Commit 064ffc7c authored by Scott Branden's avatar Scott Branden Committed by Greg Kroah-Hartman

misc: bcm-vk: add autoload support

Add support to load and boot images on card automatically.
The kernel module parameter auto_load can be passed in as false to disable
such support on probe.
As well, nr_scratch_pages can be specified to allocate more or less scratch
memory on init as needed for desired card operation.
Co-developed-by: default avatarDesmond Yan <desmond.yan@broadcom.com>
Co-developed-by: default avatarJames Hu <james.hu@broadcom.com>
Acked-by: default avatarOlof Johansson <olof@lixom.net>
Signed-off-by: default avatarDesmond Yan <desmond.yan@broadcom.com>
Signed-off-by: default avatarJames Hu <james.hu@broadcom.com>
Signed-off-by: default avatarScott Branden <scott.branden@broadcom.com>
Link: https://lore.kernel.org/r/20210120175827.14820-4-scott.branden@broadcom.comSigned-off-by: default avatarGreg Kroah-Hartman <gregkh@linuxfoundation.org>
parent 522f6926
...@@ -6,10 +6,187 @@ ...@@ -6,10 +6,187 @@
#ifndef BCM_VK_H #ifndef BCM_VK_H
#define BCM_VK_H #define BCM_VK_H
#include <linux/firmware.h>
#include <linux/pci.h> #include <linux/pci.h>
#include <linux/sched/signal.h>
#define DRV_MODULE_NAME "bcm-vk" #define DRV_MODULE_NAME "bcm-vk"
/*
* Load Image is completed in two stages:
*
* 1) When the VK device boot-up, M7 CPU runs and executes the BootROM.
* The Secure Boot Loader (SBL) as part of the BootROM will run
* to open up ITCM for host to push BOOT1 image.
* SBL will authenticate the image before jumping to BOOT1 image.
*
* 2) Because BOOT1 image is a secured image, we also called it the
* Secure Boot Image (SBI). At second stage, SBI will initialize DDR
* and wait for host to push BOOT2 image to DDR.
* SBI will authenticate the image before jumping to BOOT2 image.
*
*/
/* Location of registers of interest in BAR0 */
/* Request register for Secure Boot Loader (SBL) download */
#define BAR_CODEPUSH_SBL 0x400
/* Start of ITCM */
#define CODEPUSH_BOOT1_ENTRY 0x00400000
#define CODEPUSH_MASK 0xfffff000
#define CODEPUSH_BOOTSTART BIT(0)
/* Boot Status register */
#define BAR_BOOT_STATUS 0x404
#define SRAM_OPEN BIT(16)
#define DDR_OPEN BIT(17)
/* Firmware loader progress status definitions */
#define FW_LOADER_ACK_SEND_MORE_DATA BIT(18)
#define FW_LOADER_ACK_IN_PROGRESS BIT(19)
#define FW_LOADER_ACK_RCVD_ALL_DATA BIT(20)
/* Boot1/2 is running in standalone mode */
#define BOOT_STDALONE_RUNNING BIT(21)
/* definitions for boot status register */
#define BOOT_STATE_MASK (0xffffffff & \
~(FW_LOADER_ACK_SEND_MORE_DATA | \
FW_LOADER_ACK_IN_PROGRESS | \
BOOT_STDALONE_RUNNING))
#define BOOT_ERR_SHIFT 4
#define BOOT_ERR_MASK (0xf << BOOT_ERR_SHIFT)
#define BOOT_PROG_MASK 0xf
#define BROM_STATUS_NOT_RUN 0x2
#define BROM_NOT_RUN (SRAM_OPEN | BROM_STATUS_NOT_RUN)
#define BROM_STATUS_COMPLETE 0x6
#define BROM_RUNNING (SRAM_OPEN | BROM_STATUS_COMPLETE)
#define BOOT1_STATUS_COMPLETE 0x6
#define BOOT1_RUNNING (DDR_OPEN | BOOT1_STATUS_COMPLETE)
#define BOOT2_STATUS_COMPLETE 0x6
#define BOOT2_RUNNING (FW_LOADER_ACK_RCVD_ALL_DATA | \
BOOT2_STATUS_COMPLETE)
/* Boot request for Secure Boot Image (SBI) */
#define BAR_CODEPUSH_SBI 0x408
/* 64M mapped to BAR2 */
#define CODEPUSH_BOOT2_ENTRY 0x60000000
#define BAR_CARD_STATUS 0x410
#define BAR_BOOT1_STDALONE_PROGRESS 0x420
#define BOOT1_STDALONE_SUCCESS (BIT(13) | BIT(14))
#define BOOT1_STDALONE_PROGRESS_MASK BOOT1_STDALONE_SUCCESS
#define BAR_METADATA_VERSION 0x440
#define BAR_OS_UPTIME 0x444
#define BAR_CHIP_ID 0x448
#define MAJOR_SOC_REV(_chip_id) (((_chip_id) >> 20) & 0xf)
#define BAR_CARD_TEMPERATURE 0x45c
#define BAR_CARD_VOLTAGE 0x460
#define BAR_CARD_ERR_LOG 0x464
#define BAR_CARD_ERR_MEM 0x468
#define BAR_CARD_PWR_AND_THRE 0x46c
#define BAR_CARD_STATIC_INFO 0x470
#define BAR_INTF_VER 0x47c
#define BAR_INTF_VER_MAJOR_SHIFT 16
#define BAR_INTF_VER_MASK 0xffff
/*
* major and minor semantic version numbers supported
* Please update as required on interface changes
*/
#define SEMANTIC_MAJOR 1
#define SEMANTIC_MINOR 0
/*
* first door bell reg, ie for queue = 0. Only need the first one, as
* we will use the queue number to derive the others
*/
#define VK_BAR0_REGSEG_DB_BASE 0x484
#define VK_BAR0_REGSEG_DB_REG_GAP 8 /*
* DB register gap,
* DB1 at 0x48c and DB2 at 0x494
*/
/* reset register and specific values */
#define VK_BAR0_RESET_DB_NUM 3
#define VK_BAR0_RESET_DB_SOFT 0xffffffff
#define VK_BAR0_RESET_DB_HARD 0xfffffffd
#define VK_BAR0_RESET_RAMPDUMP 0xa0000000
#define VK_BAR0_Q_DB_BASE(q_num) (VK_BAR0_REGSEG_DB_BASE + \
((q_num) * VK_BAR0_REGSEG_DB_REG_GAP))
#define VK_BAR0_RESET_DB_BASE (VK_BAR0_REGSEG_DB_BASE + \
(VK_BAR0_RESET_DB_NUM * VK_BAR0_REGSEG_DB_REG_GAP))
#define BAR_BOOTSRC_SELECT 0xc78
/* BOOTSRC definitions */
#define BOOTSRC_SOFT_ENABLE BIT(14)
/* Card OS Firmware version size */
#define BAR_FIRMWARE_TAG_SIZE 50
#define FIRMWARE_STATUS_PRE_INIT_DONE 0x1f
/*
* BAR1
*/
/* BAR1 message q definition */
/* indicate if msgq ctrl in BAR1 is populated */
#define VK_BAR1_MSGQ_DEF_RDY 0x60c0
/* ready marker value for the above location, normal boot2 */
#define VK_BAR1_MSGQ_RDY_MARKER 0xbeefcafe
/* ready marker value for the above location, normal boot2 */
#define VK_BAR1_DIAG_RDY_MARKER 0xdeadcafe
/* number of msgqs in BAR1 */
#define VK_BAR1_MSGQ_NR 0x60c4
/* BAR1 queue control structure offset */
#define VK_BAR1_MSGQ_CTRL_OFF 0x60c8
/* BAR1 ucode and boot1 version tag */
#define VK_BAR1_UCODE_VER_TAG 0x6170
#define VK_BAR1_BOOT1_VER_TAG 0x61b0
#define VK_BAR1_VER_TAG_SIZE 64
/* Memory to hold the DMA buffer memory address allocated for boot2 download */
#define VK_BAR1_DMA_BUF_OFF_HI 0x61e0
#define VK_BAR1_DMA_BUF_OFF_LO (VK_BAR1_DMA_BUF_OFF_HI + 4)
#define VK_BAR1_DMA_BUF_SZ (VK_BAR1_DMA_BUF_OFF_HI + 8)
/* Scratch memory allocated on host for VK */
#define VK_BAR1_SCRATCH_OFF_HI 0x61f0
#define VK_BAR1_SCRATCH_OFF_LO (VK_BAR1_SCRATCH_OFF_HI + 4)
#define VK_BAR1_SCRATCH_SZ_ADDR (VK_BAR1_SCRATCH_OFF_HI + 8)
#define VK_BAR1_SCRATCH_DEF_NR_PAGES 32
/* BAR1 DAUTH info */
#define VK_BAR1_DAUTH_BASE_ADDR 0x6200
#define VK_BAR1_DAUTH_STORE_SIZE 0x48
#define VK_BAR1_DAUTH_VALID_SIZE 0x8
#define VK_BAR1_DAUTH_MAX 4
#define VK_BAR1_DAUTH_STORE_ADDR(x) \
(VK_BAR1_DAUTH_BASE_ADDR + \
(x) * (VK_BAR1_DAUTH_STORE_SIZE + VK_BAR1_DAUTH_VALID_SIZE))
#define VK_BAR1_DAUTH_VALID_ADDR(x) \
(VK_BAR1_DAUTH_STORE_ADDR(x) + VK_BAR1_DAUTH_STORE_SIZE)
/* BAR1 SOTP AUTH and REVID info */
#define VK_BAR1_SOTP_REVID_BASE_ADDR 0x6340
#define VK_BAR1_SOTP_REVID_SIZE 0x10
#define VK_BAR1_SOTP_REVID_MAX 2
#define VK_BAR1_SOTP_REVID_ADDR(x) \
(VK_BAR1_SOTP_REVID_BASE_ADDR + (x) * VK_BAR1_SOTP_REVID_SIZE)
/* VK device supports a maximum of 3 bars */ /* VK device supports a maximum of 3 bars */
#define MAX_BAR 3 #define MAX_BAR 3
...@@ -21,9 +198,82 @@ enum pci_barno { ...@@ -21,9 +198,82 @@ enum pci_barno {
#define BCM_VK_NUM_TTY 2 #define BCM_VK_NUM_TTY 2
/* DAUTH related info */
struct bcm_vk_dauth_key {
char store[VK_BAR1_DAUTH_STORE_SIZE];
char valid[VK_BAR1_DAUTH_VALID_SIZE];
};
struct bcm_vk_dauth_info {
struct bcm_vk_dauth_key keys[VK_BAR1_DAUTH_MAX];
};
struct bcm_vk { struct bcm_vk {
struct pci_dev *pdev; struct pci_dev *pdev;
void __iomem *bar[MAX_BAR]; void __iomem *bar[MAX_BAR];
struct bcm_vk_dauth_info dauth_info;
int devid; /* dev id allocated */
struct workqueue_struct *wq_thread;
struct work_struct wq_work; /* work queue for deferred job */
unsigned long wq_offload[1]; /* various flags on wq requested */
void *tdma_vaddr; /* test dma segment virtual addr */
dma_addr_t tdma_addr; /* test dma segment bus addr */
};
/* wq offload work items bits definitions */
enum bcm_vk_wq_offload_flags {
BCM_VK_WQ_DWNLD_PEND = 0,
BCM_VK_WQ_DWNLD_AUTO = 1,
}; };
/*
* check if PCIe interface is down on read. Use it when it is
* certain that _val should never be all ones.
*/
#define BCM_VK_INTF_IS_DOWN(val) ((val) == 0xffffffff)
static inline u32 vkread32(struct bcm_vk *vk, enum pci_barno bar, u64 offset)
{
return readl(vk->bar[bar] + offset);
}
static inline void vkwrite32(struct bcm_vk *vk,
u32 value,
enum pci_barno bar,
u64 offset)
{
writel(value, vk->bar[bar] + offset);
}
static inline u8 vkread8(struct bcm_vk *vk, enum pci_barno bar, u64 offset)
{
return readb(vk->bar[bar] + offset);
}
static inline void vkwrite8(struct bcm_vk *vk,
u8 value,
enum pci_barno bar,
u64 offset)
{
writeb(value, vk->bar[bar] + offset);
}
static inline bool bcm_vk_msgq_marker_valid(struct bcm_vk *vk)
{
u32 rdy_marker = 0;
u32 fw_status;
fw_status = vkread32(vk, BAR_0, VK_BAR_FWSTS);
if ((fw_status & VK_FWSTS_READY) == VK_FWSTS_READY)
rdy_marker = vkread32(vk, BAR_1, VK_BAR1_MSGQ_DEF_RDY);
return (rdy_marker == VK_BAR1_MSGQ_RDY_MARKER);
}
int bcm_vk_auto_load_all_images(struct bcm_vk *vk);
#endif #endif
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