG_USB_HS
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///////////////////////////////////////
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/// device qualifier descriptor
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///////////////////////////////////////
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0x0a,
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USB_DESCRIPTOR_TYPE_DEVICE_QUALIFIER,
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0x00,
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0x02,
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0x02,
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0x02,
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0x01,
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0x40,
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0x01,
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0x00,
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#endif
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0x00
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};
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USB_NOCACHE_RAM_SECTION USB_MEM_ALIGNX uint8_t read_buffer[2048];
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USB_NOCACHE_RAM_SECTION USB_MEM_ALIGNX uint8_t write_buffer[2048];
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USB_NOCACHE_RAM_SECTION USB_MEM_ALIGNX uint8_t debug_buffer[2048];
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volatile bool ep_tx_busy_flag = false;
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volatile bool ep_dbg_tx_busy_flag = false;
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// TODO: Remove these. Debugging only
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volatile uint8_t debug_val_1 = 0;
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volatile uint8_t debug_val_2 = 0;
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volatile uint32_t debug_val32_1 = 0;
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volatile uint32_t debug_val32_2 = 0;
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#ifdef CONFIG_USB_HS
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#define CDC_MAX_MPS 512
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#else
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#define CDC_MAX_MPS 64
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#endif
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void usbd_configure_done_callback(void)
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{
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/* setup first out ep read transfer */
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usbd_ep_start_read(CDC_OUT_EP, read_buffer, 2048);
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usbd_ep_start_read(CDC_OUT_DBG_EP, read_buffer, 2048);
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}
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void usbd_cdc_acm_bulk_out(uint8_t ep, uint32_t nbytes)
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{
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//4, 5 (shouldn't we be getting endpoint 2 here?)
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debug_val_1 = ep; debug_val32_1 = nbytes;
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USB_LOG_RAW("actual out len:%d\r\n", nbytes);
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/* setup next out ep read transfer */
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usbd_ep_start_read(ep, read_buffer, 2048);
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}
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void usbd_cdc_acm_bulk_in(uint8_t ep, uint32_t nbytes)
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{
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//129, 14 (129=0x81=CDC_IN_EP)
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debug_val_2 = ep; debug_val32_2 = nbytes;
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USB_LOG_RAW("actual in len:%d\r\n", nbytes);
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if ((nbytes % CDC_MAX_MPS) == 0 && nbytes) {
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/* send zlp */
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usbd_ep_start_write(ep, NULL, 0);
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} else {
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if (ep == CDC_IN_EP) {
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ep_tx_busy_flag = false;
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}else{
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ep_dbg_tx_busy_flag = false;
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}
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}
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}
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/*!< endpoint call back */
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struct usbd_endpoint cdc_out_ep = {
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.ep_addr = CDC_OUT_EP,
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.ep_cb = usbd_cdc_acm_bulk_out
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};
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struct usbd_endpoint cdc_in_ep = {
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.ep_addr = CDC_IN_EP,
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.ep_cb = usbd_cdc_acm_bulk_in
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};
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struct usbd_interface intf0;
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struct usbd_interface intf1;
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struct usbd_endpoint cdc_out_dbg_ep = {
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.ep_addr = CDC_OUT_DBG_EP,
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.ep_cb = usbd_cdc_acm_bulk_out
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};
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struct usbd_endpoint cdc_in_dbg_ep = {
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.ep_addr = CDC_IN_DBG_EP,
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.ep_cb = usbd_cdc_acm_bulk_in
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};
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struct usbd_interface intf2;
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struct usbd_interface intf3;
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/* function ------------------------------------------------------------------*/
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void cdc_acm_init(void)
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{
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usbd_desc_register(cdc_descriptor);
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/* Add primary comms channel */
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usbd_add_interface(usbd_cdc_acm_init_intf(&intf0));
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usbd_add_interface(usbd_cdc_acm_init_intf(&intf1));
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usbd_add_endpoint(&cdc_out_ep);
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usbd_add_endpoint(&cdc_in_ep);
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/* Add debug log comms channel */
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usbd_add_interface(usbd_cdc_acm_init_intf(&intf2));
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usbd_add_interface(usbd_cdc_acm_init_intf(&intf3));
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usbd_add_endpoint(&cdc_out_dbg_ep);
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usbd_add_endpoint(&cdc_in_dbg_ep);
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usbd_initialize();
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}
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volatile uint8_t dtr_enable = 0;
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volatile uint8_t dtr_debug_enable = 0;
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/************************************************
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* Callback function from the host based on
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* control flow commands
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*/
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void usbd_cdc_acm_set_dtr(uint8_t intf, bool dtr)
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{
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/* Based on above init, intf = 0 is normal, intf = 2 is debug */
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if (dtr) {
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if (intf == 0) {
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dtr_enable = 1;
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} else {
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dtr_debug_enable = 1;
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}
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} else {
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if (intf == 0) {
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dtr_enable = 0;
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} else {
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dtr_debug_enable = 0;
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}
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}
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}
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void cdc_acm_data_send_with_dtr(const uint8_t *data, uint32_t data_len )
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{
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if (dtr_enable) {
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ep_tx_busy_flag = true;
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usbd_ep_start_write(CDC_IN_EP, data, data_len);
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while (ep_tx_busy_flag) {
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}
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}
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}
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void cdc_acm_log_with_dtr(const uint8_t *data, uint32_t data_len )
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2023-04-22 23:17:55 +00:00
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{
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2023-04-28 20:25:48 +00:00
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if (dtr_debug_enable) {
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ep_dbg_tx_busy_flag = true;
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usbd_ep_start_write(CDC_IN_DBG_EP, data, data_len);
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while (ep_dbg_tx_busy_flag) {
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2023-04-22 23:17:55 +00:00
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}
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2023-04-28 20:25:48 +00:00
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}
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}
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uint32_t out_inx = 0;
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void log(const char *data){
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/* memcpy(&write_buffer[0], data, strlen(data)); */
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/* write_buffer[9] = 0x30 + debug_val_1; */
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/* write_buffer[20] = 0x30 + debug_val_2; */
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int len = snprintf(
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(char *)&write_buffer[0],
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2048,
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"%d\r\ndebug u8 val 1: %d, debug val u8 2: %d\r\ndebug 32 val 1: %d, debug 32 val 2: %d\r\nsending to debug...\r\n",
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out_inx++,
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debug_val_1,
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debug_val_2,
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debug_val32_1,
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debug_val32_2
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);
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cdc_acm_data_send_with_dtr(&write_buffer[0], len);
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int dbg_len = snprintf(
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(char *)&debug_buffer[0],
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2048,
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"%d\r\ndebug u8 val 1: %d, debug val u8 2: %d\r\ndebug 32 val 1: %d, debug 32 val 2: %d\r\n(debug log)\r\n",
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out_inx,
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debug_val_1,
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debug_val_2,
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debug_val32_1,
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debug_val32_2
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);
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cdc_acm_log_with_dtr(&debug_buffer[0], dbg_len);
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2023-04-22 23:17:55 +00:00
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}
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