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Liu Gangfc54c7f2012-08-09 05:10:01 +00001---------------------------------------
2SRIO and PCIE Boot on Corenet Platforms
3---------------------------------------
4
5For some PowerPC processors with SRIO or PCIE interface, boot location can be
6configured to SRIO or PCIE by RCW. The processor booting from SRIO or PCIE can
7do without flash for u-boot image, ucode and ENV. All the images can be fetched
8from another processor's memory space by SRIO or PCIE link connected between
9them.
10
11This document describes the processes based on an example implemented on P4080DS
12platforms and a RCW example with boot from SRIO or PCIE configuration.
13
14Environment of the SRIO or PCIE boot:
15 a) Master and slave can be SOCs in one board or SOCs in separate boards.
16 b) They are connected with SRIO or PCIE links, whether 1x, 2x or 4x, and
17 directly or through switch system.
18 c) Only Master has NorFlash for booting, and all the Master's and Slave's
19 U-Boot images, UCodes will be stored in this flash.
20 d) Slave has its own EEPROM for RCW and PBI.
21 e) Slave's RCW should configure the SerDes for SRIO or PCIE boot port, set
22 the boot location to SRIO or PCIE, and holdoff all the cores.
23
Liu Gang5a516742013-05-07 16:30:45 +080024 ----------- ----------- -----------
25 | | | | | |
26 | | | | | |
Liu Gangfc54c7f2012-08-09 05:10:01 +000027 | NorFlash|<----->| Master |SRIO or PCIE | Slave |<---->[EEPROM]
Liu Gang5a516742013-05-07 16:30:45 +080028 | | | |<===========>| |
29 | | | | | |
30 ----------- ----------- -----------
Liu Gangfc54c7f2012-08-09 05:10:01 +000031
32The example based on P4080DS platform:
33 Two P4080DS platforms can be used to implement the boot from SRIO or PCIE.
34 Their SRIO or PCIE ports 1 will be connected directly and will be used for
35 the boot from SRIO or PCIE.
36
37 1. Slave's RCW example for boot from SRIO port 1 and all cores in holdoff.
38 00000000: aa55 aa55 010e 0100 0c58 0000 0000 0000
39 00000010: 1818 1818 0000 8888 7440 4000 0000 2000
40 00000020: f440 0000 0100 0000 0000 0000 0000 0000
41 00000030: 0000 0000 0083 0000 0000 0000 0000 0000
42 00000040: 0000 0000 0000 0000 0813 8040 063c 778f
43
44 2. Slave's RCW example for boot from PCIE port 1 and all cores in holdoff.
45 00000000: aa55 aa55 010e 0100 0c58 0000 0000 0000
46 00000010: 1818 1818 0000 8888 1440 4000 0000 2000
47 00000020: f040 0000 0100 0000 0020 0000 0000 0000
48 00000030: 0000 0000 0083 0000 0000 0000 0000 0000
49 00000040: 0000 0000 0000 0000 0813 8040 547e ffc9
50
51 3. Sequence in Step by Step.
52 a) Update RCW for slave with boot from SRIO or PCIE port 1 configuration.
53 b) Program slave's U-Boot image, UCode, and ENV parameters into master's
54 NorFlash.
55 c) Set environment variable "bootmaster" to "SRIO1" or "PCIE1" and save
56 environment for master.
57 setenv bootmaster SRIO1
58 or
59 setenv bootmaster PCIE1
60 saveenv
61 d) Restart up master and it will boot up normally from its NorFlash.
62 Then, it will finish necessary configurations for slave's boot from
63 SRIO or PCIE port 1.
64 e) Master will set inbound SRIO or PCIE windows covered slave's U-Boot
65 image stored in master's NorFlash.
66 f) Master will set an inbound SRIO or PCIE window covered slave's UCode
67 and ENV stored in master's NorFlash.
68 g) Master will set outbound SRIO or PCIE windows in order to configure
69 slave's registers for the core's releasing.
70 h) Since all cores of slave in holdoff, slave should be powered on before
71 all the above master's steps, and wait to be released by master. In the
72 startup phase of the slave from SRIO or PCIE, it will finish some
73 necessary configurations.
74 i) Slave will set a specific TLB entry for the boot process.
75 j) Slave will set a LAW entry with the TargetID SRIO or PCIE port 1 for
76 the boot.
77 k) Slave will set a specific TLB entry in order to fetch UCode and ENV
78 from master.
79 l) Slave will set a LAW entry with the TargetID SRIO or PCIE port 1 for
80 UCode and ENV.
81
82How to use this feature:
83 To use this feature, you need to focus those points.
84
85 1. Slave's RCW with SRIO or PCIE boot configurations, and all cores in holdoff
86 configurations.
87 Please refer to the examples given above.
88
89 2. U-Boot image's compilation.
Liu Gang5a516742013-05-07 16:30:45 +080090 For master, U-Boot image should be generated normally.
Liu Gangfc54c7f2012-08-09 05:10:01 +000091
Liu Gang5a516742013-05-07 16:30:45 +080092 For example, master U-Boot image used on P4080DS should be compiled with
Liu Gangfc54c7f2012-08-09 05:10:01 +000093
94 make P4080DS_config.
95
Liu Gang5a516742013-05-07 16:30:45 +080096 For slave, U-Boot image should be generated specifically by
Liu Gangfc54c7f2012-08-09 05:10:01 +000097
98 make xxxx_SRIO_PCIE_BOOT_config.
99
Liu Gang5a516742013-05-07 16:30:45 +0800100 For example, slave U-Boot image used on P4080DS should be compiled with
Liu Gangfc54c7f2012-08-09 05:10:01 +0000101
102 make P4080DS_SRIO_PCIE_BOOT_config.
103
104 3. Necessary modifications based on a specific environment.
Liu Gang5a516742013-05-07 16:30:45 +0800105 For a specific environment, the addresses of the slave's U-Boot image,
106 UCode, ENV stored in master's NorFlash, and any other configurations
107 can be modified in the file:
108 include/configs/corenet_ds.h.
Liu Gangfc54c7f2012-08-09 05:10:01 +0000109
110 4. Set and save the environment variable "bootmaster" with "SRIO1", "SRIO2"
111 or "PCIE1", "PCIE2", "PCIE3" for master, and then restart it in order to
112 perform the role as a master for boot from SRIO or PCIE.
Liu Gang5a516742013-05-07 16:30:45 +0800113
114NOTE: When the Slave's ENV parameters are stored in Master's NorFlash,
115 it can fetch them through PCIE or SRIO interface. But the ENV
116 parameters can not be modified by "saveenv" or other commands under
117 the Slave's u-boot environment, because the Slave can not erase,
118 write Master's NorFlash by PCIE or SRIO link.