Merge pull request #675 from majbthrd/rp2040epaddr
rp2040: use TU endpoint conventions and remove redundant variables
This commit is contained in:
Ha Thach
GitHub
commit
5a753c1ab0
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@ -48,20 +48,21 @@
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// Init these in dcd_init
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static uint8_t *next_buffer_ptr;
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// USB_MAX_ENDPOINTS Endpoints, direction 0 for out and 1 for in.
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// USB_MAX_ENDPOINTS Endpoints, direction TUSB_DIR_OUT for out and TUSB_DIR_IN for in.
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static struct hw_endpoint hw_endpoints[USB_MAX_ENDPOINTS][2] = {0};
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static inline struct hw_endpoint *hw_endpoint_get_by_num(uint8_t num, uint8_t in)
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static inline struct hw_endpoint *hw_endpoint_get_by_num(uint8_t num, tusb_dir_t dir)
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{
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return &hw_endpoints[num][in];
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return &hw_endpoints[num][dir];
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}
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static struct hw_endpoint *hw_endpoint_get_by_addr(uint8_t ep_addr)
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{
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uint8_t num = tu_edpt_number(ep_addr);
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uint8_t in = (ep_addr & TUSB_DIR_IN_MASK) ? 1 : 0;
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return hw_endpoint_get_by_num(num, in);
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tusb_dir_t dir = tu_edpt_dir(ep_addr);
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return hw_endpoint_get_by_num(num, dir);
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}
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static void _hw_endpoint_alloc(struct hw_endpoint *ep)
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{
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uint16_t size = tu_min16(64, ep->wMaxPacketSize);
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@ -101,13 +102,11 @@ static void _hw_endpoint_alloc(struct hw_endpoint *ep)
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static void _hw_endpoint_init(struct hw_endpoint *ep, uint8_t ep_addr, uint16_t wMaxPacketSize, uint8_t transfer_type)
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{
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uint8_t num = tu_edpt_number(ep_addr);
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bool in = ep_addr & TUSB_DIR_IN_MASK;
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const uint8_t num = tu_edpt_number(ep_addr);
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const tusb_dir_t dir = tu_edpt_dir(ep_addr);
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ep->ep_addr = ep_addr;
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ep->in = in;
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// For device, IN is a tx transfer and OUT is an rx transfer
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ep->rx = in == false;
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ep->num = num;
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ep->rx = (dir == TUSB_DIR_OUT);
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// Response to a setup packet on EP0 starts with pid of 1
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ep->next_pid = num == 0 ? 1u : 0u;
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@ -131,7 +130,7 @@ static void _hw_endpoint_init(struct hw_endpoint *ep, uint8_t ep_addr, uint16_t
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ep->transfer_type = transfer_type;
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// Every endpoint has a buffer control register in dpram
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if (ep->in)
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if (dir == TUSB_DIR_IN)
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{
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ep->buffer_control = &usb_dpram->ep_buf_ctrl[num].in;
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}
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@ -143,7 +142,7 @@ static void _hw_endpoint_init(struct hw_endpoint *ep, uint8_t ep_addr, uint16_t
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// Clear existing buffer control state
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*ep->buffer_control = 0;
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if (ep->num == 0)
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if (num == 0)
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{
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// EP0 has no endpoint control register because
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// the buffer offsets are fixed
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@ -155,7 +154,7 @@ static void _hw_endpoint_init(struct hw_endpoint *ep, uint8_t ep_addr, uint16_t
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else
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{
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// Set the endpoint control register (starts at EP1, hence num-1)
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if (in)
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if (dir == TUSB_DIR_IN)
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{
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ep->endpoint_control = &usb_dpram->ep_ctrl[num-1].in;
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}
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@ -259,10 +258,10 @@ static void ep0_0len_status(void)
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static void _hw_endpoint_stall(struct hw_endpoint *ep)
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{
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assert(!ep->stalled);
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if (ep->num == 0)
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if (tu_edpt_number(ep->ep_addr) == 0)
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{
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// A stall on EP0 has to be armed so it can be cleared on the next setup packet
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usb_hw_set->ep_stall_arm = ep->in ? USB_EP_STALL_ARM_EP0_IN_BITS : USB_EP_STALL_ARM_EP0_OUT_BITS;
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usb_hw_set->ep_stall_arm = (tu_edpt_dir(ep->ep_addr) == TUSB_DIR_IN) ? USB_EP_STALL_ARM_EP0_IN_BITS : USB_EP_STALL_ARM_EP0_OUT_BITS;
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}
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_hw_endpoint_buffer_control_set_mask32(ep, USB_BUF_CTRL_STALL);
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ep->stalled = true;
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@ -276,10 +275,10 @@ static void hw_endpoint_stall(uint8_t ep_addr)
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static void _hw_endpoint_clear_stall(struct hw_endpoint *ep)
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{
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if (ep->num == 0)
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if (tu_edpt_number(ep->ep_addr) == 0)
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{
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// Probably already been cleared but no harm
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usb_hw_clear->ep_stall_arm = ep->in ? USB_EP_STALL_ARM_EP0_IN_BITS : USB_EP_STALL_ARM_EP0_OUT_BITS;
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usb_hw_clear->ep_stall_arm = (tu_edpt_dir(ep->ep_addr) == TUSB_DIR_IN) ? USB_EP_STALL_ARM_EP0_IN_BITS : USB_EP_STALL_ARM_EP0_OUT_BITS;
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}
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_hw_endpoint_buffer_control_clear_mask32(ep, USB_BUF_CTRL_STALL);
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ep->stalled = false;
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@ -87,7 +87,7 @@ void _hw_endpoint_buffer_control_update32(struct hw_endpoint *ep, uint32_t and_m
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value |= or_mask;
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if (or_mask & USB_BUF_CTRL_AVAIL) {
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if (*ep->buffer_control & USB_BUF_CTRL_AVAIL) {
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panic("ep %d %s was already available", ep->num, ep_dir_string[ep->in]);
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panic("ep %d %s was already available", tu_edpt_number(ep->ep_addr), ep_dir_string[tu_edpt_dir(ep->ep_addr)]);
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}
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*ep->buffer_control = value & ~USB_BUF_CTRL_AVAIL;
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// 12 cycle delay.. (should be good for 48*12Mhz = 576Mhz)
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@ -146,11 +146,11 @@ void _hw_endpoint_start_next_buffer(struct hw_endpoint *ep)
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void _hw_endpoint_xfer_start(struct hw_endpoint *ep, uint8_t *buffer, uint16_t total_len)
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{
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_hw_endpoint_lock_update(ep, 1);
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pico_trace("Start transfer of total len %d on ep %d %s\n", total_len, ep->num, ep_dir_string[ep->in]);
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pico_trace("Start transfer of total len %d on ep %d %s\n", total_len, tu_edpt_number(ep->ep_addr), ep_dir_string[tu_edpt_dir(ep->ep_addr)]);
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if (ep->active)
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{
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// TODO: Is this acceptable for interrupt packets?
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pico_warn("WARN: starting new transfer on already active ep %d %s\n", ep->num, ep_dir_string[ep->in]);
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pico_warn("WARN: starting new transfer on already active ep %d %s\n", tu_edpt_number(ep->ep_addr), ep_dir_string[tu_edpt_dir(ep->ep_addr)]);
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hw_endpoint_reset_transfer(ep);
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}
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@ -230,7 +230,7 @@ bool _hw_endpoint_xfer_continue(struct hw_endpoint *ep)
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// Part way through a transfer
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if (!ep->active)
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{
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panic("Can't continue xfer on inactive ep %d %s", ep->num, ep_dir_string);
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panic("Can't continue xfer on inactive ep %d %s", tu_edpt_number(ep->ep_addr), ep_dir_string);
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}
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// Update EP struct from hardware state
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@ -253,7 +253,7 @@ bool _hw_endpoint_xfer_continue(struct hw_endpoint *ep)
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if (ep->len == ep->total_len)
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{
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pico_trace("Completed transfer of %d bytes on ep %d %s\n",
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ep->len, ep->num, ep_dir_string[ep->in]);
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ep->len, tu_edpt_number(ep->ep_addr), ep_dir_string[tu_edpt_dir(ep->ep_addr)]);
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// Notify caller we are done so it can notify the tinyusb
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// stack
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_hw_endpoint_lock_update(ep, -1);
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@ -272,7 +272,7 @@ bool _hw_endpoint_xfer_continue(struct hw_endpoint *ep)
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void _hw_endpoint_xfer(struct hw_endpoint *ep, uint8_t *buffer, uint16_t total_len, bool start)
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{
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// Trace
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pico_trace("hw_endpoint_xfer ep %d %s", ep->num, ep_dir_string[ep->in]);
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pico_trace("hw_endpoint_xfer ep %d %s", tu_edpt_number(ep->ep_addr), ep_dir_string[tu_edpt_dir(ep->ep_addr)]);
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pico_trace(" total_len %d, start=%d\n", total_len, start);
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assert(ep->configured);
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@ -42,10 +42,6 @@ struct hw_endpoint
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{
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// Is this a valid struct
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bool configured;
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// EP direction
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bool in;
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// EP num (not including direction)
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uint8_t num;
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// Transfer direction (i.e. IN is rx for host but tx for device)
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// allows us to common up transfer functions
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