4 years ago · 0ac84cfcbf
--- a/teensy4/imxrt1062_t41.ld
+++ b/teensy4/imxrt1062_t41.ld
@@ -4,7 +4,7 @@ MEMORY
 	DTCM (rwx):  ORIGIN = 0x20000000, LENGTH = 512K
 	RAM (rwx):   ORIGIN = 0x20200000, LENGTH = 512K
 	FLASH (rwx): ORIGIN = 0x60000000, LENGTH = 7936K
 	ERAM (rwx):  ORIGIN = 0x70000000, LENGTH = 8192K
 	ERAM (rwx):  ORIGIN = 0x70000000, LENGTH = 16384K
 }

 ENTRY(ImageVectorTable)
--- a/teensy4/startup.c
+++ b/teensy4/startup.c
@@ -27,6 +27,7 @@ static void reset_PFD();
 extern void systick_isr(void);
 extern void pendablesrvreq_isr(void);
 void configure_cache(void);
 void configure_external_ram(void);
 void unused_interrupt_vector(void);
 void usb_pll_start();
 extern void analog_init(void); // analog.c
@@ -122,6 +123,9 @@ void ResetHandler(void)
 	}
 	SNVS_HPCR |= SNVS_HPCR_RTC_EN | SNVS_HPCR_HP_TS;

 #ifdef ARDUINO_TEENSY41
 	configure_external_ram();
 #endif
 	startup_early_hook();
 	while (millis() < 20) ; // wait at least 20ms before starting USB
 	usb_init();
@@ -248,10 +252,10 @@ FLASHMEM void configure_cache(void)
 	SCB_MPU_RASR = MEM_CACHE_WBWA | READONLY | SIZE_16M;

 	SCB_MPU_RBAR = 0x70000000 | REGION(i++); // FlexSPI2
 	SCB_MPU_RASR = MEM_CACHE_WBWA | READONLY | SIZE_256M;
 	SCB_MPU_RASR = MEM_CACHE_WBWA | READONLY | NOEXEC | SIZE_256M;

 	SCB_MPU_RBAR = 0x70000000 | REGION(i++); // FlexSPI2
 	SCB_MPU_RASR = MEM_CACHE_WBWA | READWRITE | SIZE_16M;
 	SCB_MPU_RASR = MEM_CACHE_WBWA | READWRITE | NOEXEC | SIZE_16M;

 	// TODO: protect access to power supply config

@@ -267,6 +271,171 @@ FLASHMEM void configure_cache(void)
 	SCB_CCR |= (SCB_CCR_IC | SCB_CCR_DC);
 }

 #ifdef ARDUINO_TEENSY41

 #define LUT0(opcode, pads, operand) (FLEXSPI_LUT_INSTRUCTION((opcode), (pads), (operand)))
 #define LUT1(opcode, pads, operand) (FLEXSPI_LUT_INSTRUCTION((opcode), (pads), (operand)) << 16)
 #define CMD_SDR         FLEXSPI_LUT_OPCODE_CMD_SDR
 #define ADDR_SDR        FLEXSPI_LUT_OPCODE_RADDR_SDR
 #define READ_SDR        FLEXSPI_LUT_OPCODE_READ_SDR
 #define WRITE_SDR       FLEXSPI_LUT_OPCODE_WRITE_SDR
 #define DUMMY_SDR       FLEXSPI_LUT_OPCODE_DUMMY_SDR
 #define PINS1           FLEXSPI_LUT_NUM_PADS_1
 #define PINS4           FLEXSPI_LUT_NUM_PADS_4

 FLASHMEM static void flexspi2_command(uint32_t index, uint32_t addr)
 {
 	FLEXSPI2_IPCR0 = addr;
 	FLEXSPI2_IPCR1 = FLEXSPI_IPCR1_ISEQID(index);
 	FLEXSPI2_IPCMD = FLEXSPI_IPCMD_TRG;
 	while (!(FLEXSPI2_INTR & FLEXSPI_INTR_IPCMDDONE)); // wait
 	FLEXSPI2_INTR = FLEXSPI_INTR_IPCMDDONE;
 }

 FLASHMEM static uint32_t flexspi2_psram_id(uint32_t addr)
 {
 	FLEXSPI2_IPCR0 = addr;
 	FLEXSPI2_IPCR1 = FLEXSPI_IPCR1_ISEQID(3) | FLEXSPI_IPCR1_IDATSZ(4);
 	FLEXSPI2_IPCMD = FLEXSPI_IPCMD_TRG;
 	while (!(FLEXSPI2_INTR & FLEXSPI_INTR_IPCMDDONE)); // wait
 	uint32_t id = FLEXSPI2_RFDR0;
 	FLEXSPI2_INTR = FLEXSPI_INTR_IPCMDDONE | FLEXSPI_INTR_IPRXWA;
 	return id & 0xFFFF;
 }

 FLASHMEM void configure_external_ram()
 {
 	// initialize pins
 	IOMUXC_SW_PAD_CTL_PAD_GPIO_EMC_22 = 0xB0E1; // 100K pullup, medium drive, max speed
 	IOMUXC_SW_PAD_CTL_PAD_GPIO_EMC_23 = 0x10E1; // keeper, medium drive, max speed
 	IOMUXC_SW_PAD_CTL_PAD_GPIO_EMC_24 = 0xB0E1; // 100K pullup, medium drive, max speed
 	IOMUXC_SW_PAD_CTL_PAD_GPIO_EMC_25 = 0x00E1; // medium drive, max speed
 	IOMUXC_SW_PAD_CTL_PAD_GPIO_EMC_26 = 0x70E1; // 47K pullup, medium drive, max speed
 	IOMUXC_SW_PAD_CTL_PAD_GPIO_EMC_27 = 0x70E1; // 47K pullup, medium drive, max speed
 	IOMUXC_SW_PAD_CTL_PAD_GPIO_EMC_28 = 0x70E1; // 47K pullup, medium drive, max speed
 	IOMUXC_SW_PAD_CTL_PAD_GPIO_EMC_29 = 0x70E1; // 47K pullup, medium drive, max speed

 	IOMUXC_SW_MUX_CTL_PAD_GPIO_EMC_22 = 8 | 0x10; // ALT1 = FLEXSPI2_A_SS1_B (Flash)
 	IOMUXC_SW_MUX_CTL_PAD_GPIO_EMC_23 = 8 | 0x10; // ALT1 = FLEXSPI2_A_DQS
 	IOMUXC_SW_MUX_CTL_PAD_GPIO_EMC_24 = 8 | 0x10; // ALT1 = FLEXSPI2_A_SS0_B (RAM)
 	IOMUXC_SW_MUX_CTL_PAD_GPIO_EMC_25 = 8 | 0x10; // ALT1 = FLEXSPI2_A_SCLK
 	IOMUXC_SW_MUX_CTL_PAD_GPIO_EMC_26 = 8 | 0x10; // ALT1 = FLEXSPI2_A_DATA0
 	IOMUXC_SW_MUX_CTL_PAD_GPIO_EMC_27 = 8 | 0x10; // ALT1 = FLEXSPI2_A_DATA1
 	IOMUXC_SW_MUX_CTL_PAD_GPIO_EMC_28 = 8 | 0x10; // ALT1 = FLEXSPI2_A_DATA2
 	IOMUXC_SW_MUX_CTL_PAD_GPIO_EMC_29 = 8 | 0x10; // ALT1 = FLEXSPI2_A_DATA3

 	IOMUXC_FLEXSPI2_IPP_IND_DQS_FA_SELECT_INPUT = 1; // GPIO_EMC_23 for Mode: ALT8, pg 986
 	IOMUXC_FLEXSPI2_IPP_IND_IO_FA_BIT0_SELECT_INPUT = 1; // GPIO_EMC_26 for Mode: ALT8
 	IOMUXC_FLEXSPI2_IPP_IND_IO_FA_BIT1_SELECT_INPUT = 1; // GPIO_EMC_27 for Mode: ALT8
 	IOMUXC_FLEXSPI2_IPP_IND_IO_FA_BIT2_SELECT_INPUT = 1; // GPIO_EMC_28 for Mode: ALT8
 	IOMUXC_FLEXSPI2_IPP_IND_IO_FA_BIT3_SELECT_INPUT = 1; // GPIO_EMC_29 for Mode: ALT8
 	IOMUXC_FLEXSPI2_IPP_IND_SCK_FA_SELECT_INPUT = 1; // GPIO_EMC_25 for Mode: ALT8

 	// turn on clock  (TODO: increase clock speed later, slow & cautious for first release)
 	CCM_CBCMR = (CCM_CBCMR & (CCM_CBCMR_FLEXSPI2_PODF_MASK | CCM_CBCMR_FLEXSPI2_CLK_SEL_MASK))
 		| CCM_CBCMR_FLEXSPI2_PODF(7) | CCM_CBCMR_FLEXSPI2_CLK_SEL(0); // 49.5 MHz
 	CCM_CCGR7 |= CCM_CCGR7_FLEXSPI2(CCM_CCGR_ON);

 	FLEXSPI2_MCR0 |= FLEXSPI_MCR0_MDIS;
 	FLEXSPI2_MCR0 = (FLEXSPI2_MCR0 & ~(FLEXSPI_MCR0_AHBGRANTWAIT_MASK
 		 | FLEXSPI_MCR0_IPGRANTWAIT_MASK | FLEXSPI_MCR0_SCKFREERUNEN
 		 | FLEXSPI_MCR0_COMBINATIONEN | FLEXSPI_MCR0_DOZEEN
 		 | FLEXSPI_MCR0_HSEN | FLEXSPI_MCR0_ATDFEN | FLEXSPI_MCR0_ARDFEN
 		 | FLEXSPI_MCR0_RXCLKSRC_MASK | FLEXSPI_MCR0_SWRESET))
 		| FLEXSPI_MCR0_AHBGRANTWAIT(0xFF) | FLEXSPI_MCR0_IPGRANTWAIT(0xFF)
 		| FLEXSPI_MCR0_RXCLKSRC(1) | FLEXSPI_MCR0_MDIS;
 	FLEXSPI2_MCR1 = FLEXSPI_MCR1_SEQWAIT(0xFFFF) | FLEXSPI_MCR1_AHBBUSWAIT(0xFFFF);
 	FLEXSPI2_MCR2 = (FLEXSPI_MCR2 & ~(FLEXSPI_MCR2_RESUMEWAIT_MASK
 		 | FLEXSPI_MCR2_SCKBDIFFOPT | FLEXSPI_MCR2_SAMEDEVICEEN
 		 | FLEXSPI_MCR2_CLRLEARNPHASE | FLEXSPI_MCR2_CLRAHBBUFOPT))
 		| FLEXSPI_MCR2_RESUMEWAIT(0x20) /*| FLEXSPI_MCR2_SAMEDEVICEEN*/;

 	FLEXSPI2_AHBCR = FLEXSPI2_AHBCR & ~(FLEXSPI_AHBCR_READADDROPT | FLEXSPI_AHBCR_PREFETCHEN
 		| FLEXSPI_AHBCR_BUFFERABLEEN | FLEXSPI_AHBCR_CACHABLEEN);
 	uint32_t mask = (FLEXSPI_AHBRXBUFCR0_PREFETCHEN | FLEXSPI_AHBRXBUFCR0_PRIORITY_MASK
 		| FLEXSPI_AHBRXBUFCR0_MSTRID_MASK | FLEXSPI_AHBRXBUFCR0_BUFSZ_MASK);
 	FLEXSPI2_AHBRXBUF0CR0 = (FLEXSPI2_AHBRXBUF0CR0 & ~mask)
 		| FLEXSPI_AHBRXBUFCR0_PREFETCHEN | FLEXSPI_AHBRXBUFCR0_BUFSZ(64);
 	FLEXSPI2_AHBRXBUF1CR0 = (FLEXSPI2_AHBRXBUF0CR0 & ~mask)
 		| FLEXSPI_AHBRXBUFCR0_PREFETCHEN | FLEXSPI_AHBRXBUFCR0_BUFSZ(64);
 	FLEXSPI2_AHBRXBUF2CR0 = mask;
 	FLEXSPI2_AHBRXBUF3CR0 = mask;

 	// RX watermark = one 64 bit line
 	FLEXSPI2_IPRXFCR = (FLEXSPI_IPRXFCR & 0xFFFFFFC0) | FLEXSPI_IPRXFCR_CLRIPRXF;
 	// TX watermark = one 64 bit line
 	FLEXSPI2_IPTXFCR = (FLEXSPI_IPTXFCR & 0xFFFFFFC0) | FLEXSPI_IPTXFCR_CLRIPTXF;

 	FLEXSPI2_INTEN = 0;
 	FLEXSPI2_FLSHA1CR0 = 0x2000; // 8 MByte
 	FLEXSPI2_FLSHA1CR1 = FLEXSPI_FLSHCR1_CSINTERVAL(2)
 		| FLEXSPI_FLSHCR1_TCSH(3) | FLEXSPI_FLSHCR1_TCSS(3);
 	FLEXSPI2_FLSHA1CR2 = FLEXSPI_FLSHCR2_AWRSEQID(6) | FLEXSPI_FLSHCR2_AWRSEQNUM(0)
 		| FLEXSPI_FLSHCR2_ARDSEQID(5) | FLEXSPI_FLSHCR2_ARDSEQNUM(0);

 	FLEXSPI2_FLSHA2CR0 = 0x2000; // 8 MByte
 	FLEXSPI2_FLSHA2CR1 = FLEXSPI_FLSHCR1_CSINTERVAL(2)
 		| FLEXSPI_FLSHCR1_TCSH(3) | FLEXSPI_FLSHCR1_TCSS(3);
 	FLEXSPI2_FLSHA2CR2 = FLEXSPI_FLSHCR2_AWRSEQID(6) | FLEXSPI_FLSHCR2_AWRSEQNUM(0)
 		| FLEXSPI_FLSHCR2_ARDSEQID(5) | FLEXSPI_FLSHCR2_ARDSEQNUM(0);

 	FLEXSPI2_MCR0 &= ~FLEXSPI_MCR0_MDIS;

 	FLEXSPI2_LUTKEY = FLEXSPI_LUTKEY_VALUE;
 	FLEXSPI2_LUTCR = FLEXSPI_LUTCR_UNLOCK;
 	volatile uint32_t *luttable = &FLEXSPI2_LUT0;
 	for (int i=0; i < 64; i++) luttable[i] = 0;
 	FLEXSPI2_MCR0 |= FLEXSPI_MCR0_SWRESET;
 	while (FLEXSPI2_MCR0 & FLEXSPI_MCR0_SWRESET) ; // wait

 	FLEXSPI2_LUTKEY = FLEXSPI_LUTKEY_VALUE;
 	FLEXSPI2_LUTCR = FLEXSPI_LUTCR_UNLOCK;

 	// cmd index 0 = exit QPI mode
 	FLEXSPI2_LUT0 = LUT0(CMD_SDR, PINS4, 0xF5);
 	// cmd index 1 = reset enable
 	FLEXSPI2_LUT4 = LUT0(CMD_SDR, PINS1, 0x66);
 	// cmd index 2 = reset
 	FLEXSPI2_LUT8 = LUT0(CMD_SDR, PINS1, 0x99);
 	// cmd index 3 = read ID bytes
 	FLEXSPI2_LUT12 = LUT0(CMD_SDR, PINS1, 0x9F) | LUT1(DUMMY_SDR, PINS1, 24);
 	FLEXSPI2_LUT13 = LUT0(READ_SDR, PINS1, 1);
 	// cmd index 4 = enter QPI mode
 	FLEXSPI2_LUT16 = LUT0(CMD_SDR, PINS1, 0x35);
 	// cmd index 5 = read QPI
 	FLEXSPI2_LUT20 = LUT0(CMD_SDR, PINS4, 0xEB) | LUT1(ADDR_SDR, PINS4, 24);
 	FLEXSPI2_LUT21 = LUT0(DUMMY_SDR, PINS4, 6) | LUT1(READ_SDR, PINS4, 1);
 	// cmd index 6 = write QPI
 	FLEXSPI2_LUT24 = LUT0(CMD_SDR, PINS4, 0x38) | LUT1(ADDR_SDR, PINS4, 24);
 	FLEXSPI2_LUT25 = LUT0(WRITE_SDR, PINS4, 1);

 	// look for the first PSRAM chip
 	flexspi2_command(0, 0); // exit quad mode
 	flexspi2_command(1, 0); // reset enable
 	flexspi2_command(2, 0); // reset (is this really necessary?)
 	if (flexspi2_psram_id(0) == 0x5D0D) {
 		// first PSRAM chip is present, look for a second PSRAM chip
 		flexspi2_command(4, 0);
 		flexspi2_command(0, 0x800000); // exit quad mode
 		flexspi2_command(1, 0x800000); // reset enable
 		flexspi2_command(2, 0x800000); // reset (is this really necessary?)
 		if (flexspi2_psram_id(0x800000) == 0x5D0D) {
 			flexspi2_command(4, 0x800000);
 			// Two PSRAM chips are present, 16 MByte
 		} else {
 			// One PSRAM chip is present, 8 MByte
 		}
 		// TODO: zero uninitialized EXTMEM variables
 		// TODO: copy from flash to initialize EXTMEM variables
 		// TODO: set up for malloc_extmem()
 	} else {
 		// No PSRAM
 	}
 }

 #endif // ARDUINO_TEENSY41


 FLASHMEM void usb_pll_start()
 {
 	while (1) {