/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright © 2010 Amaury Pouly * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #include "usb.h" #include "usb_drv.h" #include "as3525v2.h" #include "clock-target.h" #include "ascodec.h" #include "as3514.h" #include "stdbool.h" #include "string.h" #include "stdio.h" #include "panic.h" #include "mmu-arm.h" #include "system.h" #define LOGF_ENABLE #include "logf.h" #include "usb-drv-as3525v2.h" #include "usb_core.h" static int __in_ep_list[NUM_IN_EP] = {IN_EP_LIST}; static int __out_ep_list[NUM_OUT_EP] = {OUT_EP_LIST}; /* iterate through each in/out ep except EP0 * 'counter' is the counter, 'ep' is the actual value */ #define FOR_EACH_IN_EP(counter, ep) \ for(counter = 0, ep = __in_ep_list[0]; counter < NUM_IN_EP; counter++, ep = __in_ep_list[counter]) #define FOR_EACH_OUT_EP(counter, ep) \ for(counter = 0, ep = __out_ep_list[0]; counter < NUM_OUT_EP; counter++, ep = __out_ep_list[counter]) struct usb_endpoint { void *buf; unsigned int len; union { unsigned int sent; unsigned int received; }; bool wait; bool busy; }; #if 0 static struct usb_endpoint endpoints[USB_NUM_ENDPOINTS*2]; #endif static struct usb_ctrlrequest ep0_setup_pkt; void usb_attach(void) { logf("usb: attach"); usb_enable(true); } static void usb_delay(void) { int i = 0; while(i < 0x300) { asm volatile("nop"); i++; } } static void as3525v2_connect(void) { logf("usb: init as3525v2"); /* 1) enable usb core clock */ CGU_PERI |= CGU_USB_CLOCK_ENABLE; usb_delay(); /* 2) enable usb phy clock */ CGU_USB |= 0x20; usb_delay(); /* 3) clear "stop pclk" */ PCGCCTL &= ~0x1; usb_delay(); /* 4) clear "power clamp" */ PCGCCTL &= ~0x4; usb_delay(); /* 5) clear "reset power down module" */ PCGCCTL &= ~0x8; usb_delay(); /* 6) set "power on program done" */ DCTL |= DCTL_pwronprgdone; usb_delay(); /* 7) core soft reset */ GRSTCTL |= GRSTCTL_csftrst; usb_delay(); /* 8) hclk soft reset */ GRSTCTL |= GRSTCTL_hsftrst; usb_delay(); /* 9) flush and reset everything */ GRSTCTL |= 0x3f; usb_delay(); /* 10) force device mode*/ GUSBCFG &= ~GUSBCFG_force_host_mode; GUSBCFG |= GUSBCFG_force_device_mode; usb_delay(); /* 11) Do something that is probably CCU related but undocumented*/ CCU_USB_THINGY &= ~0x1000; usb_delay(); CCU_USB_THINGY &= ~0x300000; usb_delay(); /* 12) reset usb core parameters (dev addr, speed, ...) */ DCFG = 0; usb_delay(); } static void enable_device_interrupts(void) { /* Clear any pending interrupt */ GINTSTS = 0xffffffff; /* Clear any pending otg interrupt */ GOTGINT = 0xffffffff; /* Enable interrupts */ GINTMSK = GINTMSK_usbreset | GINTMSK_enumdone | GINTMSK_inepintr | GINTMSK_outepintr | GINTMSK_otgintr | GINTMSK_disconnect; } static void flush_tx_fifos(int nums) { unsigned int i = 0; GRSTCTL = (GRSTCTL & ~bitm(GRSTCTL, txfnum)) | (nums << GRSTCTL_txfnum_bitp) | GRSTCTL_txfflsh_flush; while(GRSTCTL & GRSTCTL_txfflsh_flush && i < 0x300) i++; if(GRSTCTL & GRSTCTL_txfflsh_flush) panicf("usb: hang of flush tx fifos (%x)", nums); /* wait 3 phy clocks */ udelay(1); } static void reset_endpoints(void) { int i, ep; /* disable all endpoints except EP0 */ FOR_EACH_IN_EP(i, ep) if(DIEPCTL(ep) & DEPCTL_epena) DIEPCTL(ep) = DEPCTL_epdis | DEPCTL_snak; else DIEPCTL(ep) = 0; FOR_EACH_OUT_EP(i, ep) if(DOEPCTL(ep) & DEPCTL_epena) DOEPCTL(ep) = DEPCTL_epdis | DEPCTL_snak; else DOEPCTL(ep) = 0; /* Setup EP0 OUT with the following parameters: * packet count = 1 * setup packet count = 1 * transfer size = 64 * Setup EP0 IN/OUT with 64 byte maximum packet size and activate both. Enable transfer on EP0 OUT */ DOEPTSIZ(0) = (1 << DEPTSIZ0_supcnt_bitp) | (1 << DEPTSIZ0_pkcnt_bitp) | 8; /* setup DMA */ clean_dcache_range((void*)&ep0_setup_pkt, sizeof ep0_setup_pkt); /* force write back */ DOEPDMA(0) = (unsigned long)&ep0_setup_pkt; /* virtual address=physical address */ /* Enable endpoint, clear nak */ DOEPCTL(0) = DEPCTL_epena | DEPCTL_cnak | DEPCTL_usbactep | (DEPCTL_MPS_8 << DEPCTL_mps_bitp); /* 64 bytes packet size, active endpoint */ DIEPCTL(0) = (DEPCTL_MPS_8 << DEPCTL_mps_bitp) | DEPCTL_usbactep; DCTL = DCTL_cgnpinnak | DCTL_cgoutnak; } static void core_dev_init(void) { unsigned int num_in_ep = 0; unsigned int num_out_ep = 0; unsigned int i; /* Restart the phy clock */ PCGCCTL = 0; /* Set phy speed : high speed */ DCFG = (DCFG & ~bitm(DCFG, devspd)) | DCFG_devspd_hs_phy_hs; /* Check hardware capabilities */ if(extract(GHWCFG2, arch) != GHWCFG2_ARCH_INTERNAL_DMA) panicf("usb: wrong architecture (%ld)", extract(GHWCFG2, arch)); if(extract(GHWCFG2, hs_phy_type) != GHWCFG2_PHY_TYPE_UTMI) panicf("usb: wrong HS phy type (%ld)", extract(GHWCFG2, hs_phy_type)); if(extract(GHWCFG2, fs_phy_type) != GHWCFG2_PHY_TYPE_UNSUPPORTED) panicf("usb: wrong FS phy type (%ld)", extract(GHWCFG2, fs_phy_type)); if(extract(GHWCFG4, utmi_phy_data_width) != 0x2) panicf("usb: wrong utmi data width (%ld)", extract(GHWCFG4, utmi_phy_data_width)); if(!(GHWCFG4 & GHWCFG4_ded_fifo_en)) /* it seems to be multiple tx fifo support */ panicf("usb: no multiple tx fifo"); #ifdef USE_CUSTOM_FIFO_LAYOUT if(!(GHWCFG2 & GHWCFG2_dyn_fifo)) panicf("usb: no dynamic fifo"); if(GRXFSIZ != DATA_FIFO_DEPTH) panicf("usb: wrong data fifo size"); #endif /* USE_CUSTOM_FIFO_LAYOUT */ /* do some logging */ logf("hwcfg1: %08lx", GHWCFG1); logf("hwcfg2: %08lx", GHWCFG2); logf("hwcfg3: %08lx", GHWCFG3); logf("hwcfg4: %08lx", GHWCFG4); logf("%ld endpoints", extract(GHWCFG2, num_ep)); num_in_ep = 0; num_out_ep = 0; for(i = 0; i < extract(GHWCFG2, num_ep); i++) { if(GHWCFG1 & GHWCFG1_IN_EP(i)) num_in_ep++; if(GHWCFG1 & GHWCFG1_OUT_EP(i)) num_out_ep++; logf(" EP%d: IN=%s OUT=%s", i, GHWCFG1 & GHWCFG1_IN_EP(i) ? "yes" : "no", GHWCFG1 & GHWCFG1_OUT_EP(i) ? "yes" : "no"); } if(num_in_ep != extract(GHWCFG4, num_in_ep)) panicf("usb: num in ep mismatch(%d,%lu)", num_in_ep, extract(GHWCFG4, num_in_ep)); if(num_in_ep != NUM_IN_EP) panicf("usb: num in ep static mismatch(%u,%u)", num_in_ep, NUM_IN_EP); if(num_out_ep != NUM_OUT_EP) panicf("usb: num out ep static mismatch(%u,%u)", num_out_ep, NUM_OUT_EP); logf("%d in ep, %d out ep", num_in_ep, num_out_ep); logf("initial:"); logf(" tot fifo sz: %lx", extract(GHWCFG3, dfifo_len)); logf(" rx fifo: [%04x,+%4lx]", 0, GRXFSIZ); logf(" nptx fifo: [%04lx,+%4lx]", GET_FIFOSIZE_START_ADR(GNPTXFSIZ), GET_FIFOSIZE_DEPTH(GNPTXFSIZ)); #ifdef USE_CUSTOM_FIFO_LAYOUT /* Setup FIFOs */ /* Organize FIFO as follow: * 0 -> rxfsize : RX fifo * rxfsize -> rxfsize + nptxfsize : TX fifo for first IN ep * rxfsize + nptxfsize -> rxfsize + 2 * nptxfsize : TX fifo for second IN ep * rxfsize + 2 * nptxfsize -> rxfsize + 3 * nptxfsize : TX fifo for third IN ep * ... */ unsigned short adr = 0; unsigned short depth = RX_FIFO_SIZE; GRXFSIZ = depth; adr += depth; depth = NPTX_FIFO_SIZE; GNPTXFSIZ = MAKE_FIFOSIZE_DATA(adr, depth); adr += depth; for(i = 1; i <= NUM_IN_EP; i++) { depth = EPTX_FIFO_SIZE; DIEPTXFSIZ(i) = MAKE_FIFOSIZE_DATA(adr, depth); adr += depth; } if(adr > DATA_FIFO_DEPTH) panicf("usb: total data fifo size exceeded"); #endif /* USE_CUSTOM_FIFO_LAYOUT */ for(i = 1; i <= NUM_IN_EP; i++) { logf(" dieptx fifo(%2u): [%04lx,+%4lx]", i, GET_FIFOSIZE_START_ADR(DIEPTXFSIZ(i)), GET_FIFOSIZE_DEPTH(DIEPTXFSIZ(i))); } /* Setup interrupt masks for endpoints */ /* Setup interrupt masks */ DOEPMSK = DOEPINT_setup | DOEPINT_xfercompl | DOEPINT_ahberr | DOEPINT_epdisabled; DIEPMSK = DIEPINT_xfercompl | DIEPINT_timeout | DIEPINT_epdisabled | DIEPINT_ahberr; DAINTMSK = 0xffffffff; reset_endpoints(); /* fixme: threshold tweaking only takes place if we use multiple tx fifos it seems */ /* only dump them for now, leave threshold disabled */ /* logf("threshold control:"); logf(" non_iso_thr_en: %d", (DTHRCTL & DTHRCTL_non_iso_thr_en) ? 1 : 0); logf(" iso_thr_en: %d", (DTHRCTL & DTHRCTL_iso_thr_en) ? 1 : 0); logf(" tx_thr_len: %lu", extract(DTHRCTL, tx_thr_len)); logf(" rx_thr_en: %d", (DTHRCTL & DTHRCTL_rx_thr_en) ? 1 : 0); logf(" rx_thr_len: %lu", extract(DTHRCTL, rx_thr_len)); */ DTHRCTL = 0; /* enable USB interrupts */ enable_device_interrupts(); } static void core_init(void) { /* Disconnect */ DCTL |= DCTL_sftdiscon; /* Select UTMI+ 16 */ GUSBCFG |= GUSBCFG_phy_if; /* fixme: the current code is for internal DMA only, the clip+ architecture * define the internal DMA model */ /* Set burstlen and enable DMA*/ GAHBCFG = (GAHBCFG_INT_DMA_BURST_INCR4 << GAHBCFG_hburstlen_bitp) | GAHBCFG_dma_enable; /* Disable HNP and SRP, not sure it's useful because we already forced dev mode */ GUSBCFG &= ~(GUSBCFG_srpcap | GUSBCFG_hnpcapp); /* perform device model specific init */ core_dev_init(); /* Reconnect */ DCTL &= ~DCTL_sftdiscon; } static void enable_global_interrupts(void) { VIC_INT_ENABLE = INTERRUPT_USB; GAHBCFG |= GAHBCFG_glblintrmsk; } static void disable_global_interrupts(void) { GAHBCFG &= ~GAHBCFG_glblintrmsk; VIC_INT_EN_CLEAR = INTERRUPT_USB; } void usb_drv_init(void) { logf("usb_drv_init"); /* Enable PHY and clocks (but leave pullups disabled) */ as3525v2_connect(); logf("usb: synopsis id: %lx", GSNPSID); /* Core init */ core_init(); /* Enable global interrupts */ enable_global_interrupts(); } void usb_drv_exit(void) { logf("usb_drv_exit"); disable_global_interrupts(); } static bool handle_reset(void) { logf("usb: bus reset"); /* Clear the Remote Wakeup Signalling */ DCTL &= ~DCTL_rmtwkupsig; /* Flush FIFOs */ flush_tx_fifos(0x10); /* Flush the Learning Queue */ GRSTCTL = GRSTCTL_intknqflsh; reset_endpoints(); /* Reset Device Address */ DCFG &= bitm(DCFG, devadr); usb_core_bus_reset(); return true; } static bool handle_enum_done(void) { logf("usb: enum done"); /* read speed */ logf("DSTS: %lx", DSTS); logf("DOEPCTL0=%lx", DOEPCTL(0)); logf("DOEPTSIZ=%lx", DOEPTSIZ(0)); logf("DIEPCTL0=%lx", DIEPCTL(0)); logf("DOEPMSK=%lx", DOEPMSK); logf("DIEPMSK=%lx", DIEPMSK); logf("DAINTMSK=%lx", DAINTMSK); logf("DAINT=%lx", DAINT); logf("GINTSTS=%lx", GINTSTS); logf("GINTMSK=%lx", GINTMSK); logf("DCTL=%lx", DCTL); logf("GAHBCFG=%lx", GAHBCFG); logf("GUSBCFG=%lx", GUSBCFG); logf("DCFG=%lx", DCFG); logf("DTHRCTL=%lx", DTHRCTL); switch(extract(DSTS, enumspd)) { case DSTS_ENUMSPD_HS_PHY_30MHZ_OR_60MHZ: logf("usb: HS"); break; case DSTS_ENUMSPD_FS_PHY_30MHZ_OR_60MHZ: case DSTS_ENUMSPD_FS_PHY_48MHZ: logf("usb: FS"); break; case DSTS_ENUMSPD_LS_PHY_6MHZ: panicf("usb: LS is not supported"); } /* fixme: change EP0 mps here */ return true; } static bool handle_in_ep_int(void) { panicf("usb: in ep int"); return false; } static bool handle_out_ep_int(void) { panicf("usb: out ep int"); return false; } /* interrupt service routine */ void INT_USB(void) { /* some bits in GINTSTS can be set even though we didn't enable the interrupt source * so AND it with the actual mask */ unsigned long sts = GINTSTS & GINTMSK; unsigned long handled_one = 0; /* mask of all listed one (either handled or not) */ #define HANDLED_CASE(bitmask, callfn) \ handled_one |= bitmask; \ if(sts & bitmask) \ { \ if(!callfn()) \ goto Lerr; \ } #define UNHANDLED_CASE(bitmask) \ handled_one |= bitmask; \ if(sts & bitmask) \ goto Lunhandled; /* device part */ HANDLED_CASE(GINTMSK_usbreset, handle_reset) HANDLED_CASE(GINTMSK_enumdone, handle_enum_done) HANDLED_CASE(GINTMSK_inepintr, handle_in_ep_int) HANDLED_CASE(GINTMSK_outepintr, handle_out_ep_int) /* common part */ UNHANDLED_CASE(GINTMSK_otgintr) UNHANDLED_CASE(GINTMSK_conidstschng) UNHANDLED_CASE(GINTMSK_disconnect) /* unlisted ones */ if(sts & ~handled_one) goto Lunhandled; GINTSTS = GINTSTS; return; Lunhandled: panicf("unhandled usb int: %lx", sts); Lerr: panicf("error in usb int: %lx", sts); } int usb_drv_port_speed(void) { return 0; } int usb_drv_request_endpoint(int type, int dir) { (void) type; (void) dir; return -1; } void usb_drv_release_endpoint(int ep) { (void) ep; } void usb_drv_cancel_all_transfers(void) { } int usb_drv_recv(int ep, void *ptr, int len) { (void) ep; (void) ptr; (void) len; return -1; } int usb_drv_send(int ep, void *ptr, int len) { (void) ep; (void) ptr; (void) len; return -1; } int usb_drv_send_nonblocking(int ep, void *ptr, int len) { (void) ep; (void) ptr; (void) len; return -1; } void usb_drv_set_test_mode(int mode) { (void) mode; } void usb_drv_set_address(int address) { (void) address; } void usb_drv_stall(int ep, bool stall, bool in) { (void) ep; (void) stall; (void) in; } bool usb_drv_stalled(int ep, bool in) { (void) ep; (void) in; return true; }