PCI 16x50 UART Controller, O2 Enablement (#39)

[lunaix-os.git] / lunaix-os / hal / ahci / ahci.c

diff --git a/lunaix-os/hal/ahci/ahci.c b/lunaix-os/hal/ahci/ahci.c
index 74ba92885c61cc9674a4b33c0dffaeb03de10e6b..82375e0a9dda85670435f1e2c21d4e09ea40b392 100644 (file)
--- a/lunaix-os/hal/ahci/ahci.c
+++ b/lunaix-os/hal/ahci/ahci.c
@@ -12,29 +12,43 @@
 #include <hal/ahci/hba.h>
 #include <hal/ahci/sata.h>
 #include <hal/ahci/scsi.h>
-
 #include <hal/pci.h>
+
+#include <sys/port_io.h>
+
 #include <klibc/string.h>
 #include <lunaix/block.h>
-#include <lunaix/isrm.h>
+#include <lunaix/generic/isrm.h>
 #include <lunaix/mm/mmio.h>
-#include <lunaix/mm/pmm.h>
 #include <lunaix/mm/valloc.h>
-#include <lunaix/mm/vmm.h>
+#include <lunaix/mm/page.h>
 #include <lunaix/spike.h>
 #include <lunaix/syslog.h>
 
 #define HBA_FIS_SIZE 256
 #define HBA_CLB_SIZE 1024
 
+#define HBA_MY_IE (HBA_PxINTR_DHR | HBA_PxINTR_TFE | HBA_PxINTR_OF)
+#define AHCI_DEVCLASS DEVCLASS(DEVIF_PCI, DEVFN_STORAGE, DEV_SATA)
+
 // #define DO_HBA_FULL_RESET
 
 LOG_MODULE("AHCI")
 
-static struct ahci_hba hba;
+DEFINE_LLIST(ahcis);
 
-void
-__ahci_hba_isr(const isr_param* param);
+static char sata_ifs[][20] = { "Not detected",
+                               "SATA I (1.5Gbps)",
+                               "SATA II (3.0Gbps)",
+                               "SATA III (6.0Gbps)" };
+
+static struct devclass ahci_class = AHCI_DEVCLASS;
+
+extern void
+ahci_fsexport(struct block_dev* bdev, void* fs_node);
+
+extern void
+__ahci_blkio_handler(struct blkio_req* req);
 
 int
 ahci_init_device(struct hba_port* port);
@@ -42,20 +56,8 @@ ahci_init_device(struct hba_port* port);
 void
 achi_register_ops(struct hba_port* port);
 
-unsigned int
-ahci_get_port_usage()
-{
-    return hba.ports_bmp;
-}
-
-struct hba_port*
-ahci_get_port(unsigned int index)
-{
-    if (index >= 32) {
-        return 0;
-    }
-    return hba.ports[index];
-}
+void
+ahci_register_device(struct hba_device* hbadev);
 
 void
 __hba_reset_port(hba_reg_t* port_reg)
@@ -69,53 +71,46 @@ __hba_reset_port(hba_reg_t* port_reg)
     }
     // 如果port未响应，则继续执行重置
     port_reg[HBA_RPxSCTL] = (port_reg[HBA_RPxSCTL] & ~0xf) | 1;
-    io_delay(100000); //等待至少一毫秒，差不多就行了
+    port_delay(100000); // 等待至少一毫秒，差不多就行了
     port_reg[HBA_RPxSCTL] &= ~0xf;
 }
 
-void
-ahci_init()
+struct ahci_driver*
+ahci_driver_init(struct ahci_driver_param* param)
 {
-    struct pci_device* ahci_dev = pci_get_device_by_class(AHCI_HBA_CLASS);
-    assert_msg(ahci_dev, "AHCI: Not found.");
-
-    struct pci_base_addr* bar6 = &ahci_dev->bar[5];
-    assert_msg(bar6->type & BAR_TYPE_MMIO, "AHCI: BAR#6 is not MMIO.");
-
-    pci_reg_t cmd = pci_read_cspace(ahci_dev->cspace_base, PCI_REG_STATUS_CMD);
-
-    // 禁用传统中断（因为我们使用MSI），启用MMIO访问，允许PCI设备间访问
-    cmd |= (PCI_RCMD_MM_ACCESS | PCI_RCMD_DISABLE_INTR | PCI_RCMD_BUS_MASTER);
+    struct ahci_driver* ahci_drv = vzalloc(sizeof(*ahci_drv));
+    struct ahci_hba* hba = &ahci_drv->hba;
+    ahci_drv->id = param->ahci_iv;
 
-    pci_write_cspace(ahci_dev->cspace_base, PCI_REG_STATUS_CMD, cmd);
+    isrm_set_payload(param->ahci_iv, (ptr_t)&ahcis);
 
-    pci_setup_msi(ahci_dev, isrm_ivexalloc(__ahci_hba_isr));
+    llist_append(&ahcis, &ahci_drv->ahci_drvs);
 
-    memset(&hba, 0, sizeof(hba));
-
-    hba.base = (hba_reg_t*)ioremap(bar6->start, bar6->size);
+    hba->base = (hba_reg_t*)ioremap(param->mmio_base, param->mmio_size);
 
 #ifdef DO_HBA_FULL_RESET
     // 重置HBA
-    hba.base[HBA_RGHC] |= HBA_RGHC_RESET;
-    wait_until(!(hba.base[HBA_RGHC] & HBA_RGHC_RESET));
+    hba->base[HBA_RGHC] |= HBA_RGHC_RESET;
+    wait_until(!(hba->base[HBA_RGHC] & HBA_RGHC_RESET));
 #endif
 
     // 启用AHCI工作模式，启用中断
-    hba.base[HBA_RGHC] |= HBA_RGHC_ACHI_ENABLE;
-    hba.base[HBA_RGHC] |= HBA_RGHC_INTR_ENABLE;
+    hba->base[HBA_RGHC] |= HBA_RGHC_ACHI_ENABLE;
+    hba->base[HBA_RGHC] |= HBA_RGHC_INTR_ENABLE;
 
     // As per section 3.1.1, this is 0 based value.
-    hba_reg_t cap = hba.base[HBA_RCAP];
-    hba_reg_t pmap = hba.base[HBA_RPI];
+    hba_reg_t cap = hba->base[HBA_RCAP];
+    hba_reg_t pmap = hba->base[HBA_RPI];
 
-    hba.ports_num = (cap & 0x1f) + 1;  // CAP.PI
-    hba.cmd_slots = (cap >> 8) & 0x1f; // CAP.NCS
-    hba.version = hba.base[HBA_RVER];
-    hba.ports_bmp = pmap;
+    hba->ports_num = (cap & 0x1f) + 1;  // CAP.PI
+    hba->cmd_slots = (cap >> 8) & 0x1f; // CAP.NCS
+    hba->version = hba->base[HBA_RVER];
+    hba->ports_bmp = pmap;
 
     /* ------ HBA端口配置 ------ */
-    uintptr_t clb_pg_addr, fis_pg_addr, clb_pa, fis_pa;
+    ptr_t clb_pg_addr = 0, fis_pg_addr = 0;
+    ptr_t clb_pa = 0, fis_pa = 0;
+
     for (size_t i = 0, fisp = 0, clbp = 0; i < 32;
          i++, pmap >>= 1, fisp = (fisp + 1) % 16, clbp = (clbp + 1) % 4) {
         if (!(pmap & 0x1)) {
@@ -125,40 +120,46 @@ ahci_init()
         struct hba_port* port =
           (struct hba_port*)valloc(sizeof(struct hba_port));
         hba_reg_t* port_regs =
-          (hba_reg_t*)(&hba.base[HBA_RPBASE + i * HBA_RPSIZE]);
+          (hba_reg_t*)(&hba->base[HBA_RPBASE + i * HBA_RPSIZE]);
 
 #ifndef DO_HBA_FULL_RESET
         __hba_reset_port(port_regs);
 #endif
 
+        struct leaflet* leaflet;
         if (!clbp) {
             // 每页最多4个命令队列
-            clb_pa = pmm_alloc_page(KERNEL_PID, PP_FGLOCKED);
-            clb_pg_addr = ioremap(clb_pa, 0x1000);
-            memset(clb_pg_addr, 0, 0x1000);
+            leaflet = alloc_leaflet(0);
+            clb_pa = leaflet_addr(leaflet);
+            clb_pg_addr = vmap(leaflet, KERNEL_DATA);
+            memset((void*)clb_pg_addr, 0, 0x1000);
         }
         if (!fisp) {
             // 每页最多16个FIS
-            fis_pa = pmm_alloc_page(KERNEL_PID, PP_FGLOCKED);
-            fis_pg_addr = ioremap(fis_pa, 0x1000);
-            memset(fis_pg_addr, 0, 0x1000);
+            leaflet = alloc_leaflet(0);
+            fis_pa = leaflet_addr(leaflet);
+            fis_pg_addr = vmap(leaflet, KERNEL_DATA);
+            memset((void*)fis_pg_addr, 0, 0x1000);
         }
 
         /* 重定向CLB与FIS */
         port_regs[HBA_RPxCLB] = clb_pa + clbp * HBA_CLB_SIZE;
         port_regs[HBA_RPxFB] = fis_pa + fisp * HBA_FIS_SIZE;
 
-        *port = (struct hba_port){ .regs = port_regs,
-                                   .ssts = port_regs[HBA_RPxSSTS],
-                                   .cmdlst = clb_pg_addr + clbp * HBA_CLB_SIZE,
-                                   .fis = fis_pg_addr + fisp * HBA_FIS_SIZE };
+        *port = (struct hba_port){
+            .regs = port_regs,
+            .ssts = port_regs[HBA_RPxSSTS],
+            .cmdlst = (struct hba_cmdh*)(clb_pg_addr + clbp * HBA_CLB_SIZE),
+            .fis = (void*)(fis_pg_addr + fisp * HBA_FIS_SIZE),
+            .hba = hba
+        };
 
         /* 初始化端口，并置于就绪状态 */
         port_regs[HBA_RPxCI] = 0;
 
         hba_clear_reg(port_regs[HBA_RPxSERR]);
 
-        hba.ports[i] = port;
+        hba->ports[i] = port;
 
         if (!HBA_RPxSSTS_IF(port->ssts)) {
             continue;
@@ -169,71 +170,34 @@ ahci_init()
         port_regs[HBA_RPxCMD] |= HBA_PxCMD_ST;
 
         if (!ahci_init_device(port)) {
-            kprintf(KERROR "init fail: 0x%x@p%d\n", port->regs[HBA_RPxSIG], i);
+            ERROR("init fail: 0x%x@p%d", port->regs[HBA_RPxSIG], i);
             continue;
         }
 
-        kprintf(KINFO "sata%d: %s, sector_size=%dB, sector=%d\n",
+        struct hba_device* hbadev = port->device;
+        kprintf(KINFO "sata%d: %s, blk_size=%d, blk=0..%d",
                 i,
-                port->device->model,
-                port->device->block_size,
-                (uint32_t)port->device->max_lba);
+                hbadev->model,
+                hbadev->block_size,
+                (u32_t)hbadev->max_lba);
 
-        block_mount_disk(port->device);
+        ahci_register_device(hbadev);
     }
-}
 
-char sata_ifs[][20] = { "Not detected",
-                        "SATA I (1.5Gbps)",
-                        "SATA II (3.0Gbps)",
-                        "SATA III (6.0Gbps)" };
-
-void
-__ahci_hba_isr(const isr_param* param)
-{
-    // TODO: clear the interrupt status
-    // TODO: I/O-operation scheduler should be here
-    // kprintf(KDEBUG "HBA INTR\n");
+    return ahci_drv;
 }
 
 void
-ahci_list_device()
+ahci_register_device(struct hba_device* hbadev)
 {
-    kprintf(KINFO "Version: %x; Ports: %d; Slot: %d\n",
-            hba.version,
-            hba.ports_num,
-            hba.cmd_slots);
-    struct hba_port* port;
-    for (size_t i = 0; i < 32; i++) {
-        port = hba.ports[i];
-
-        // 愚蠢的gcc似乎认为 struct hba_port* 不可能为空
-        //  所以将这个非常关键的if给优化掉了。
-        //  这里将指针强制转换为整数，欺骗gcc :)
-        if ((uintptr_t)port == 0) {
-            continue;
-        }
+    struct block_dev* bdev =
+      block_alloc_dev(hbadev->model, hbadev, __ahci_blkio_handler);
 
-        int device_state = HBA_RPxSSTS_IF(port->ssts);
-
-        kprintf("\t Port %d: %s (%x)\n",
-                i,
-                &sata_ifs[device_state],
-                port->device->flags);
+    bdev->end_lba = hbadev->max_lba;
+    bdev->blk_size = hbadev->block_size;
+    bdev->class = &ahci_class;
 
-        struct hba_device* dev_info = port->device;
-        if (!device_state || !dev_info) {
-            continue;
-        }
-        kprintf("\t\t capacity: %d KiB\n",
-                (dev_info->max_lba * dev_info->block_size) >> 10);
-        kprintf("\t\t block size: %dB\n", dev_info->block_size);
-        kprintf("\t\t block/sector: %d\n", dev_info->block_per_sec);
-        kprintf("\t\t alignment: %dB\n", dev_info->alignment_offset);
-        kprintf("\t\t capabilities: %x\n", dev_info->capabilities);
-        kprintf("\t\t model: %s\n", &dev_info->model);
-        kprintf("\t\t serial: %s\n", &dev_info->serial_num);
-    }
+    block_mount(bdev, ahci_fsexport);
 }
 
 int
@@ -242,17 +206,17 @@ __get_free_slot(struct hba_port* port)
     hba_reg_t pxsact = port->regs[HBA_RPxSACT];
     hba_reg_t pxci = port->regs[HBA_RPxCI];
     hba_reg_t free_bmp = pxsact | pxci;
-    uint32_t i = 0;
-    for (; i <= hba.cmd_slots && (free_bmp & 0x1); i++, free_bmp >>= 1)
+    u32_t i = 0;
+    for (; i <= port->hba->cmd_slots && (free_bmp & 0x1); i++, free_bmp >>= 1)
         ;
-    return i | -(i > hba.cmd_slots);
+    return i | -(i > port->hba->cmd_slots);
 }
 
 void
 sata_create_fis(struct sata_reg_fis* cmd_fis,
-                uint8_t command,
-                uint64_t lba,
-                uint16_t sector_count)
+                u8_t command,
+                lba_t lba,
+                u16_t sector_count)
 {
     cmd_fis->head.type = SATA_REG_FIS_H2D;
     cmd_fis->head.options = SATA_REG_FIS_COMMAND;
@@ -270,16 +234,46 @@ sata_create_fis(struct sata_reg_fis* cmd_fis,
     cmd_fis->count = sector_count;
 }
 
+int
+hba_bind_sbuf(struct hba_cmdh* cmdh, struct hba_cmdt* cmdt, struct membuf mbuf)
+{
+    assert_msg(mbuf.size <= 0x400000U, "HBA: Buffer too big");
+    cmdh->prdt_len = 1;
+    cmdt->entries[0] =
+      (struct hba_prdte){ .data_base = vmm_v2p((ptr_t)mbuf.buffer),
+                          .byte_count = mbuf.size - 1 };
+
+    return 0;
+}
+
+int
+hba_bind_vbuf(struct hba_cmdh* cmdh, struct hba_cmdt* cmdt, struct vecbuf* vbuf)
+{
+    size_t i = 0;
+    struct vecbuf* pos = vbuf;
+
+    do {
+        assert_msg(i < HBA_MAX_PRDTE, "HBA: Too many PRDTEs");
+        assert_msg(pos->buf.size <= 0x400000U, "HBA: Buffer too big");
+
+        cmdt->entries[i++] =
+          (struct hba_prdte){ .data_base = vmm_v2p((ptr_t)pos->buf.buffer),
+                              .byte_count = pos->buf.size - 1 };
+        pos = list_entry(pos->components.next, struct vecbuf, components);
+    } while (pos != vbuf);
+
+    cmdh->prdt_len = i + 1;
+
+    return 0;
+}
+
 int
 hba_prepare_cmd(struct hba_port* port,
                 struct hba_cmdt** cmdt,
-                struct hba_cmdh** cmdh,
-                void* buffer,
-                unsigned int size)
+                struct hba_cmdh** cmdh)
 {
     int slot = __get_free_slot(port);
     assert_msg(slot >= 0, "HBA: No free slot");
-    assert_msg(size <= 0x400000, "HBA: buffer too big");
 
     // 构建命令头（Command Header）和命令表（Command Table）
     struct hba_cmdh* cmd_header = &port->cmdlst[slot];
@@ -288,17 +282,10 @@ hba_prepare_cmd(struct hba_port* port,
     memset(cmd_header, 0, sizeof(*cmd_header));
 
     // 将命令表挂到命令头上
-    cmd_header->cmd_table_base = vmm_v2p(cmd_table);
+    cmd_header->cmd_table_base = vmm_v2p((ptr_t)cmd_table);
     cmd_header->options =
       HBA_CMDH_FIS_LEN(sizeof(struct sata_reg_fis)) | HBA_CMDH_CLR_BUSY;
 
-    if (buffer) {
-        cmd_header->prdt_len = 1;
-        cmd_table->entries[0] =
-          (struct hba_prdte){ .data_base = vmm_v2p(buffer),
-                              .byte_count = size - 1 };
-    }
-
     *cmdh = cmd_header;
     *cmdt = cmd_table;
 
@@ -313,15 +300,18 @@ ahci_init_device(struct hba_port* port)
     struct hba_cmdh* cmd_header;
 
     // mask DHR interrupt
-    port->regs[HBA_RPxIE] &= ~HBA_PxINTR_DHR;
+    port->regs[HBA_RPxIE] &= ~HBA_MY_IE;
 
     // 预备DMA接收缓存，用于存放HBA传回的数据
-    uint16_t* data_in = (uint16_t*)valloc_dma(512);
+    u16_t* data_in = (u16_t*)valloc_dma(512);
 
-    int slot = hba_prepare_cmd(port, &cmd_table, &cmd_header, data_in, 512);
+    int slot = hba_prepare_cmd(port, &cmd_table, &cmd_header);
+    hba_bind_sbuf(
+      cmd_header, cmd_table, (struct membuf){ .buffer = data_in, .size = 512 });
 
     port->device = vzalloc(sizeof(struct hba_device));
     port->device->port = port;
+    port->device->hba = port->hba;
 
     // 在命令表中构建命令FIS
     struct sata_reg_fis* cmd_fis = (struct sata_reg_fis*)cmd_table->command_fis;
@@ -396,11 +386,11 @@ ahci_init_device(struct hba_port* port)
         goto fail;
     }
 
-    scsi_parse_capacity(port->device, (uint32_t*)data_in);
+    scsi_parse_capacity(port->device, (u32_t*)data_in);
 
 done:
     // reset interrupt status and unmask D2HR interrupt
-    port->regs[HBA_RPxIE] |= HBA_PxINTR_DHR;
+    port->regs[HBA_RPxIE] |= HBA_MY_IE;
     achi_register_ops(port);
 
     vfree_dma(data_in);
@@ -409,7 +399,7 @@ done:
     return 1;
 
 fail:
-    port->regs[HBA_RPxIE] |= HBA_PxINTR_DHR;
+    port->regs[HBA_RPxIE] |= HBA_MY_IE;
     vfree_dma(data_in);
     vfree_dma(cmd_table);
 
@@ -429,10 +419,8 @@ achi_register_ops(struct hba_port* port)
 {
     port->device->ops.identify = ahci_identify_device;
     if (!(port->device->flags & HBA_DEV_FATAPI)) {
-        port->device->ops.read_buffer = sata_read_buffer;
-        port->device->ops.write_buffer = sata_write_buffer;
+        port->device->ops.submit = sata_submit;
     } else {
-        port->device->ops.read_buffer = scsi_read_buffer;
-        port->device->ops.write_buffer = scsi_write_buffer;
+        port->device->ops.submit = scsi_submit;
     }
-}
\ No newline at end of file
+}