ref: 20bca0c2029c53de3d4149d957240b17d44684a8
dir: /sys/src/9/imx8/pciimx.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "../port/pci.h" typedef struct Intvec Intvec; struct Intvec { Pcidev *p; void (*f)(Ureg*, void*); void *a; }; typedef struct Ctlr Ctlr; struct Ctlr { uvlong mem_base; uvlong mem_size; uvlong cfg_base; uvlong cfg_size; uvlong io_base; uvlong io_size; int bno, ubn; int irq; u32int *dbi; u32int *cfg; Pcidev *bridge; Lock; Intvec vec[32]; }; static Ctlr ctlrs[2] = { { 0x18000000, 0x7f00000, 0x1ff00000, 0x80000, 0x1ff80000, 0x10000, 0, 127, IRQpci1, (u32int*)(VIRTIO + 0x3800000), }, { 0x20000000, 0x7f00000, 0x27f00000, 0x80000, 0x27f80000, 0x10000, 128, 255, IRQpci2, (u32int*)(VIRTIO + 0x3c00000), }, }; enum { IATU_MAX = 8, IATU_INBOUND = 1<<0, IATU_INDEX_SHIFT = 1, IATU_OFFSET = 0x300000/4, IATU_STRIDE = 0x100/4, IATU_REGION_CTRL_1 = 0x00/4, CTRL_1_FUNC_NUM_SHIFT = 20, CTRL_1_FUNC_NUM_MASK = 7<<CTRL_1_FUNC_NUM_SHIFT, CTRL_1_INCREASE_REGION_SIZ = 1<<13, CTRL_1_ATTR_SHIFT = 9, CTRL_1_ATTR_MASK = 3<<CTRL_1_ATTR_SHIFT, CTRL_1_TD = 1<<8, CTRL_1_TC_SHIFT = 5, CTRL_1_TC_MASK = 7<<CTRL_1_TC_SHIFT, CTRL_1_TYPE_SHIFT = 0, CTRL_1_TYPE_MASK = 0x1F<<CTRL_1_TYPE_SHIFT, CTRL_1_TYPE_MEM = 0x0<<CTRL_1_TYPE_SHIFT, CTRL_1_TYPE_IO = 0x2<<CTRL_1_TYPE_SHIFT, CTRL_1_TYPE_CFG0 = 0x4<<CTRL_1_TYPE_SHIFT, CTRL_1_TYPE_CFG1 = 0x5<<CTRL_1_TYPE_SHIFT, IATU_REGION_CTRL_2 = 0x04/4, CTRL_2_REGION_EN = 1<<31, CTRL_2_INVERT_MODE = 1<<29, CTRL_2_CFG_SHIFT_MODE = 1<<28, CTRL_2_DMA_BYPASS = 1<<27, CTRL_2_HEADER_SUBSITUTE_EN = 1<<23, CTRL_2_INHIBIT_PAYLOAD = 1<<22, CTRL_2_SNP = 1<<20, CTRL_2_FUNC_BYPASS = 1<<19, CTRL_2_TAG_SUBSTITUTE_EN = 1<<16, IATU_LWR_BSAE_ADDR = 0x08/4, IATU_UPPER_BASE_ADDR = 0x0C/4, IATU_LWR_LIMIT_ADDR = 0x10/4, IATU_LWR_TARGET_ADDR = 0x14/4, IATU_UPPER_TARGET_ADDR = 0x18/4, IATU_UPPER_LIMIT_ADDR = 0x20/4, /* undocumented */ }; /* disable all iATU's */ static void iatuinit(Ctlr *ctlr) { u32int *reg; int index; for(index=0; index < IATU_MAX; index++){ reg = &ctlr->dbi[IATU_OFFSET + IATU_STRIDE*index]; reg[IATU_REGION_CTRL_2] &= ~CTRL_2_REGION_EN; } } static void iatucfg(Ctlr *ctlr, int index, u32int type, uvlong target, uvlong base, uvlong size) { uvlong limit = base + size - 1; u32int *reg; assert(size > 0); assert(index < IATU_MAX); assert((index & IATU_INBOUND) == 0); reg = &ctlr->dbi[IATU_OFFSET + IATU_STRIDE*index]; reg[IATU_REGION_CTRL_2] &= ~CTRL_2_REGION_EN; reg[IATU_LWR_BSAE_ADDR] = base; reg[IATU_UPPER_BASE_ADDR] = base >> 32; reg[IATU_LWR_LIMIT_ADDR] = limit; reg[IATU_UPPER_LIMIT_ADDR] = limit >> 32; reg[IATU_LWR_TARGET_ADDR] = target; reg[IATU_UPPER_TARGET_ADDR] = target >> 32; type &= CTRL_1_TYPE_MASK; if(((size-1)>>32) != 0) type |= CTRL_1_INCREASE_REGION_SIZ; reg[IATU_REGION_CTRL_1] = type; reg[IATU_REGION_CTRL_2] = CTRL_2_REGION_EN; while((reg[IATU_REGION_CTRL_2] & CTRL_2_REGION_EN) == 0) microdelay(10); } static Ctlr* bus2ctlr(int bno) { Ctlr *ctlr; for(ctlr = ctlrs; ctlr < &ctlrs[nelem(ctlrs)]; ctlr++) if(bno >= ctlr->bno && bno <= ctlr->ubn) return ctlr; return nil; } static void* cfgaddr(int tbdf, int rno) { Ctlr *ctlr; ctlr = bus2ctlr(BUSBNO(tbdf)); if(ctlr == nil) return nil; if(pciparentdev == nil){ if(BUSDNO(tbdf) != 0 || BUSFNO(tbdf) != 0) return nil; return (uchar*)ctlr->dbi + rno; } iatucfg(ctlr, 0<<IATU_INDEX_SHIFT, pciparentdev->parent==nil? CTRL_1_TYPE_CFG0: CTRL_1_TYPE_CFG1, BUSBNO(tbdf)<<24 | BUSDNO(tbdf)<<19 | BUSFNO(tbdf)<<16, ctlr->cfg_base, ctlr->cfg_size); return (uchar*)ctlr->cfg + rno; } int pcicfgrw32(int tbdf, int rno, int data, int read) { u32int *p; if((p = cfgaddr(tbdf, rno & ~3)) != nil){ if(read) data = *p; else *p = data; } else { data = -1; } return data; } int pcicfgrw16(int tbdf, int rno, int data, int read) { u16int *p; if((p = cfgaddr(tbdf, rno & ~1)) != nil){ if(read) data = *p; else *p = data; } else { data = -1; } return data; } int pcicfgrw8(int tbdf, int rno, int data, int read) { u8int *p; if((p = cfgaddr(tbdf, rno)) != nil){ if(read) data = *p; else *p = data; } else { data = -1; } return data; } static u16int msimsg; #define MSI_TARGET_ADDR PCIWADDR(&msimsg) enum { MSI_CAP_ID = 0x50/4, PCI_MSI_ENABLE = 1<<16, MSI_CTRL_ADDR = 0x820/4, MSI_CTRL_UPPER_ADDR = 0x824/4, MSI_CTRL_INT_0_EN = 0x828/4, MSI_CTRL_INT_0_MASK = 0x82C/4, MSI_CTRL_INT_0_STATUS = 0x830/4, MISC_CONTROL_1 = 0x8BC/4, DBI_RO_WR_EN = 1<<0, }; static void pciinterrupt(Ureg *ureg, void *arg) { Ctlr *ctlr = arg; Intvec *vec; u32int status; status = ctlr->dbi[MSI_CTRL_INT_0_STATUS]; if(status == 0) return; ctlr->dbi[MSI_CTRL_INT_0_STATUS] = status; ilock(ctlr); for(vec = ctlr->vec; status != 0 && vec < &ctlr->vec[nelem(ctlr->vec)]; vec++, status >>= 1){ if((status & 1) != 0 && vec->f != nil) (*vec->f)(ureg, vec->a); } iunlock(ctlr); } static void pciintrinit(Ctlr *ctlr) { ctlr->dbi[MSI_CTRL_INT_0_EN] = 0; ctlr->dbi[MSI_CTRL_INT_0_MASK] = 0; ctlr->dbi[MSI_CTRL_INT_0_STATUS] = -1; ctlr->dbi[MSI_CTRL_ADDR] = MSI_TARGET_ADDR; ctlr->dbi[MSI_CTRL_UPPER_ADDR] = MSI_TARGET_ADDR >> 32; intrenable(ctlr->irq+0, pciinterrupt, ctlr, BUSUNKNOWN, "pci"); intrenable(ctlr->irq+1, pciinterrupt, ctlr, BUSUNKNOWN, "pci"); intrenable(ctlr->irq+2, pciinterrupt, ctlr, BUSUNKNOWN, "pci"); intrenable(ctlr->irq+3, pciinterrupt, ctlr, BUSUNKNOWN, "pci"); ctlr->dbi[MSI_CAP_ID] |= PCI_MSI_ENABLE; } void pciintrenable(int tbdf, void (*f)(Ureg*, void*), void *a) { Ctlr *ctlr; Intvec *vec; Pcidev *p; ctlr = bus2ctlr(BUSBNO(tbdf)); if(ctlr == nil){ print("pciintrenable: %T: unknown controller\n", tbdf); return; } if((p = pcimatchtbdf(tbdf)) == nil){ print("pciintrenable: %T: unknown device\n", tbdf); return; } if(pcimsidisable(p) < 0){ print("pciintrenable: %T: device doesnt support vec\n", tbdf); return; } ilock(ctlr); for(vec = ctlr->vec; vec < &ctlr->vec[nelem(ctlr->vec)]; vec++){ if(vec->p == p){ ctlr->dbi[MSI_CTRL_INT_0_EN] &= ~(1 << (vec - ctlr->vec)); vec->p = nil; break; } } for(vec = ctlr->vec; vec < &ctlr->vec[nelem(ctlr->vec)]; vec++){ if(vec->p == nil){ vec->p = p; vec->a = a; vec->f = f; break; } } iunlock(ctlr); if(vec >= &ctlr->vec[nelem(ctlr->vec)]){ print("pciintrenable: %T: out of isr slots\n", tbdf); return; } ctlr->dbi[MSI_CTRL_INT_0_EN] |= (1 << (vec - ctlr->vec)); pcimsienable(p, MSI_TARGET_ADDR, vec - ctlr->vec); } void pciintrdisable(int tbdf, void (*f)(Ureg*, void*), void *a) { Ctlr *ctlr; Intvec *vec; ctlr = bus2ctlr(BUSBNO(tbdf)); if(ctlr == nil){ print("pciintrenable: %T: unknown controller\n", tbdf); return; } ilock(ctlr); for(vec = ctlr->vec; vec < &ctlr->vec[nelem(ctlr->vec)]; vec++){ if(vec->p == nil) continue; if(vec->p->tbdf == tbdf && vec->f == f && vec->a == a){ ctlr->dbi[MSI_CTRL_INT_0_EN] &= ~(1 << (vec - ctlr->vec)); vec->f = nil; vec->a = nil; vec->p = nil; break; } } iunlock(ctlr); } static void rootinit(Ctlr *ctlr) { uvlong base; ulong ioa; iatuinit(ctlr); ctlr->cfg = vmap(ctlr->cfg_base, ctlr->cfg_size); if(ctlr->cfg == nil) return; ctlr->dbi[MISC_CONTROL_1] |= DBI_RO_WR_EN; /* bus number */ ctlr->dbi[PciPBN/4] &= ~0xFFFFFF; ctlr->dbi[PciPBN/4] |= ctlr->bno | (ctlr->bno+1)<<8 | ctlr->ubn<<16; /* command */ ctlr->dbi[PciPCR/4] &= ~0xFFFF; ctlr->dbi[PciPCR/4] |= IOen | MEMen | MASen | SErrEn; /* device class/subclass */ ctlr->dbi[PciRID/4] &= ~0xFFFF0000; ctlr->dbi[PciRID/4] |= 0x06040000; ctlr->dbi[PciBAR0/4] = 0; ctlr->dbi[PciBAR1/4] = 0; ctlr->dbi[MISC_CONTROL_1] &= ~DBI_RO_WR_EN; ctlr->ubn = pciscan(ctlr->bno, &ctlr->bridge, nil); if(ctlr->bridge == nil || ctlr->bridge->bridge == nil) return; pciintrinit(ctlr); iatucfg(ctlr, 1<<IATU_INDEX_SHIFT, CTRL_1_TYPE_IO, ctlr->io_base, ctlr->io_base, ctlr->io_size); iatucfg(ctlr, 2<<IATU_INDEX_SHIFT, CTRL_1_TYPE_MEM, ctlr->mem_base, ctlr->mem_base, ctlr->mem_size); ioa = ctlr->io_base; base = ctlr->mem_base; pcibusmap(ctlr->bridge, &base, &ioa, 1); pcihinv(ctlr->bridge); } static void pcicfginit(void) { fmtinstall('T', tbdffmt); rootinit(&ctlrs[0]); rootinit(&ctlrs[1]); } /* undocumented magic to avoid interference between lcdif and pcie */ static void qosmagic(void) { static u32int *qosc = (u32int*)(VIRTIO + 0x7f0000); /* unlock */ qosc[0x0000/4] = 0x0; qosc[0x0000/4] = 0x1; qosc[0x0060/4] = 0x0; /* pci1 */ qosc[0x1000/4] = 0x0; qosc[0x1000/4] = 0x1; qosc[0x1050/4] = 0x01010100; qosc[0x1060/4] = 0x01010100; qosc[0x1070/4] = 0x01010100; qosc[0x1000/4] = 0x1; /* pcie2 */ qosc[0x2000/4] = 0x0; qosc[0x2000/4] = 0x1; qosc[0x2050/4] = 0x01010100; qosc[0x2060/4] = 0x01010100; qosc[0x2070/4] = 0x01010100; qosc[0x2000/4] = 0x1; } enum { SRC_PCIEPHY_RCR = 0x2C/4, SRC_PCIE2_RCR = 0x48/4, PCIE_CTRL_APP_XFER_PENDING = 1<<16, PCIE_CTRL_APP_UNLOCK_MSG = 1<<15, PCIE_CTRL_SYS_INT = 1<<14, PCIE_CTRL_CFG_L1_AUX = 1<<12, PCIE_CTRL_APPS_TURNOFF = 1<<11, PCIE_CTRL_APPS_PME = 1<<10, PCIE_CTRL_APPS_EXIT = 1<<9, PCIE_CTRL_APPS_ENTER = 1<<8, PCIE_CTRL_APPS_READY = 1<<7, PCIE_CTRL_APPS_EN = 1<<6, PCIE_CTRL_APPS_RST = 1<<5, PCIE_CTRL_APPS_CLK_REQ = 1<<4, PCIE_PERST = 1<<3, PCIE_BTN = 1<<2, PCIE_G_RST = 1<<1, PCIE_PHY_POWER_ON_RESET_N = 1<<0, }; static u32int *resetc = (u32int*)(VIRTIO + 0x390000); void pciimxlink(void) { resetc[SRC_PCIEPHY_RCR] |= PCIE_BTN | PCIE_G_RST; resetc[SRC_PCIE2_RCR] |= PCIE_BTN | PCIE_G_RST; resetc[SRC_PCIEPHY_RCR] |= PCIE_CTRL_APPS_EN; resetc[SRC_PCIE2_RCR] |= PCIE_CTRL_APPS_EN; setclkgate("pcie_clk_rst.auxclk", 0); setclkgate("pcie2_clk_rst.auxclk", 0); iomuxpad("pad_ecspi1_mosi", "gpio5_io07", "~LVTTL ~HYS ~PUE ~ODE FAST 45_OHM"); iomuxpad("pad_sai5_rxd2", "gpio3_io23", "~LVTTL ~HYS ~PUE ~ODE FAST 45_OHM"); gpioout(GPIO_PIN(5, 7), 0); gpioout(GPIO_PIN(3, 23), 0); powerup("pcie"); powerup("pcie2"); /* configure monitor CLK2 output internal reference clock for PCIE1 */ setclkrate("ccm_analog_pllout", "system_pll1_clk", 100*Mhz); delay(10); /* PCIE1_REF_USE_PAD=0 */ iomuxgpr(14, 0<<9, 1<<9); /* PCIE2_REF_USE_PAD=1 */ iomuxgpr(16, 1<<9, 1<<9); /* PCIE1_CTRL_DEVICE_TYPE=ROOT, PCIE2_CTRL_DEVICE_TYPE=ROOT */ iomuxgpr(12, 4<<12 | 4<<8, 0xF<<12 | 0xF<<8); setclkrate("ccm_pcie1_ctrl_clk_root", "system_pll2_div4", 250*Mhz); setclkrate("ccm_pcie2_ctrl_clk_root", "system_pll2_div4", 250*Mhz); setclkrate("pcie_clk_rst.auxclk", "system_pll2_div10", 100*Mhz); setclkrate("pcie2_clk_rst.auxclk", "system_pll2_div10", 100*Mhz); setclkrate("pcie_phy.ref_alt_clk_p", "system_pll2_div10", 100*Mhz); setclkrate("pcie2_phy.ref_alt_clk_p", "system_pll2_div10", 100*Mhz); setclkgate("pcie_clk_rst.auxclk", 1); setclkgate("pcie2_clk_rst.auxclk", 1); /* PCIE1_CLKREQ_B_OVERRIDE=0 PCIE1_CLKREQ_B_OVERRIDE_EN=1 */ iomuxgpr(14, 1<<10, 3<<10); /* PCIE2_CLKREQ_B_OVERRIDE=0 PCIE2_CLKREQ_B_OVERRIDE_EN=1 */ iomuxgpr(16, 1<<10, 3<<10); delay(100); gpioout(GPIO_PIN(5, 7), 1); gpioout(GPIO_PIN(3, 23), 1); delay(1); resetc[SRC_PCIEPHY_RCR] &= ~(PCIE_BTN | PCIE_G_RST); resetc[SRC_PCIE2_RCR] &= ~(PCIE_BTN | PCIE_G_RST); pcicfginit(); qosmagic(); }