Sean Cross
3d6acaf51e
Now that we have SPI and USB both working, we can start to close the loop and get DFU working. Signed-off-by: Sean Cross <sean@xobs.io>
447 lines
14 KiB
C
447 lines
14 KiB
C
#ifndef __GENERATED_CSR_H
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#define __GENERATED_CSR_H
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#include <stdint.h>
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#ifdef CSR_ACCESSORS_DEFINED
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extern void csr_writeb(uint8_t value, uint32_t addr);
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extern uint8_t csr_readb(uint32_t addr);
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extern void csr_writew(uint16_t value, uint32_t addr);
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extern uint16_t csr_readw(uint32_t addr);
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extern void csr_writel(uint32_t value, uint32_t addr);
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extern uint32_t csr_readl(uint32_t addr);
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#else /* ! CSR_ACCESSORS_DEFINED */
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#include <hw/common.h>
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#endif /* ! CSR_ACCESSORS_DEFINED */
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/* ctrl */
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#define CSR_CTRL_BASE 0xe0000000
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#define CSR_CTRL_RESET_ADDR 0xe0000000
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#define CSR_CTRL_RESET_SIZE 1
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static inline unsigned char ctrl_reset_read(void) {
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unsigned char r = csr_readl(0xe0000000);
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return r;
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}
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static inline void ctrl_reset_write(unsigned char value) {
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csr_writel(value, 0xe0000000);
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}
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#define CSR_CTRL_SCRATCH_ADDR 0xe0000004
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#define CSR_CTRL_SCRATCH_SIZE 4
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static inline unsigned int ctrl_scratch_read(void) {
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unsigned int r = csr_readl(0xe0000004);
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r <<= 8;
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r |= csr_readl(0xe0000008);
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r <<= 8;
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r |= csr_readl(0xe000000c);
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r <<= 8;
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r |= csr_readl(0xe0000010);
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return r;
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}
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static inline void ctrl_scratch_write(unsigned int value) {
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csr_writel(value >> 24, 0xe0000004);
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csr_writel(value >> 16, 0xe0000008);
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csr_writel(value >> 8, 0xe000000c);
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csr_writel(value, 0xe0000010);
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}
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#define CSR_CTRL_BUS_ERRORS_ADDR 0xe0000014
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#define CSR_CTRL_BUS_ERRORS_SIZE 4
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static inline unsigned int ctrl_bus_errors_read(void) {
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unsigned int r = csr_readl(0xe0000014);
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r <<= 8;
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r |= csr_readl(0xe0000018);
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r <<= 8;
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r |= csr_readl(0xe000001c);
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r <<= 8;
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r |= csr_readl(0xe0000020);
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return r;
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}
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/* picospi */
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#define CSR_PICOSPI_BASE 0xe0005000
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#define CSR_PICOSPI_DO_ADDR 0xe0005000
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#define CSR_PICOSPI_DO_SIZE 1
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static inline unsigned char picospi_do_read(void) {
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unsigned char r = csr_readl(0xe0005000);
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return r;
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}
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static inline void picospi_do_write(unsigned char value) {
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csr_writel(value, 0xe0005000);
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}
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#define CSR_PICOSPI_OE_ADDR 0xe0005004
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#define CSR_PICOSPI_OE_SIZE 1
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static inline unsigned char picospi_oe_read(void) {
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unsigned char r = csr_readl(0xe0005004);
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return r;
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}
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static inline void picospi_oe_write(unsigned char value) {
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csr_writel(value, 0xe0005004);
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}
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#define CSR_PICOSPI_DI_ADDR 0xe0005008
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#define CSR_PICOSPI_DI_SIZE 1
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static inline unsigned char picospi_di_read(void) {
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unsigned char r = csr_readl(0xe0005008);
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return r;
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}
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/* timer0 */
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#define CSR_TIMER0_BASE 0xe0002800
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#define CSR_TIMER0_LOAD_ADDR 0xe0002800
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#define CSR_TIMER0_LOAD_SIZE 4
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static inline unsigned int timer0_load_read(void) {
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unsigned int r = csr_readl(0xe0002800);
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r <<= 8;
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r |= csr_readl(0xe0002804);
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r <<= 8;
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r |= csr_readl(0xe0002808);
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r <<= 8;
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r |= csr_readl(0xe000280c);
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return r;
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}
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static inline void timer0_load_write(unsigned int value) {
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csr_writel(value >> 24, 0xe0002800);
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csr_writel(value >> 16, 0xe0002804);
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csr_writel(value >> 8, 0xe0002808);
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csr_writel(value, 0xe000280c);
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}
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#define CSR_TIMER0_RELOAD_ADDR 0xe0002810
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#define CSR_TIMER0_RELOAD_SIZE 4
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static inline unsigned int timer0_reload_read(void) {
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unsigned int r = csr_readl(0xe0002810);
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r <<= 8;
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r |= csr_readl(0xe0002814);
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r <<= 8;
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r |= csr_readl(0xe0002818);
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r <<= 8;
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r |= csr_readl(0xe000281c);
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return r;
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}
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static inline void timer0_reload_write(unsigned int value) {
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csr_writel(value >> 24, 0xe0002810);
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csr_writel(value >> 16, 0xe0002814);
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csr_writel(value >> 8, 0xe0002818);
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csr_writel(value, 0xe000281c);
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}
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#define CSR_TIMER0_EN_ADDR 0xe0002820
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#define CSR_TIMER0_EN_SIZE 1
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static inline unsigned char timer0_en_read(void) {
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unsigned char r = csr_readl(0xe0002820);
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return r;
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}
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static inline void timer0_en_write(unsigned char value) {
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csr_writel(value, 0xe0002820);
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}
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#define CSR_TIMER0_UPDATE_VALUE_ADDR 0xe0002824
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#define CSR_TIMER0_UPDATE_VALUE_SIZE 1
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static inline unsigned char timer0_update_value_read(void) {
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unsigned char r = csr_readl(0xe0002824);
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return r;
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}
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static inline void timer0_update_value_write(unsigned char value) {
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csr_writel(value, 0xe0002824);
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}
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#define CSR_TIMER0_VALUE_ADDR 0xe0002828
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#define CSR_TIMER0_VALUE_SIZE 4
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static inline unsigned int timer0_value_read(void) {
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unsigned int r = csr_readl(0xe0002828);
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r <<= 8;
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r |= csr_readl(0xe000282c);
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r <<= 8;
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r |= csr_readl(0xe0002830);
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r <<= 8;
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r |= csr_readl(0xe0002834);
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return r;
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}
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#define CSR_TIMER0_EV_STATUS_ADDR 0xe0002838
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#define CSR_TIMER0_EV_STATUS_SIZE 1
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static inline unsigned char timer0_ev_status_read(void) {
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unsigned char r = csr_readl(0xe0002838);
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return r;
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}
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static inline void timer0_ev_status_write(unsigned char value) {
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csr_writel(value, 0xe0002838);
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}
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#define CSR_TIMER0_EV_PENDING_ADDR 0xe000283c
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#define CSR_TIMER0_EV_PENDING_SIZE 1
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static inline unsigned char timer0_ev_pending_read(void) {
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unsigned char r = csr_readl(0xe000283c);
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return r;
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}
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static inline void timer0_ev_pending_write(unsigned char value) {
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csr_writel(value, 0xe000283c);
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}
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#define CSR_TIMER0_EV_ENABLE_ADDR 0xe0002840
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#define CSR_TIMER0_EV_ENABLE_SIZE 1
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static inline unsigned char timer0_ev_enable_read(void) {
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unsigned char r = csr_readl(0xe0002840);
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return r;
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}
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static inline void timer0_ev_enable_write(unsigned char value) {
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csr_writel(value, 0xe0002840);
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}
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/* uart */
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#define CSR_UART_BASE 0xe0001800
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#define CSR_UART_RXTX_ADDR 0xe0001800
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#define CSR_UART_RXTX_SIZE 1
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static inline unsigned char uart_rxtx_read(void) {
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unsigned char r = csr_readl(0xe0001800);
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return r;
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}
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static inline void uart_rxtx_write(unsigned char value) {
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csr_writel(value, 0xe0001800);
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}
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#define CSR_UART_TXFULL_ADDR 0xe0001804
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#define CSR_UART_TXFULL_SIZE 1
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static inline unsigned char uart_txfull_read(void) {
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unsigned char r = csr_readl(0xe0001804);
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return r;
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}
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#define CSR_UART_RXEMPTY_ADDR 0xe0001808
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#define CSR_UART_RXEMPTY_SIZE 1
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static inline unsigned char uart_rxempty_read(void) {
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unsigned char r = csr_readl(0xe0001808);
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return r;
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}
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#define CSR_UART_EV_STATUS_ADDR 0xe000180c
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#define CSR_UART_EV_STATUS_SIZE 1
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static inline unsigned char uart_ev_status_read(void) {
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unsigned char r = csr_readl(0xe000180c);
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return r;
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}
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static inline void uart_ev_status_write(unsigned char value) {
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csr_writel(value, 0xe000180c);
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}
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#define CSR_UART_EV_PENDING_ADDR 0xe0001810
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#define CSR_UART_EV_PENDING_SIZE 1
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static inline unsigned char uart_ev_pending_read(void) {
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unsigned char r = csr_readl(0xe0001810);
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return r;
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}
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static inline void uart_ev_pending_write(unsigned char value) {
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csr_writel(value, 0xe0001810);
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}
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#define CSR_UART_EV_ENABLE_ADDR 0xe0001814
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#define CSR_UART_EV_ENABLE_SIZE 1
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static inline unsigned char uart_ev_enable_read(void) {
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unsigned char r = csr_readl(0xe0001814);
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return r;
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}
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static inline void uart_ev_enable_write(unsigned char value) {
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csr_writel(value, 0xe0001814);
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}
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/* uart_phy */
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#define CSR_UART_PHY_BASE 0xe0001000
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#define CSR_UART_PHY_TUNING_WORD_ADDR 0xe0001000
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#define CSR_UART_PHY_TUNING_WORD_SIZE 4
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static inline unsigned int uart_phy_tuning_word_read(void) {
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unsigned int r = csr_readl(0xe0001000);
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r <<= 8;
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r |= csr_readl(0xe0001004);
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r <<= 8;
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r |= csr_readl(0xe0001008);
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r <<= 8;
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r |= csr_readl(0xe000100c);
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return r;
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}
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static inline void uart_phy_tuning_word_write(unsigned int value) {
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csr_writel(value >> 24, 0xe0001000);
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csr_writel(value >> 16, 0xe0001004);
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csr_writel(value >> 8, 0xe0001008);
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csr_writel(value, 0xe000100c);
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}
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/* usb */
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#define CSR_USB_BASE 0xe0004800
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#define CSR_USB_PULLUP_OUT_ADDR 0xe0004800
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#define CSR_USB_PULLUP_OUT_SIZE 1
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static inline unsigned char usb_pullup_out_read(void) {
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unsigned char r = csr_readl(0xe0004800);
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return r;
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}
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static inline void usb_pullup_out_write(unsigned char value) {
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csr_writel(value, 0xe0004800);
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}
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#define CSR_USB_EP_0_OUT_EV_STATUS_ADDR 0xe0004804
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#define CSR_USB_EP_0_OUT_EV_STATUS_SIZE 1
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static inline unsigned char usb_ep_0_out_ev_status_read(void) {
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unsigned char r = csr_readl(0xe0004804);
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return r;
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}
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static inline void usb_ep_0_out_ev_status_write(unsigned char value) {
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csr_writel(value, 0xe0004804);
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}
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#define CSR_USB_EP_0_OUT_EV_PENDING_ADDR 0xe0004808
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#define CSR_USB_EP_0_OUT_EV_PENDING_SIZE 1
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static inline unsigned char usb_ep_0_out_ev_pending_read(void) {
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unsigned char r = csr_readl(0xe0004808);
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return r;
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}
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static inline void usb_ep_0_out_ev_pending_write(unsigned char value) {
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csr_writel(value, 0xe0004808);
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}
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#define CSR_USB_EP_0_OUT_EV_ENABLE_ADDR 0xe000480c
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#define CSR_USB_EP_0_OUT_EV_ENABLE_SIZE 1
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static inline unsigned char usb_ep_0_out_ev_enable_read(void) {
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unsigned char r = csr_readl(0xe000480c);
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return r;
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}
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static inline void usb_ep_0_out_ev_enable_write(unsigned char value) {
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csr_writel(value, 0xe000480c);
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}
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#define CSR_USB_EP_0_OUT_LAST_TOK_ADDR 0xe0004810
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#define CSR_USB_EP_0_OUT_LAST_TOK_SIZE 1
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static inline unsigned char usb_ep_0_out_last_tok_read(void) {
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unsigned char r = csr_readl(0xe0004810);
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return r;
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}
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#define CSR_USB_EP_0_OUT_RESPOND_ADDR 0xe0004814
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#define CSR_USB_EP_0_OUT_RESPOND_SIZE 1
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static inline unsigned char usb_ep_0_out_respond_read(void) {
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unsigned char r = csr_readl(0xe0004814);
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return r;
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}
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static inline void usb_ep_0_out_respond_write(unsigned char value) {
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csr_writel(value, 0xe0004814);
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}
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#define CSR_USB_EP_0_OUT_DTB_ADDR 0xe0004818
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#define CSR_USB_EP_0_OUT_DTB_SIZE 1
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static inline unsigned char usb_ep_0_out_dtb_read(void) {
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unsigned char r = csr_readl(0xe0004818);
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return r;
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}
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static inline void usb_ep_0_out_dtb_write(unsigned char value) {
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csr_writel(value, 0xe0004818);
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}
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#define CSR_USB_EP_0_OUT_OBUF_HEAD_ADDR 0xe000481c
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#define CSR_USB_EP_0_OUT_OBUF_HEAD_SIZE 1
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static inline unsigned char usb_ep_0_out_obuf_head_read(void) {
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unsigned char r = csr_readl(0xe000481c);
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return r;
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}
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static inline void usb_ep_0_out_obuf_head_write(unsigned char value) {
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csr_writel(value, 0xe000481c);
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}
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#define CSR_USB_EP_0_OUT_OBUF_EMPTY_ADDR 0xe0004820
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#define CSR_USB_EP_0_OUT_OBUF_EMPTY_SIZE 1
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static inline unsigned char usb_ep_0_out_obuf_empty_read(void) {
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unsigned char r = csr_readl(0xe0004820);
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return r;
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}
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#define CSR_USB_EP_0_IN_EV_STATUS_ADDR 0xe0004824
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#define CSR_USB_EP_0_IN_EV_STATUS_SIZE 1
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static inline unsigned char usb_ep_0_in_ev_status_read(void) {
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unsigned char r = csr_readl(0xe0004824);
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return r;
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}
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static inline void usb_ep_0_in_ev_status_write(unsigned char value) {
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csr_writel(value, 0xe0004824);
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}
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#define CSR_USB_EP_0_IN_EV_PENDING_ADDR 0xe0004828
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#define CSR_USB_EP_0_IN_EV_PENDING_SIZE 1
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static inline unsigned char usb_ep_0_in_ev_pending_read(void) {
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unsigned char r = csr_readl(0xe0004828);
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return r;
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}
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static inline void usb_ep_0_in_ev_pending_write(unsigned char value) {
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csr_writel(value, 0xe0004828);
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}
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#define CSR_USB_EP_0_IN_EV_ENABLE_ADDR 0xe000482c
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#define CSR_USB_EP_0_IN_EV_ENABLE_SIZE 1
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static inline unsigned char usb_ep_0_in_ev_enable_read(void) {
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unsigned char r = csr_readl(0xe000482c);
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return r;
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}
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static inline void usb_ep_0_in_ev_enable_write(unsigned char value) {
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csr_writel(value, 0xe000482c);
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}
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#define CSR_USB_EP_0_IN_LAST_TOK_ADDR 0xe0004830
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#define CSR_USB_EP_0_IN_LAST_TOK_SIZE 1
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static inline unsigned char usb_ep_0_in_last_tok_read(void) {
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unsigned char r = csr_readl(0xe0004830);
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return r;
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}
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#define CSR_USB_EP_0_IN_RESPOND_ADDR 0xe0004834
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#define CSR_USB_EP_0_IN_RESPOND_SIZE 1
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static inline unsigned char usb_ep_0_in_respond_read(void) {
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unsigned char r = csr_readl(0xe0004834);
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return r;
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}
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static inline void usb_ep_0_in_respond_write(unsigned char value) {
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csr_writel(value, 0xe0004834);
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}
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#define CSR_USB_EP_0_IN_DTB_ADDR 0xe0004838
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#define CSR_USB_EP_0_IN_DTB_SIZE 1
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static inline unsigned char usb_ep_0_in_dtb_read(void) {
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unsigned char r = csr_readl(0xe0004838);
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return r;
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}
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static inline void usb_ep_0_in_dtb_write(unsigned char value) {
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csr_writel(value, 0xe0004838);
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}
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#define CSR_USB_EP_0_IN_IBUF_HEAD_ADDR 0xe000483c
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#define CSR_USB_EP_0_IN_IBUF_HEAD_SIZE 1
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static inline unsigned char usb_ep_0_in_ibuf_head_read(void) {
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unsigned char r = csr_readl(0xe000483c);
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return r;
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}
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static inline void usb_ep_0_in_ibuf_head_write(unsigned char value) {
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csr_writel(value, 0xe000483c);
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}
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#define CSR_USB_EP_0_IN_IBUF_EMPTY_ADDR 0xe0004840
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#define CSR_USB_EP_0_IN_IBUF_EMPTY_SIZE 1
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static inline unsigned char usb_ep_0_in_ibuf_empty_read(void) {
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unsigned char r = csr_readl(0xe0004840);
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return r;
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}
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/* constants */
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#define NMI_INTERRUPT 0
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static inline int nmi_interrupt_read(void) {
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return 0;
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}
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#define TIMER0_INTERRUPT 1
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static inline int timer0_interrupt_read(void) {
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return 1;
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}
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#define UART_INTERRUPT 2
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static inline int uart_interrupt_read(void) {
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return 2;
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}
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#define USB_INTERRUPT 3
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static inline int usb_interrupt_read(void) {
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return 3;
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}
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#define CSR_DATA_WIDTH 8
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static inline int csr_data_width_read(void) {
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return 8;
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}
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#define SYSTEM_CLOCK_FREQUENCY 12000000
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static inline int system_clock_frequency_read(void) {
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return 12000000;
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}
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#define ROM_DISABLE 1
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static inline int rom_disable_read(void) {
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return 1;
|
|
}
|
|
#define CONFIG_CLOCK_FREQUENCY 12000000
|
|
static inline int config_clock_frequency_read(void) {
|
|
return 12000000;
|
|
}
|
|
#define CONFIG_CPU_RESET_ADDR 0
|
|
static inline int config_cpu_reset_addr_read(void) {
|
|
return 0;
|
|
}
|
|
#define CONFIG_CPU_TYPE "VEXRISCV"
|
|
static inline const char * config_cpu_type_read(void) {
|
|
return "VEXRISCV";
|
|
}
|
|
#define CONFIG_CPU_VARIANT "VEXRISCV"
|
|
static inline const char * config_cpu_variant_read(void) {
|
|
return "VEXRISCV";
|
|
}
|
|
#define CONFIG_CSR_DATA_WIDTH 8
|
|
static inline int config_csr_data_width_read(void) {
|
|
return 8;
|
|
}
|
|
|
|
#endif
|